Reusable PEEK™ reservoirs that can be mounted to LabSmith breadboards.

BBRES-5ML 5 mL reservoir with push on Vinyl cap. Reservoir has three ports for direct connection to capillary or tubing. Not designed for pressure or vacuum applications. Three one-piece fittings or plugs required for each BBRES-5ML, not included.

Available for connection to 360µm OD (-C360), 1/32" OD (-T132), or 1/16" OD (-T116) tubing.

Vial: standard 1.5 ml screw-top vial, conical base, clear polypropylene.

Cap:  Reusable, PEEK™ cap with Viton O-ring seal.  Available with ports for 360µm OD (-C360), 1/32″ OD (-T132), or 1/16″ OD (-T116) tubing. For each cap port, a one-piece fitting is required to connect to tubing (not included). A one-piece plug can also be used (not included).

Max pressure:  1800 kPa (250 PSI).

Type: Blister Pouch.

Design: Fluidic 1183.

Material: Water with dye.

Volume: 250 µl.

Quantity: 1 blister.

Adhesive rings included.

Type: Fluid Connector, Single.

Design: Fluidic 331.

Chip interface: Mini Luer.

Fluid interface: Male.

Material: Yellow PP.

Note: PP is a harder material that is easy to use for interfacing with tubing. TPE is softer, for easy closing of fluidic interfaces with minimal force.

Quantity per pack: 10.

Type: Droplet Generator.

Design: Fluidic 1480.

Fluidic interface: Mini Luer.

Material: Topas.

Description: Double emulsion droplet generator chip.

Type: Chamber.

Design: Fluidic 1075.

Fluidic interface: Through Hole.

Material: Glass.

Description: Chamber chip, etched glass.

Chamber dimensions: 3.1 mm x 58.5 mm x 30 µm depth.

Type: Blister Test.

Design: Fluidic 522.

Fluidic interface: Mini Luer.

Material: Topas.

Blister volume: 2 x 250 µl

Description: Blister test chip - emptying and volume evaluation.

Type: Fluid Connector.

Design: Fluidic 1579.

Chip interface: Mini Luer.

Fluidic interface: Tube Tuck.

Tubing size: 1/16".

Material: Blue TPE.

Quantity per pack: 10.

Type: Wafer Format.

Material: Topas.

Diameter: 180 mm.

Thickness: 3 mm.

Quantity per unit: 10,  individually wrapped.

Type: Fluid Connector.

Design: Fluidic 1581.

Chip interface: Luer.

Fluidic interface: Tube Tuck.

Tubing size: 1/16".

Material: Blue TPE.

Quantity per pack: 10.

Type: Fluid Connector.

Design: Fluidic 1580.

Chip interface: Luer.

Fluidic interface: Tube Tuck.

Tubing size: 1/32"

Material: Green TPE.

Quantity per pack: 10.

Type: Micro Mixer - Stir Bar Actuated Mixer.

Design: Fluidic 286.

Fluidic interface: Mini Luer.

Material: Zeonor.

Type: Gradient Chip.

Design: Fluidic 834.

Fluidic interface: Mini Luer.

Material: Topas.

Type: Gradient Chip.

Design: Fluidic 834.

Fluidic interface: Mini Luer.

Material: PS.

Type: Gradient Generator.

Design: Fluidic 1166.

Fluidic interface: Mini Luer.

Material: Topas.

Adhesive tape gasket for Fluidic 864 – rhombic chamber shape. Sold individually.

Type: Basic Sensor Platform.

Design: Fluidic 864.

Fluidic interface: Mini Luer.

Material: Zeonor.

Use Adhesive Tape Gasket 10001360 (sold separately).

Type: Droplet Generator.

Design: Fluidic 1032.

Fluidic interface: Mini Luer.

Material: PC.

Description: Multi-channel design, three elements on one chip.

Type: Droplet Generator.

Design: Fluidic 1032.

Fluidic interface: Mini Luer.

Material: Topas.

Description: Multi-channel design, three elements on one chip.

Type: Droplet Generator.

Design: Fluidic 912.

Fluidic interface: Mini Luer.

Material: PC.

Description: Multi-channel design, single cross geometry.

Two-position, four-port automated valve for interface with 1/16” OD tubing (AV2X2-T116).

Learn about LabSmith's complete line of microfluidic valves.

The AV2X2 cross valve is part of LabSmith’s uProcess platform, which simplifies construction and control of microfluidic systems. Automated uProcess components include syringe pumps, temperature and pressure sensors, selector valves, temperature controllers and more. Microsoft Windows^®-based uProcess software provides straightforward control of all devices. Use uProcess to generate automated scripts to control both simple setups or complex lab automation.

LabSmith valves are constructed with Vespel^® as the wetted material* for use with a wide variety of chemicals and able to withstand harsh reagents.

Requires a 4VM02 valve manifold and EIB200 interface controller for communicating with PC. Connects to capillary via CapTite one-piece fittings (not included).

* Selected valves are available with PCTFE as the wetted material. Contact LabSmith for pricing and availability.

Type: Reaction Chamber.

Design: Fluidic 132.

Fluidic interface: Mini Luer.

Material: PMMA.

Description: Rhombic chamber chip eP2.

Chamber dimensions: 6 ml volume, 200 mm deep.

Type: Droplet Generator.

Design: Fluidic 1196.

Fluidic interface: Through Hole.

Material: Glass.

Description: Multi-channel design, single cross geometry; channel depth (nozzle): 200 µm.

Type: Cell Culture Chip.

Design: Fluidic 992.

Fluidic Interface: Mini Luer.

Material: Zeonor.

Description: Chamber chip with pre-heating channel.

Dimensions: Chamber volume: 30 ul; Ground surface: 100 mm².

Type: Straight Channel.

Design: Fluidic 268.

Fluidic interface: Luer.

Material: Zeonor.

Description: Straight channel chip with 1 channel, with double-sided adhesive tape.

Channel dimensions: 2500 µm wide x 150 µm deep x 58.5 mm long.

Type: Chip lid.

Material: PS.

Description: Chip lid for microtiter plate sized devices.

Pack of 10.

Type: Interaction.

Design: Fluidic 737.

Fluidic interface: Mini Luer.

Material: PS.

Chamber dimensions: 53.1 ml volume, 600 mm deep.

Type: Interaction.

Design: Fluidic 688.

Fluidic interface: Mini Luer.

Material: PS.

Chamber dimensions: 37.8 ml volume, 400 mm deep.

Type: Reaction Chamber.

Design: Fluidic 842.

Fluidic interface: Mini Luer.

Material: Zeonor.

Chamber dimensions: 50 mL volume, 500 mm deep.

Type: Droplet Generator.

Design: Fluidic 719.

Fluidic interface: Mini Luer.

Material: PC.

Description: Droplet generation and storage chip.

Type: PCR.

Design: Fluidic 708.

Material: Topas.

Interface: Olive.

Description: PCR chip with meandering channels for continuous flow.

Channel dimensions: 200 mm wide x 100 mm deep x 1879 mm length.

Notes: 41 cycles (1 inlet, 1 outlet).

Type: PCR

Design: Fluidic 708.

Material: PC.

Interface: Olive.

Description: PCR chip with meandering channels for continuous flow.

Channel dimensions: 200 mm wide x 100 mm deep x 1879 mm length.

Notes: 41 cycles (1 inlet, 1 outlet).

Type: Reaction Chamber.

Design: Fluidic 584.

Fluidic interface: Mini Luer.

Material: Topas.

Description: Reaction chamber chip.

Chamber dimensions: 20 µL volume, 500 µm deep.

Type: Straight Channel.

Design: Fluidic 558.

Fluidic interface: Mini Luer.

Material: Zeonor.

Description: Straight-channel chip with 16 parallel channels.

Channel dimensions: 10 µm wide x 700 µm deep x 18 mm long.

Type: Assay Chip.

Design: Fluidic 429.

Fluidic Interface: Mini Luer.

Material: Topas.

Description: Assay Chip 1, on-board metering, mixing, and reaction; two turning valves included.

Dimensions:

• Metering cavity volume: 15 µl
• Metering loop volume; 17 µl
• Mixing chamber volume: 102 µl
• Reaction & detection chamber volume: 20 µl

Type: Straight Channel.

Design: Fluidic 144.

Fluidic interface: Through Hole.

Material: PMMA.

Description: Straight-channel chip with 4 parallel channels.

Channel dimensions: 100 µm wide x 100 µm deep x 58.5 mm long.

Type: Straight Channel.

Design: Fluidic 142.

Fluidic interface: Through Hole.

Material: Topas.

Description: Straight-channel chip with 16 channels.

Channel dimensions: 200 µm wide x 100 µm deep x 18 mm long.

Type: Straight Channel.

Design: Fluidic 142.

Fluidic interface: Through Hole.

Material: PMMA.

Description: Straight-channel chip with 16 channels.

Channel dimensions: 200 µm wide x 100 µm deep x 18 mm long.

Type: Straight Channel.

Design: Fluidic 144.

Fluidic interface: Through Hole.

Material: Topas.

Description: Straight-channel chip with 4 parallel channels.

Channel dimensions: 100 µm wide x 100 µm deep x 58.5 mm long.

Type: Straight Channel.

Design: Fluidic 144.

Fluidic interface: Through Hole.

Material: PMMA.

Description: Straight-channel chip with 4 parallel channels.

Channel dimensions: 100 µm wide x 100 µm deep x 58.5 mm long.

Type: Straight Channel.

Design: Fluidic 138.

Fluidic interface: Through Hole.

Material: Topas.

Description: Straight-channel chip with 4 parallel channels.

Channel dimensions: 1000 µm wide x 200 µm deep x 58.5 mm long.

Type: Turning Valve.

Design: Fluidic 155.

Fluidic Interface: Mini Luer.

Material: Zeonor.

Description: turning valve chip. Two turning valves included.

Type: Sorting Chip.

Design: Fluidic 381.

Fluidic interface: Mini Luer.

Material: Zeonor.

Description: Particle and Cell Sorting Chip - Sheath Flow.

Channel Dimensions: Channel depth structure 1: 30 um; Channel depth structure 2: 30 um.

Type: Straight Channel.

Design: Fluidic 152.

Fluidic interface: Mini Luer.

Material: Topas.

Description: Straight-channel chip with 16 parallel channels.

Channel dimensions: 1000 µm wide x 200 µm deep x 18 mm long.

Type: Droplet Generator.

Design: Fluidic 163.

Fluidic interface: Mini Luer.

Material: PC.

Description: One channel design; input channel width: 140 µm; collection channel width: 420 µm; channel depth: 140 µm.

Type: Fluid Connector Single.

Design: Fluidic 630.

Chip interface: Through Hole.

Fluidic Interface: Olive.

Material: Opaque PP.

Quantity per pack: 10.

Compatible with Fluidic 699 Adhesive Ring.

Type: Frame.

Fluidic: 352.

Description: These stackable handling frames allow you to use all your standard equipment that can handle devices with the well spacing of a 1536 microtiter plate, for example for pipetting and read out of your microfluidic chips.

Details: Orange, high skirt.

Type: Plug.

Design: Fluidic 793.

Chip interface: Mini Luer.

Material: PP.

Color: Red.

Description: Single, one-wing, low volume displacement.

Quantity: 10.

Type: PCR.

Design: Fluidic 243.

Fluidic interface: Olive.

Material: PC.

Chip with meandering channels for continuous flow PCR.

Channel dimensions: 600 mm wide x 300 mm deep x 1637 mm length.

Notes: 40 cycles (1 inlet, 1 outlet).

Type: Cross Channel.

Design: Fluidic 166.

Fluidic interface: Through Hole.

Material: PMMA.

Cross channel chip with two perpendicular channels.

Through hole diameter: 1 mm.

Channel dimensions: 100 µm wide x 100 µm deep x 87 mm long.

Lid Thickness: 175 µm.

Type: Micro Mixer.

Design: Fluidic 1460.

Fluidic interface: Mini Luer.

Material: Zeonor.

Micro Mixer - Herringbone Mixer.

Type: Tank.

Design: Fluidic 639.

Chip Interface: Luer.

Material: PP.

Description: Single, 500 µl volume, cap with Mini Luer interface (with venting membrane in cap).

Quantity: 10 single tanks.

Type: Fluid Connector.

Design: Fluidic 302.

Chip interface: Through Hole.

Fluid interface: Luer Lock.

Material: Topas.

Quantity per pack: 10.

Notes: 1.3 mm diameter through hole size.

Compatible with Fluidic 697 Adhesive Ring.

Type: Fluid Connector - Single.

Design: Fluidic 331.

Chip interface: Mini Luer.

Fluid interface: Male.

Material: Red PP.

Note: PP is a harder material that is easy to use for interfacing with tubing. TPE is softer, for easy closing of fluidic interfaces with minimal force.

Quantity per pack: 10.

Type: Straight Channel.

Design: Fluidic 268.

Fluidic interface: Luer.

Material: Topas.

Straight-channel Chip with 1 Channel.  Open Platform Chip for Self-assembly.

Channel dimensions: 2500 µm wide x 290 um deep x 58.5 mm long.

Type: Sorting Chip.

Design: Fluidic 381.

Fluidic interface: Mini Luer.

Material: PMMA.

Details: Particle and Cell Sorting Chip - Sheath Flow

Type: Assay Development.

Design: Fluidic 490.

Fluidic Interface: Mini Luer.

Material: Topas.

Description: Assay development chip for magnetic bead based or hybridization assays; two turning valves included.

Cavity Volume: 30 µl.

Type: Reaction Chamber.

Design: Fluidic 561.

Fluidic interface: Mini Luer.

Material: Zeonor.

Chamber Dimensions: 10 mL volume, 350 mm deep.

Lid thickness: 188 mm.

Type: Membrane.

Design: Fluidic 783.

Fluidic interface: Mini Luer.

Material: Topas.

Membrane Chip with 2 Plasma Generation Units.

Type: Micro Mixer.

Design: Fluidic 999.

Fluidic interface: Mini Luer.

Material: Zeonor.

Description: Micro mixer, finger pump mixer chip.

Lid thickness: 140 µm.

Type: Micro Mixer.

Design: Fluidic 1079.

Fluidic interface: Mini Luer.

Material: Zeonor.

Micro Mixer - 3D Serpentine Mixer.

Lid thickness: 188 µm.

Type: Micro Mixer.

Design: Fluidic 1108.

Fluidic interface: Mini Luer.

Material: Topas.

Description: Micro Mixer - Snowman Mixer.

Lid thickness: 140 µm.

Type: Micro Mixer.

Design: Fluidic 1460.

Fluidic interface: Mini Luer.

Material: PC.

Micro Mixer - Herringbone Mixer.

Type: Adhesive ring for Fluidic 302 (Female Luer Lock Compatible Interface).

Design: Fluidic 697.

Type: PCR.

Design: Fluidic 683.

Fluidic interface: Mini Luer.

Material: Topas.

PCR Chip with dead-end air reservoir.

Chamber dimensions: 10 chambers, 10 ml volume, 500 mm deep.

Lid thickness: 175 mm.

Type: Membrane.

Design: Fluidic 200.

Fluidic interface: Luer and Mini Luer.

Material: Topas.

Plasma/Serum Generation Chip with 4 Plasma Generation Membranes.

Membrane Diameter: 10 mm.

Type: Straight Channel.

Design: Fluidic 152.

Fluidic interface: Through Hole.

Material: Topas.

Description: Straight-channel chip with 16 parallel channels.

Channel dimensions: 1000 µm wide x 200 µm deep x 18 mm long.

Lid Thickness: 140 µm.

Replacement motor kit for AV series automated valves.
Includes motor with PCB and installed fork.

Manual turning valve actuator for microfluidic ChipShop rotary valve.  Tool only—chip not included.

Quantity per pack: 1.

Type: Plug.

Design: Fluidic 1262.

Chip interface: Mini Luer.

Material: Green TPE.

Quantity per set: 10.

Description: Mini Luer cover for preventing evaporation and contamination.

Type: Sorting Chip

Design: Fluidic 386.

Fluidic interface: Mini Luer.

Material: PMMA.

Details: Particle and Cell Sorting Chip - Sheath Flow

Type: Sorting Chip

Design: Fluidic 386.

Fluidic interface: Mini Luer.

Material: Zeonor.

Details: Particle and Cell Sorting Chip - Sheath Flow

Type: Adhesive ring. Compatible with Fluidic 630 and Fluidic 631.

Design: Fluidic 699.

Type: Cross Channel Electrode Chip.

Design: Fluidic 201.

Fluidic interface: Through Hole.

Material: PMMA.

Cross channel chip with two perpendicular channels. Note: 1 mm through hole size.

Channel dimensions: 50 mm wide x 50 mm deep x 87.8 mm long.

Lid Thickness: 175 mm.

Type: Plug.

Design: Fluidic 334.

Chip interface: Mini Luer.

Material: Red PP

Description: Single.

Quantity per pack: 10.

Type: H-shaped Channel.

Design: Fluidic 164.

Fluidic interface: Mini Luer.

Material: PMMA.

Chip with 4 sets of H-shaped channels.

Channel dimensions:

Type: Membrane.

Design: Fluidic 480.

Fluidic interface: Mini luer.

Material: PS.

Cross flow membrane chip with 2 transparent Membranes

Pore size: .4 mm.

Type: Reaction Chamber.

Design: Fluidic 1003.

Fluidic interface: Mini Luer.

Material: PC.

Chamber dimensions: 27 mL volume, 350 mm deep.

Lid thickness: 188 mm.

Type: Micro Mixer.

Design: Fluidic 186.

Fluidic interface: Luer.

Material: PC.

Diffusion Mixer Chip

Channel depth: 100 µm.

Channel width inlets: 100/200 µm.

Channel width mixer: 200 µm.

Channel width outlet: 200 µm.

Lid thickness: 175 µm.

Type: Micro Mixer.

Design: Fluidic 658.

Fluidic interface: Mini Luer.

Material: Topas.

Micro Mixer - pearl chain mixer.

Lid thickness: 125 µm.

Type: Sorting Chip

Design: Fluidic 283.

Fluidic interface: Mini Luer.

Material: Zeonor.

Details: Particle and Cell Sorting Chip - Sheath Flow

Type: Sorting Chip

Design: Fluidic 283.

Fluidic interface: Mini Luer.

Material: PMMA.

Details: Particle and Cell Sorting Chip - Sheath Flow

Type: Frame.

Description: These stackable handling frames allow you to use all your standard equipment that can handle devices with the well spacing of a 1536 microtiter plate, for example for pipetting and read out of your microfluidic chips.

Fluidic: 353

Description: Orange, low skirt

Type: Frame.

Description: These stackable handling frames allow you to use all your standard equipment that can handle devices with the well spacing of a 1536 microtiter plate, for example for pipetting and read out of your microfluidic chips.

Fluidic: 352

Details: Yellow, high skirt

Type: Frame.

Description: These stackable handling frames allow you to use all your standard equipment that can handle devices with the well spacing of a 1536 microtiter plate, for example for pipetting and read out of your microfluidic chips.

Fluidic: 352

Description: Red, high skirt

Type: Plug.

Design: Fluidic 438.

Chip interface: Mini Luer.

Material: Red PP.

Quantity: 10.

Description: Single, low volume displacement Mini Luer plug.

Type: Plug.

Design: Fluidic 438.

Chip interface: Mini Luer.

Material: Opaque TPE.

Quantity: 10.

Description: Single, low volume displacement Mini Luer plug.

Type: Microscope Slides.

Description: 75.5 mm x 25.5 mm x 1.0 mm thick individually wrapped microscopy slides.

Quantity: 10.

Material: Black Zeonor.

Type: Microscope Slides.

Description: 75.5 mm x 25.5 mm x 1.0 mm thick individually wrapped microscopy slides.

Quantity: 10.

Material: Zeonor.

Type: Microscope Slides.

Description: 75.5 mm x 25.5 mm x 1.0 mm thick individually wrapped microscopy slides.

Quantity: 10.

Material:  Black PMMA.

Type: Microscope Slides.

Description: 75.5 mm x 25.5 mm x 1.0 mm thick individually wrapped microscopy slides.

Quantity: 10.

Material:  PMMA.

Type: Fluid Connector - Single.

Design: Fluidic 331.

Chip interface: Mini Luer.

Fluid interface: Male.

Material: TPE.

Color: Opaque.

Quantity per pack: 10.

Note: TPE is softer, for easy closing of fluidic interfaces with minimal force. PP is a harder material that is easy to use for interfacing with tubing. 

Type: Fluid Connector - Single.

Design: Fluidic 331.

Chip interface: Mini Luer.

Fluid interface: Male.

Material: Green PP.

Note: PP is a harder material that is easy to use for interfacing with tubing. TPE is softer, for easy closing of fluidic interfaces with minimal force.

Quantity per pack: 10.

Type: Fluid Connector - Single.

Design: Fluidic 331.

Chip interface: Mini Luer.

Fluid interface: Male.

Material: Opaque PP.

Note: PP is a harder material that is easy to use for interfacing with tubing. TPE is softer, for easy closing of fluidic interfaces with minimal force.

Quantity per pack: 10.

Type: Fluid Connector - Single.

Design: Fluidic 331.

Chip interface: Mini Luer.

Fluid interface: Male.

Material: Blue PP.

Note: PP is a harder material that is easy to use for interfacing with tubing. TPE is softer, for easy closing of fluidic interfaces with minimal force.

Quantity per pack: 10.

Type: Plug.

Design: Fluidic 270.

Chip interface: Luer.

Description: Single.

Quantity: 10.

Material: Opaque PMMA.

Type: Plug.

Design: Fluidic 270.

Chip interface: Luer.

Description: Single.

Quantity: 10.

Material: Black PP.

Type: Fluid Connector - Single.

Design: Fluidic 263.

Chip interface: Luer.

Fluid interface: Male.

Material: Green PP.

Note: PP is a harder material that is easy to use for interfacing with tubing. TPE is softer, for easy closing of fluidic interfaces with minimal force.

Quantity per pack: 10.

Type: Fluid Connector - Single.

Design: Fluidic 263.

Chip interface: Luer.

Fluid interface: Male.

Material: Opaque PP.

Note: PP is a harder material that is easy to use for interfacing with tubing. TPE is softer, for easy closing of fluidic interfaces with minimal force.

Quantity per pack: 10.

Type: Plug.

Design: Fluidic 334.

Chip interface: Mini Luer.

Material: Green PP

Description: Single.

Quantity: 10.

Type: Plug.

Design: Fluidic 334.

Chip interface: Mini Luer.

Material: Green PP

Description: Single.

Quantity: 10.

Type: Plug.

Design: Fluidic 334.

Chip interface: Mini Luer.

Material: Opaque TPE

Description: Single.

Quantity: 10.

Create multifluidic circuits with up to 8 individual reagents and/or fluids, incorporating uProcess automated microfluidic valves.

Kit includes a AV801 (9-port, 8-position) valve and AV201 (3-port, 2-position) valve, as well as an SPS-01 automated syringe pump, uProcess software, fluid routing components and breadboard for easy construction.

The standard kit includes 5mL breadboard reservoirs. 1mL reservoirs (shown in image) can be substituted for additional cost (contact LabSmith for details).

5% off the cost of purchasing individual components.

Typically ships within 1 week.

The Thermal Control Starter Kit lets you precisely heat and cool their micro-system using the uProcess software.  The uThermal products interface with the rest of the LabSmith uProcess™ product line, which includes syringe pumps, automated valves, pressure sensors and connectors for complete microfludic control. The kit includes a 5% discount off individual component prices.

The uProcess™ product line is a modular breadboard platform for researchers to create and control microfluidic circuits, prototypes and platforms. uProcess™ software lets you program sequences of syringe pump actuations.

Typically ships within 1 week.

The Valve Starter Kit includes everything you need to incorporate uProcess automated microfluidic valves into your microfluidic setup. The Valve Kit includes a 5% discount off individual component pricing.

Learn about LabSmith's complete line of microfluidic valves.

The uProcess™ product line is a modular breadboard platform for researchers to create and control microfluidic circuits. uProcess™ software lets you program sequences of valve and syringe pump actuations. Products interface directly with LabSmith’s CapTite™ Microfluidic Products.

Typically ships within 1 week

The uProcess™ product line is a modular breadboard platform for researchers to create and control microfluidic circuits, prototypes and platforms. The uProcess™ software allows the user to program sequences of valve and syringe pump actuations. Products interface directly with LabSmith’s CapTite™ Microfluidic Products.

Example continuous dispense setup.

The CD-PKG package includes the components needed to maintain a continuous flow into a microfluidic system. Kit prices include a 5% discount off individual component pricing.

Typically ships within 1 week.

The Syringe Starter Kit includes everything you need to incorporate a uProcess programmable syringe pump into your microfluidic setups. The kit includes a 5% discount off individual component prices.

The uProcess™ product line is a modular breadboard platform for researchers to create and control microfluidic circuits. uProcess™ software lets you program sequences of valve and syringe pump actuations. Products interface directly with LabSmith’s CapTite™ Microfluidic Products.

Typically ships within 1 week.

The uProcess™ product line is a modular breadboard platform for researchers to create and control microfluidic circuits, prototypes and platforms. The uProcess™ software allows the user to program sequences of syringe pump actuations. Products interface directly with LabSmith’s CapTite™ Microfluidic Products.

The Pressure Sensor Starter Kit lets you measure and control pressure in your microfluidic system, circuit, prototype or platform. The kit offers a 5% discount off individual component prices.

Typically ships within 1 week.

Type: Weir Filter.

Design: Fluidic 1190.

Fluidic interface: Luer.

Material: Topas.

Description: Trapping chamber (barrier) chip, height: 500 µm, barriers: 40 µm on either side.

Lid thickness: 140 µm.

Type: Weir-Filter.

Design: Fluidic 1329.

Fluidic interface: Mini Luer.

Material: Zeonor.

Barrier Chamber Chip.

Lid thickness: 188µm.

Type: Weir Filter.

Design: Fluidic 220.

Fluidic interface: Mini Luer.

Material: Topas.

Channel dimension: 500 µm W x 500 µm D

Slit dimensions:

Structure 1: 7 mm W, 20 µm H
Structure 2: 7 mm W, 10 µm H
Structure 3: 7 mm W, 10 µm H
Structure 4: 7 mm W, 5 µm H.

Lid thickness: 140 µm.

Type: Fluid Connector.

Design: Fluidic 997.

Chip interface: Mini Luer.

Fluidic interface: Tube Tuck.

Tubing size: 1/32".

Material: Green TPE.

Quantity per pack: 10.

Type: Fluid Connector - Twin.

Design: Fluidic 332.

Fluidic interface: Mini Luer.

Material: Opaque PP.

Note: PP is a harder material that is easy to use for interfacing with tubing. TPE is softer, for easy closing of fluidic interfaces with minimal force.

Quantity per pack: 10.

Type: Fluid Connector - row of four.

Design: Fluidic 333

Chip interface: Mini Luer.

Fluidic interface: Male.

Material: Opaque PP.

Quantity per pack: 10.

Note: PP is a harder material that is easy to use for interfacing with tubing. TPE is softer, for easy closing of fluidic interfaces with minimal force.

Type: Fluid Connector.

Design: Fluidic 997.

Chip interface: Mini Luer.

Fluidic Interface: Tube Tuck.

Tubing size: 1/32".

Material: Yellow TPE.

Quantity per pack: 10.

Type: Field-Flow Fractionation.

Design: Fluidic 120.

Material: Zeonor.

Fluidic interface: Olive.

Lid thickness: 188 µm

Type: Pillar.

Design: Fluidic 261.

Fluidic interface: Mini Luer.

Material: Zeonor.

Pillar 1:

Diameter: 100µm
Distance: 350µm
Depth: 150µm.

Pillar 2:
Diameter: 150µm
Distance: 400µm
Depth: 150µm.

Pillar 3:
Diameter: 200µm
Distance: 500µm
Depth: 200µm.

Pillar 4:
Diameter: 250µm
Distance: 600µm
Depth: 200µm.

Pillar 5:
Diameter: 300µm
Distance: 700µm
Depth: 250µm.

Pillar 6:
Diameter: 350µm
Distance: 800µm
Depth: 250µm.

Pillar 7:
Diameter: 150µm
Distance: 500µm
Depth: 300µm.

Pillar 8:
Diameter: 150µm
Distance: 500-700µm
Depth: 300µm.

Lid Thickness: 188 mm.

Type: Weir-Filter.

Design: Fluidic 220.

Fluidic interface: Mini Luer.

Material: Zeonor.

Channel dimension: 500µm W x 500µm D

Slit dimensions:

Structure 1: 7mm W, 20µm H
Structure 2: 7mm W, 10µm H
Structure 3: 7mm W, 10µm H
Structure 4: 7mm W, 5µm H.

Lid thickness: 183µm.

Teach Microfluidics with Easy-to-Use Components and Automation

LabSmith's microfluidics education kit helps students learn the fundamentals of constructing and automating microfluidic flows.

The kit, which consists of our research-grade fluid flow and automation products, is geared toward introductory college students and includes instruction for co-mixing experiment, patterned flow, and gradient flow, with endless variations as kit components are fully reusable.

1 to 4 students can participate with each kit. No previous microfluidics or programming experience is required. Step-by-step instruction and support videos help students accomplish fluid routing, automation and scripting tasks, to build a basic setup as well as more complex circuits.

Students will learn:

• basic microfluidic systems and principles
• assembly of leak-free microfluidic circuits
• fluid routing, switching and mixing
• microfluidic chip functions and connections
• automation of pumps and valves
• scripting to control flows
• calculation of Reynolds number
• cleaning and reuse of components.

Kit contents

Typically ships within 1 week.

Type: Micro Mixer.

Design: Fluidic 658.

Fluidic interface: Mini Luer.

Material: Topas.

Micro Mixer - pearl chain mixer.

Lid thickness: 125 µm.

Type: Micro Mixer.

Design: Fluidic 187.

Fluidic interface: Luer.

Material: PC.

Herringbone Mixer Chip Design.

Channel depth: 100 µm.

Channel width inlet: 300 µm.

Channel width mixer: 600 µm.

Channel width outlet: 600 µm.

Lid thickness: 175 µm.

Type: Micro Mixer.

Design: Fluidic 187.

Fluidic interface: Luer.

Material: Zeonor.

Description: Herringbone Mixer Chip.

Channel depth: 100 µm.

Channel width inlet: 300 µm.

Channel width mixer: 600 µm.

Channel width outlet: 600 µm.

Lid thickness: 188 µm.

Type: Cross Channel.

Design: Fluidic 189.

Fluidic interface: Luer.

Material: Topas.

Extended Length Cross channel chip with two perpendicular channels.

Channel dimensions: 50 µm wide x 50 µm deep x 127 mm long.

Lid Thickness: 140 µm.

Type: Cross Channel.

Design: Fluidic 82.

Fluidic interface: Luer.

Material: Zeonor.

Cross channel chip with two perpendicular channels.

Channel dimensions: 50 µm wide x 50 µm deep x 87 mm long.

Lid Thickness: 100 µm.

Type: Droplet Generator.

Design: Fluidic 285.

Fluidic interface: Mini Luer.

Material: Topas.

Multi-channel design.

Lid thickness 140 µm.

Type: Reaction Chamber.

Design: Fluidic 134.

Fluidic interface: Mini Luer.

Material: Zeonor.

Rhombic chamber chip eP2.

Chamber dimensions:

Lid thickness: 188 µm.

Type: Plug.

Design: Fluidic 793.

Chip interface: Mini Luer.

Material: TPE.

Color: Opaque.

Description: Single, one-wing, low volume displacement.

Quantity: 10.

Type: Reaction Chamber.

Design: Fluidic 172.

Fluidic interface: Mini Luer.

Material: Zeonor.

Rhombic chamber chip eP1.

Chamber dimensions: 120 µL volume, 500 µm depth.

Lid thickness: 188 µm.

Type: Reaction Chamber.

Design: Fluidic 584.

Fluidic interface: Mini Luer.

Material: Zeonor.

Chamber dimensions: 20 µL volume, 500 µm deep.

Lid thickness: 188 µm.

Type: Reaction Chamber.

Design: Fluidic 584.

Fluidic interface: Mini Luer.

Material: PC.

Chamber dimensions: 20 µL volume, 500 µm deep.

Lid thickness: 175 µm.

Type: Reaction Chamber.

Design: Fluidic 584.

Fluidic interface: Mini Luer.

Material: Topas.

Chamber dimensions: 20 µL volume, 500 µm deep.

Lid thickness: 140 µm.

Type: Membrane.

Design: Fluidic 747

Interface: Mini Luer.

Material: PS.

Cross flow membrane chip.

Pore size: 8 mm.

Lid thickness: 125 mm.

Type: Droplet Generator.

Design: Fluidic 947.

Fluidic interface: Mini Luer.

Material: Topas.

Multi-channel design.

Lid thickness: 100 µm.

Type: Droplet Oil.

Description: MCS-OIL-10 oil for droplet generation. Compatible with PC, PMMA, COC (Topas), COP (Zeonor).

Quantity: 10 ml.

Type: Droplet Generator.

Design: Fluidic 912.

Fluidic interface: Mini Luer.

Material: Topas.

Description: Multi-channel design, single cross geometry.

Type: Titer Plate.

Design: Fluidic 18.

Fluidic Interface: Through Hole.

Material: PC.

Titer Plate- microscopy slide format.

Well depth: 20 µm.

Well size; Structure 1: Top 124 µm, Bottom 96 µm; Structure 2: Top 224 µm, Bottom 196 µm; Structure 3: Top 424 µm, Bottom 396 µm

Well spacing: Structure 1: 281.25 µm; Structure 2: 562.5 µm; Structure 3: 1125 µm

Type: Titer Plate.

Design: Fluidic 18.

Fluidic Interface: Through Hole.

Material: PMMA.

Titer plate- microscopy slide format (chips are labeled Nanotiter plate)

Well depth: 20µm.

Well size: Structure 1: Top 124 µm, Bottom 96 µm; Structure 2: Top 224 µm, Bottom 196 µm; Structure 3: Top 424 µm, Bottom 396 µm

Well spacing: Structure 1: 281.25 µm; Structure 2: 562.5 µm; Structure 3: 1125 µm

The Mini Luer Interface Kit includes fittings and disposable syringes for manual dispensing of microfluidic volumes.

* Adapters are available through LabSmith in packs of 10, P/N 10000094.

Type: Reaction Chamber.

Design: Fluidic 1003.

Fluidic interface: Mini Luer.

Material: Zeonor.

Chamber dimensions: 27 mL volume, 350 mm deep.

Lid thickness: 188 mm.

Type: Reaction Chamber.

Design: Fluidic 1003.

Fluidic interface: Mini Luer.

Material: Topas.

Chamber dimensions: 27 µL volume, 350 µm deep

Lid thickness: 140 µm

Type: Reaction Chamber.

Design: Fluidic 132.

Fluidic interface: Mini Luer.

Material: Topas.

Description: Rhombic chamber chip eP2.

Chamber dimensions: 6 mL volume, 200 mm deep.

Lid thickness: 140 mm.

Type: Straight Channel.

Design: Fluidic 180.

Fluidic interface: Olive.

Material: Topas.

Description: Straight-channel chip with 4 parallel channels; channel dimensions: 800 µm wide x 20 µm deep x 58.5 mm long.

Lid thickness: 140 µm.

Type: Droplet Generator.

Design: Fluidic 440.

Fluidic interface: Mini Luer.

Material: PC.

Multi-channel design.

Lid thickness 175 µm.

Type: Droplet Generator.

Design: Fluidic 719.

Fluidic interface: Mini Luer.

Material: Topas.

Description: Droplet generation and storage chip.

Lid thickness 140 µm.

Type: PCR.

Design: Fluidic 243.

Fluidic interface: Olive.

Material: Zeonor.

Chip with meandering channels for continuous flow PCR.

Channel dimensions: 600 mm wide x 300 mm deep x 1637 mm length.

Notes: 40 cycles (1 inlet, 1 outlet).

Lid thickness: 188 mm.

Type: PCR

Design: Fluidic 47.

Material: PC.

Interface: Olive.

PCR chip with meandering channels for continuous flow.

Channel dimensions: 500 mm wide x 100 mm deep x 810 mm length.

Notes: 15 cycles (1 inlet, 1 outlet)

Lid thickness: 175 mm.

Type: Syringe Adapter. Syringe not included.

Material: PP.

Description: OD: 1.7 mm; ID: 0.5 mm; length: 55 mm.

Quantity: 1

Former Part Number: 11-0805-0000-00.

Type: Waste Chamber.

Design: Fluidic 95.

Fluidic interface: Luer.

Material: PMMA.

Straight-channel chip with waste chamber.

Channel dimensions: 3000 µm wide x 200 µm deep x 36 mm long.

Chamber volume: 75 µL.

Lid thickness: 175 µm.

Type: Straight Channel.

Design: Fluidic 268.

Fluidic interface: Luer.

Material: PMMA.

Straight-channel chip with 1 channel.  Open platform chip for self-assembly

Channel dimensions: 2500 µm wide x 150 um deep x 58.5 mm long.

Lid thickness: 175 µm.

Type: Droplet Generator.

Design: Fluidic 163.

Material: Topas.

Fluidic interface: Mini Luer.

Description: One channel design; input channel width: 140 µm; collection channel width: 420 µm; channel depth: 140 µm.

Lid thickness: 140 µm.

Type: Droplet Generator.

Design: Fluidic 162.

Fluidic interface: Mini Luer.

Material: Topas.

Description: One channel design, input channel width: 70 µm, collection channel width: 210 µm, channel depth: 70 µm, lid thickness: 140 µm.

Type: Droplet Generator.

Design. Fluidic 536.

Fluidic interface: Luer.

Material: PC.

Droplet generator chip with three elements on one chip.

Lid thickness 175 µm.

Type: Sorting.

Design: Fluidic 382.

Fluidic Interface: Mini Luer.

Material: PMMA.

Description: Particle and cell sorting chip - spiral sorter chip contains 4 sorting structures.

Structure dimensions:

Lid thickness: 175 µm.

Type: Straight Channel.

Design: Fluidic 180.

Fluidic interface: Mini Luer.

Material: PMMA.

Straight-channel chip with 4 parallel channels.

Channel dimensions: 800 µm wide x 20 µm deep x 58.5 mm long.

Lid thickness: 175 µm.

Type: Fluid Connector.

Design: Fluidic 0391.

Chip interface: Mini Luer.

Fluidic interface: Pipette.

Material: Yellow PP.

Quantity per pack: 10.

Note: PP is a harder material that is easy to use for interfacing with tubing. TPE is softer, for easy closing of fluidic interfaces with minimal force.

Type: Straight Channel.

Design: Fluidic 143.

Fluidic interface: Mini Luer.

Material: PMMA.

Straight channel chip with 4 parallel channels.

Channel dimensions: 20 µm wide x 20 µm deep x 58.5 mm long.

Lid thickness: 175 µm.

Type: Fluid Connector.

Design: Fluidic 390.

Chip Interface: Mini Luer

Fluid Interface: Luer

Material: Opaque PP.

Description: Single, Mini Luer to Luer adapter.

Quantity per pack: 10

Type: Straight Channel.

Design: Fluidic 145.

Fluidic interface: Mini Luer.

Material: PMMA.

Straight-Channel Chip with 4 Parallel Channels

Channel dimensions: 50 µm wide x 50 µm deep x 58.5 mm long.

Lid thickness: 175 µm.

Type: Droplet Generator.

Design: Fluidic 440.

Fluidic interface: Mini Luer.

Material: Topas.

Description: Multi-channel design.

Lid thickness: 140 µm.

Type: Micro Mixer.

Design: Fluidic 186.

Fluidic interface: Luer.

Material: Zeonor.

Diffusion Mixer Chip

Channel depth: 100 µm.

Channel width inlets: 100/200 µm.

Channel width mixer: 200 µm.

Channel width outlet: 200 µm.

Lid thickness: 188 µm.

The Electrophoresis Starter Kit includes everything you need to incorporate uEP01 Electrophoresis Power Modules into your electrophoresis or dielectrophoresis setup, to control voltage using uProcess software. Kit includes two sets of cables.

The Electrophoresis Starter Kit include a 5% discount off individual component prices.

NOTE: Accompanying image shows setup with Electrophoresis Starter Kit. Microfluidic chip is not included.

Typically ships within 1 week.

Type: Fluid Connector - Single.

Design: Fluidic 631.

Chip interface: Through Hole.

Fluid interface: Mini Luer.

Material: Opaque PP.

Quantity per pack: 10.

Compatible with Fluidic 699 Adhesive Ring.

Type: Tank.

Design: Fluidic 639.

Chip Interface: Luer.

Material: PP.

Description: Single, 500 µl volume, cap with Mini Luer interface (without venting membrane in cap).

Quantity: 10 single tanks.

Type: Waste Chamber.

Design: Fluidic 272.

Fluidic interface: Mini Luer.

Material: PMMA.

Straight Channel Chip with Waste Chamber.

Channel dimensions: 2500 µm wide x 200 µm deep x 26 mm long.

Lid thickness: 175 µm.

Type: Tank.

Design: Fluidic 833.

Chip Interface: Luer.

Material: PP.

Description: Single, 200 ml volume, includes venting cap without venting membrane.

Quantity: 10 single tanks.

Black anodized aluminum heat sink for use with uTE Thermal Electric Modules. Choose from two sizes. Adhesive backing.

A uTS temperature sensor is recommended for monitoring and control of the uTE module.

Typically ships within 2-3 days.

Micro-clip set for use with uEP01 cables and with A-EHVC12 cable set for the uEP300-12 high-voltage power supply. Includes one red and one black clip.

The A-EHVC12 kit includes 24 high-voltage cables for use with the uEP300-12 electrophoresis power supply.

The kit includes 12 black and 12 red cables with friction fit terminals. All cables are 60" (150 cm) long.

12-channel Precision High-Voltage Supply for Electrophoresis and Gel Electrophoresis

Type: Droplet Generator.

Design: Fluidic 537.

Fluidic interface: Luer.

Material: PC.

Four elements on one chip design.

Lid thickness 175 µm.

Type: Sorting.

Design: Fluidic 382.

Fluidic Interface: Mini Luer.

Material: Zeonor.

Particle and cell sorting chip - spiral sorter. Chip contains 4 sorting structures.

Structure dimensions:

Lid thickness: 188 mm.

The uEP01-300 is an extremely compact, fully programmable high-voltage supply for controlling electrophoresis and gel electrophoresis setups. Measuring just 7.7 cm (3.0 in.) long, the uEP01 provides constant voltage to 300V, or current or power. Multiple modules can be controlled together for fully independent, multi-channel control.

The uEP01 is part of LabSmith’s uProcess™ automation platform, which includes hardware devices and uProcess software, for constructing and automating microfluidic systems. uProcess software lets you control one or more uEP01 modules and integrate them into complete systems. You can also use the uEP01 in conjunction with uProcess pressure sensors and temperature sensors for constant pressure or temperature modes.

Max voltage: 300 V

Max current: 0.25 A

Max power: 15 W  

An EIB200 automation interface is required to control and monitor using the uEP300 using LabSmith's uProcess software.  An optional uProcess breadboard can be used to mount the EIB200, multiple uEP01 modules, and other uProcess devices and components.

Type: Droplet Generator.

Design: Fluidic 537.

Fluidic interface: Luer.

Material: Topas.

Four elements on 1 chip design.

Lid thickness: 140 µm.

Type: Droplet Generator.

Design: Fluidic 536.

Fluidic interface: Luer.

Material Topas.

Double emulsion generator chip (droplet in droplet). 3 elements on 1 chip design.

Lid thickness 140 µm.

Type: Tubing.

Material: Silicone.

ID: 0.76 mm.

OD: 1.65 mm.

Qty 1 m.

See Tubing and Capillary for more options.

Type: Tubing.

Material: PTFE.

ID: 0.5 mm.

OD: 1.0 mm.

Qty 1 m.

See Tubing and Capillary for more options.

Optics module for the SVM340 Microscope with 5 MP black & white CMOS camera.  The module includes a mount for a fluorescence filter (not included) and threading for a standard DIN objective (not included).

Specifications:
Resolution: 2448 x 2048 pixel
Frame Rate: 38 fps at full resolution (up to 200 fps at reduced resolution)
Interface: USB3.0
Gain Control: auto or manual
Scan: progressive
Sensor: Sony IMX264LQ Pregius CMOS

Optics module with 5 MP color CMOS camera for the SVM340 Microscope.  The module includes a mount for a fluorescence filter (not included) and threading for a standard DIN objective (not included).

Specifications:
Resolution: 2448 x 2048
Frame Rate: 38 fps at full resolution (up to 200 fps at reduced resolution)
Interface: USB 3.0
Gain Control: auto or manual
Scan: progressive
Sensor: Sony IMX264LQ Pregius CMOS

The LabSmith AV801 selector valve provides automated routing of microfluidic volumes. At 6.6 cm (2.6 in) high, the AV801 is a fraction of the size of other valves, making it ideal for microfluidics research and OEM applications.

The compact AV801 has 8 selector ports and one common port. The extremely small swept volume minimizes waste and enable high throughput. Fast, reliable geared switching ensures long life.

Learn about LabSmith's complete line of microfluidic valves.

Sample microfluidic circuit using the AV801 and AV201 automated valves, and other uProcess automated components.

LabSmith’s AV801 valves are constructed with Vespel^® as the wetted material* for use with a wide variety of chemicals and able to withstand harsh reagents.

CapTite™ one-piece fittings provide leak-free connections to 1/32” OD, 1/16" OD or 360 micron OD capillary.

LabSmith’s miniaturized 4VM02 valve manifold provides control for up to four selector valves, with single-cable connections. The breadboard-mounted 4VM02 is far smaller than other valve controllers, offers additional savings in cost and size for OEM applications.

The AV801 selector valve is the newest component of LabSmith’s uProcess platform, which simplifies construction and control of microfluidic systems. Automated uProcess components include syringe pumps, temperature and pressure sensors, selector valves, temperature controllers and more. Microsoft Windows^®-based uProcess software provides straightforward control of all devices. With uProcess users can generate automated scripts to control both simple setups or complex lab automation.

Requires a 4VM02 valve manifold and EIB200 interface controller for communicating with PC.  Connects to capillary via CapTite one-piece fittings (not included).

AV801-T116V:  Compatible with 1/16" OD capillary. Nine (9) T116-100 fittings required for interface to capillary (not included). Wetted material: Vespel.*

AV801-T132V:  Compatible with 1/32" OD capillary. Nine (9) T132-100 fittings required for interface to capillary (not included). Wetted material: Vespel.*

AV801-C360V:  Compatible with 360 um OD capillary. Nine (9) C360-100 fittings required for interface to capillary (not included). Wetted material: Vespel.*

* Selected valves are available with PCTFE as the wetted material. Contact LabSmith for pricing and availability.

Manifold connects and controls up to four uProcess automatic valves. Can be mounted to uProcess Breadboard (uPB-5, uPB-8, uPB-12, or iBB).

Includes 4 flat flex ribbon cables (1 x 8", 2 x 10", 1 x 12").

Type: Cross Channel.

Design: Fluidic 161.

Fluidic interface: Mini Luer.

Material: PMMA.

Cross-channel chip. Microscopy slide format. Chip has two separate channel structures with crossing channels on each chip. One structure has an offset, the other is without an offset.

Channel dimensions: 80 mm wide x 80 mm deep x 53.3 mm long.

Lid thickness: 175 mm.

Type: Tubing.

Material: Silicone.

ID: 0.5 mm.

OD: 2.5 mm.

Qty 1 m.

See Tubing and Capillary for more options.

Type: Membrane.

Design: Fluidic 480.

Fluidic interface: Mini luer.

Material: Topas.

Cross flow membrane chip.

Pore size: .2 mm.

Lid thickness: 140 mm.

Type: Tank.

Design: Fluidic 387.

Chip interface: Luer.

Material: PP.

Description: Single, 500 ml volume.

Quantity: 10 single tanks.

Type: Droplet Generator.

Design: Fluidic 285.

Fluidic interface: Mini Luer.

Material: PC.

Multi-channel design.

Lid thickness 175 µm.

The microfluidic support kit comprises components necessary for running microfluidic systems.

Microfluidic Support Kit

Includes:

• 10000033 silicone tube (ID: 0.5 mm, OD: 2.5 mm, 1m)
• 10000032 PTFE tube (ID: 0.5 mm, OD: 1 mm, 1m)
• 10000641 Forceps (1)
• 10000312 Single-use 10 ml syringes (3), and
• 10000614 syringe adapters (3).

Type: Tank.

Design: Fluidic 233.

Chip interface: Luer.

Material: PP.

Description: Row of 4 tanks, 4.5 ml volume (each).

Quantity: 10 rows of 4 tanks.

Type: Tank.

Design: Fluidic 231.

Chip interface: Piercing.

Material: PP.

Description: Triple, 500 ml volume (each).

Quantity: 10 triple tanks.

Type: Tank.

Design: Fluidic 230.

Chip Interface: Piercing.

Material: PP.

Description: Double, 500 ml volume (each).

Quantity: 10 double tanks.

Type: Tank.

Design: Fluidic 229.

Chip interface: Piercing.

Material: PP.

Description: Single tank; 500 ml volume.

Quantity: 10 single tanks.

Type: Membrane.

Design: Fluidic 168.

Fluidic interface: Luer and Mini Luer.

Material: Topas.

Chip with 4 plasma generation membranes.

Membrane diameter: 10 mm.

Type: Meander.

Design: Fluidic 442.

Fluidic interface: Through Hole.

Material: Glass.

Chip with meandering channels, serving as reaction units as well as mixing devices.

Through hole diameter is 96 µm, with a spacing of 4.5 mm

Channel depth: 20 mm.

Former P/N: 14-1301-0442-20.

Type: Droplet Generator.

Design: Fluidic 440.

Fluidic interface: Through Hole.

Material: Topas.

This droplet generator chip is identical to microfluidic ChipShop catalog chip #10000040, except it has a through-hole interface instead of the mini-luer interface.

Type: Droplet Generator.

Design: Fluidic 162.

Fluidic interface: Mini Luer.

Material: PC.

Channel dimensions: input channel width: 70 µm; collection channel width: 210 µm; channel depth: 70 µm.

Type: Reaction Chamber.

Design: Fluidic 132.

Fluidic interface: Mini Luer.

Material: PMMA.

eP2 Rhombic chamber chip. Note: PMMA is not suitable for PCR applications.

Chamber dimensions: 6 mL volume, 200 mm depth.

Lid thickness: 175 mm.

Type: Reaction Chamber.

Design: Fluidic 172.

Fluidic interface: Mini Luer.

Material: PMMA.

Rhombic chamber chip eP1.

Chamber dimensions: 120 ml volume, 500 mm depth.

Lid depth:500 mm.

Type: Fluid Connector - row of 4.

Design: Fluidic 333.

Fluidic interface: Mini Luer.

Material: Opaque TPE.

Quantity per pack: 10.

Note: PP is a harder material that is easy to use for interfacing with tubing. TPE is softer, for easy closing of fluidic interfaces with minimal force.

Type: Plug.

Design: Fluidic 336.

Chip interface: Mini Luer.

Material: TPE.

Color: Opaque.

Description: Row of 4.

Quantity: pack of 10.

Type: Plug.

Design: Fluidic 336.

Fluidic interface: Mini Luer.

Material: PP.

Color: Opaque.

Description: Row of 4.

Quantity: 10.

Type: Plug.

Design: Fluidic 335.

Chip interface: Mini Luer.

Material: PP.

Color: Opaque.

Description: Row of 2.

Quantity: 10.

Type: Fluid Connector.

Design: Fluidic 302.

Chip interface: Through Hole.

Fluid interface: Luer Lock.

Material: Opaque PMMA.

Quantity per pack: 10.

Notes: 1.3 mm diameter through hole size.

Compatible with Fluidic 697 Adhesive Ring.

Type: PCR.

Design: Fluidic 65.

Fluidic interface: Olive.

Material: PC.

PCR chip with long, meandering channels. 36 cycles, 2 inlets & 3 outlets.

Channel dimensions: 200 um wide x 100 um deep x 1257 mm long.

Lid thickness: 175 um.

Type: H-shaped Channel.

Design: Fluidic 164.

Fluidic interface: Mini Luer.

Material: Topas.

Chip with 4 sets of H-shaped channels.

Channel dimensions:

Type: Cross Channel.

Design: Fluidic 106.

Fluidic interface: Luer.

Material: Zeonor.

Cross channel chip with two perpendicular channels.

Channel dimensions: 75 mm wide x 75 mm deep x 87 mm long.

Lid Thickness: 100 mm.

Type: Cross Channel.

Design: Fluidic 166.

Fluidic interface: Luer.

Material: Topas.

Cross channel chip with two perpendicular channels.

Channel dimensions: 100 mm wide x 100 mm deep x 87 mm long.

Type: Cross Channel.

Design: Fluidic 106.

Fluidic interface: Luer.

Material: Topas.

Cross channel chip with two perpendicular channels.

Channel dimensions: 75 mm wide x 75 mm deep x 87 mm long.

Lid Thickness: 140 mm.

Type: Cross Channel.

Design: Fluidic 106.

Fluidic interface: Luer.

Material: PMMA.

Cross channel chip with two perpendicular channels.

Channel dimensions: 75 mm wide x 75 mm deep x 87 mm long.

Lid Thickness: 175 mm.

Type: Cross Channel.

Design: Fluidic 82.

Fluidic interface: Luer.

Material: Topas.

Cross channel chip with two perpendicular channels.

Channel dimensions: 50 wide mm x 50 deep mm x 87 mm long.

Lid Thickness: 140 mm.

Type: Straight Channel.

Design: Fluidic 102.

Fluidic interface: Through Hole

Material: Zeonor.

Microtiter plate with 64 microchannels.

Channel dimensions: 2 mm wide x 0.15 mm deep x 18 mm long.

Surface treatment: hydrophilized.

Type: Straight Channel.

Design: Fluidic 102.

Fluidic interface: Through Hole.

Material: Zeonor.

Straight channel microtiter plate with 64 microchannels.

Channel dimensions: 2 mm wide x 0.15 mm deep x 18 mm long.

Lid thickness: 188 um.

Type: Waste Chamber.

Design: Fluidic 95.

Fluidic interface: Luer.

Material: Topas.

Description: Straight channel chip with waste chamber; channel dimensions: 3000 µm wide x 200 µm deep x 36 mm long, chamber volume: 75 µL.

Lid thickness: 140 µm.

Type: Waste Chamber.

Design: Fluidic 95.

Fluidic interface: Luer.

Material: PMMA.

Straight-channel chip with waste chamber.

Channel dimensions: 3000 µm wide x 200 µm deep x 36 mm long.

Chamber volume: 75 µL.

Lid thickness: 175 µm.

Type: Straight Channel.

Design: Fluidic 152.

Fluidic interface: Olive.

Material: Topas.

Straight channel chip with 16 parallel channels.

Channel dimensions: 1000 mm wide x 200 mm deep x 18.0 mm long.

Type: Straight Channel.

Design: Fluidic 142.

Fluidic interface: Olive.

Material: Topas.

Straight-channel chip with 16 channels.

Channel dimensions: 200 µm wide x 100 µm deep x 18 mm long.

Lid thickness: 140 µm.

Type: Cross Channel.

Design: Fluidic 166.

Fluidic interface: Through Hole.

Material: PMMA.

Cross channel chip with two perpendicular channels.

Through hole diameter: 1 mm.

Channel dimensions: 100 µm wide x 100 µm deep x 87 mm long.

Lid Thickness: 175 µm.

Type: Cross Channel.

Design: Fluidic 82.

Fluidic interface: Through Hole.

Material: PMMA.

Cross channel chip with two perpendicular channels. Note: 0.5 mm through hole size.

Channel dimensions: 50 mm wide x 50 mm deep x 87 mm long.

Lid Thickness: 175 mm.

Type: Cross Channel.

Design: Fluidic 82.

Fluidic interface: Through Hole.

Material: Topas.

Description: Cross channel chip with two perpendicular channels; 0.5 mm through hole size; channel dimensions: 50 mm wide x 50 mm deep x 87 mm long.

Lid Thickness: 140 mm.

Type: Straight Channel.

Design: Fluidic 144.

Fluidic interface: Mini Luer.

Material: TOPAS.

Straight-channel chip with 4 parallel channels.

Channel dimensions: 100 µm wide x 100 µm deep x 58.5 mm long.

Type: Straight Channel.

Design: Fluidic 156.

Fluidic interface: Mini Luer.

Material: PMMA.

Straight-Channel Chip with 4 Parallel Channels.

Channel dimensions: 200 µm wide x 200 µm deep x 58.5 mm long.

Type: Straight Channel.

Design: Fluidic 157.

Fluidic interface: Luer.

Material: Topas.

Description: Straight channel chip with 8-parallel channels, channel dimensions: 100 µm wide x 100 µm deep x 18 mm long.

Power manifold for automatable and closed-loop control of up to 4 uTE thermal-electric modules or other loads using the LabSmith uProcess microfluidic control software. Includes 4 flat flex ribbon cables (1 x 8", 2 x 10", 1 x 12").

Voltage range: –5 to 5 V
Current range: -4 to 4 A
Maximum Power: 15 W
Dimensions: 2.1" x 1.0" x 0.5" (54 mm x 26 mm x 13 mm)

Typically ships within 2-3 days.

LabSmith uTE-series thermal-electric module. The uTE module is used for heating or cooling your microfluidic application. The module can be coupled with a uTS temperature sensor for precision thermal monitoring and control using LabSmith's uProcess software. Other uProcess devices include the SPS01 syringe pumps, AV-series automated valves, and uPS pressure sensors.

Maximum temperature: 130° C

The uTE-series thermal-electric modules require a 4PM01 Power Manifold and EIB200 uprocess interface. A uTS temperature sensor is recommended for monitoring and control of the uTE module.

Typically ships within 2-3 days.

LabSmith uTS-series temperature sensors.  The uTS can be used alone for on-chip or in-fluid temperature monitoring, or with the uTE-series thermal-electric module for complete temperature control. Controlled using the LabSmith uProcess software suite, the uTS and uTE precision thermal management products are a perfect complement to LabSmith's complete monitoring and control of microfluidic systems.

Temperature range: -150 – 200° C
Sensor type: K-type thermocouple
Accuracy: 0.5° C
Precision: 0.001° C

Contact LabSmith for custom length options.

The uPS-series pressure sensor requires a 4AM01 sensor manifold and EIB200 uProcess interface

Typically ships within 2-3 days.

6-port, 2-position manual valve. Three simultaneous flow streams between adjacent ports. Available for use with 360um capillary via one-piece fittings (not included). Can be mounted to LabSmith breadboards.

MV303 valves are constructed with Vespel^® as the wetted material for use with a wide variety of chemicals and able to withstand harsh reagents. Select valves are available with PCTFE as the wetted material. Contact LabSmith for pricing and availability.

Learn about LabSmith's complete line of microfluidic valves.

Six-port, two position automated injection valve. Provides three simultaneous fluid paths. Available for interface with 360um capillary or 1/32" tubing.

Learn about LabSmith's complete line of microfluidic valves.

The AV303 selector valve is part of LabSmith’s uProcess platform, which simplifies construction and control of microfluidic systems. Automated uProcess components include syringe pumps, temperature and pressure sensors, selector valves, temperature controllers and more. Microsoft Windows^®-based uProcess software provides straightforward control of all devices. With uProcess users can generate automated scripts to control both simple setups or complex lab automation.

LabSmith’s AV303 valves are constructed with Vespel^® as the wetted material*  for use with a wide variety of chemicals and able to withstand harsh reagents.

Requires a 4VM02 valve manifold and EIB200 interface controller for communicating with PC. Connects to capillary via CapTite one-piece fitting (not included).

Also available as a manual valve.

* Selected valves are available with PCTFE as the wetted material. Contact LabSmith for pricing and availability.

4-port, 2-position (+ closed) manual valve. Two simultaneous flow streams between adjacent ports.

LabSmith’s MV202 valves are constructed with Vespel^® as the wetted material for use with a wide variety of chemicals and able to withstand harsh reagents. Select valves are available with PCTFE as the wetted material. Contact LabSmith for pricing and availability.

Available for use with 360µm capillary or 1/32" tubing via one-piece fittings (not included). Can be mounted to LabSmith breadboards.

uProcess interface with USB communication. Controls over 100 uDevices for sequential operation and up to 10 uDevices for simultaneous operation. Includes uProcess software, power supply, micro USB 2.0 cable, and flat ribbon connection cable.

Flat Flex Ribbon Cables.  For connection between 4VM-Valves or 4AM-Sensors. Part of the uProcess microfluidic fluid control and connection platform.  Note: each 4AM Analog Sensor Manifold or 4VM Valve Manifold comes with a set of 4 flat flex ribbon cables.

Pack of 4 electrode clips for mounting up to 8 electrode cables (HVC high voltage cables or any 0.125" diameter cables) on a microfluidic breadboard. P/N: BB-ECLIPS

Use breadboard electrode clips (BB-ECLIPS08) to secure HVC high voltage cables from the HVS448 High Voltage Sequencer to a fluidic breadboard for secure application of electric fields to reservoirs or microfluidic chips.

Set of 4. Use the BB-Chip Clamps to secure the microfluidic chip to the integrated breadboard (iBB) or LS-600-CH breadboard. P/N: BB-Chip_Clamps

4" x 6" breadboard for mounting CapTite microfluidic components. Includes a 1" x 3" cutout for mounting and viewing a slide or microfluidic chip with the SVM340 Microscope. Mounts to SVM340 breadboard sample stage (A-SVM-STAGE-BB).

Quantity Discounts

10–49 pieces: 12%
50–100 pieces: 25%
Contact LabSmith for quantities > 100.
Prices shown are list prices, Quantity discounts will be applied in shopping cart.

Sample stage for coupling LabSmith breadboards (iBB or LS600-CH) with the SVM340 microscope.

Stainless steel sample stage for the SVM340 Microscope with two rectangular openings: 14 x 75 mm and 21 x 66 mm. for use with the SVM340 standard stage [A-SVM-STAGE]

LabSmith uPS-series pressure sensors. The uPS can be installed in any LabSmith CapTite™ port and is ideal for accurate, low-dead volume pressure monitoring and control of microfluidic systems.  The uPS-series pressure sensors are controlled using LabSmith's uProcess software package.

The uPS sensor element is protected by a rugged PEEK housing and a fluorinated oil barrier. This unique design makes the uPS the only microfluidic sensor that can withstand harsh reagents—even strong acids and solvents.

Just getting started with the pressure sensors? The Pressure Sensor Starter Kit has everything you need to measure and control pressure in your system, circuit, prototype, or platform.

The uPS-series pressure sensor requires a 4AM01 sensor manifold and EIB200 uProcess interface.

uPS sensors typically ship within 2-3 days.

Analog sensor manifold for controlling up to 4 uPS pressure sensors and/or uTS temperature sensors using the LabSmith uProcess software. Includes 4 flat flex ribbon cables (1 x 8", 2 x 10", 1 x 12").

Typically ships within 2-3 days.

Luer Lock Disposable Syringe. Interfaces with C360-300, T132-300, and T116-300 Luer-Lock adapters. Volume: 12 ml. P/N: LS-SYRINGE_LL

Set of 10 thread-forming screws (2-28 x 1/2") and 10 standoffs to mount 5 interconnects to breadboard.

Set of 20 thread-forming screws (2-28 x 1/4") to mount 10 valves or reservoirs to breadboard.

Type: Cross Channel.

Design: Fluidic 106.

Fluid Interface: CapTite C360

Material: PMMA.

Cross-channel chip with direct connection to LabSmith's CapTite one-piece fittings (C360-100) and chip reservoirs (C360-405R).

Channel dimensions: 75 mm wide x 75 mm deep x 87 mm long.

Chip dimensions: 95.5 mm x 16 mm x 1.5 mm.

Lid Thickness: 175 mm.

See more CapTite microfluidic connector products.

Set of 4 polyester filters with 10um diameter holes for CapTite refillable cartridges or uFilter-360 filter holder.

Two-position, four-port automated valve.  Available for interface with 360um (AV202-C360), 1/32" (AV202-T132), and 1/16” (AV202-T116) OD tubing.

Learn about LabSmith's complete line of microfluidic valves.

The AV202 selector valve is part of LabSmith’s uProcess platform, which simplifies construction and control of microfluidic systems. Automated uProcess components include syringe pumps, temperature and pressure sensors, selector valves, temperature controllers and more. Microsoft Windows^®-based uProcess software provides straightforward control of all devices. With uProcess users can generate automated scripts to control both simple setups or complex lab automation.

Constant flow example using the AV202 automated valve and other uProcess components.

LabSmith’s AV202 valves are constructed with Vespel^® as the wetted material* for use with a wide variety of chemicals and able to withstand harsh reagents.

Requires a 4VM02 valve manifold and EIB200 interface controller for communicating with PC.   Connects to capillary via CapTite one-piece fitting (not included).

Also available as a manual valve.

* Selected valves are available with PCTFE as the wetted material. Contact LabSmith for pricing and availability.

Union adapter interconnect for connecting 360 µm OD and 1/32" OD tubing.  Two one-piece fittings required (one each of C360-100 and T132-100, not included).

Can be mounted to LabSmith breadboards.

Material: Ultem® or Acrylic (part number ending in 'A' is Acrylic).  Can be mounted to LabSmith breadboard.

Pressure rating: 2500 psi (18 MPa).

Breadboard mounting hardware and tools. Includes TORX wrench, hex wrench, screws for mounting 10 valves or reservoirs and 5 interconnects to breadboard, plus 4 chip clips and 4 electrode clips for mounting chips and electrodes to one of the uProcess (uPB or iBB) breadboards or CapTite breadboards.

Standard DIN objectives for use with the SVM340 Microscope optics module. Note: one objective comes standard with your SVM340.

1/16" ID. 1/8" OD High-purity white Silicone Rubber Tubing, 1m length.

Interfaces with chip reservoir or microfluidic ChipShop Luer interface chips.

Volume: 1ml. Fluidic interface: Luer.

P/N: LS-SYRINGE_LT

Threads into Bonded Port Connector to provide fluid reservoir. Also interfaces with Luer Tip Syringe for low pressure connection to syringe.

P/N: C360-405R.

Volume: 85µl.

Material: PEEK™.

Type: Straight Channel.

Design: Fluidic 157.

Fluidic interface: Luer.

Material: PMMA.

Straight-channel chip with 8-parallel channels.

Channel dimensions: 100 µm wide x 100 µm deep x 18 mm long.

Type: Straight Channel.

Design: Fluidic 156.

Fluidic interface: Mini Luer.

Material: Topas.

Description: straight channel chip with 4 parallel channels, channel dimensions: 200 µm wide x 200 µm deep x 58.5 mm long.

Lid thickness: 140 µm.

The Chip Interface Kit includes all the CapTite™ fittings, ferrules, reservoirs and tubing you need to construct microfluidic circuits, as well as the chip-to-world interface components for leak-free connection to your microfluidic chips.

Kit prices offer you great value for chip-based research, including an overall 5% discount in addition to normal quantity discounts.

Chip Interface Kits are available for 360 micron capillary and 1/32-inch tubing.

Typically ships within 1 week.

The best value for CapTite fittings, including all the components needed for various applications. Prices include an overall 5% discount in addition to normal quantity discounts.

The Single User kit includes an excellent assortment of reusable microfluidic components to build manually controlled microfluidic systems.

This basic construction kit is the best value for CapTite fittings, offering an overall 5% discount in addition to normal quantity discounts. CapTite components are breadboard-based for quick assembly and feature low volumes, easy cleaning, and excellent durability.

Typically ships within 1 week.

Needle Y and Cross connectors. 27 gauge needle interconnects for low-pressure connection to 0.016" ID flexible tubing.

Material:  Ultem® (body) and 316 stainless steel needles.

Cross Connector (N27G-204-U) has four ports.

Y Connector (N27G-203Y-U) has three ports.

Tubing, 1/16" [1.59 mm] OD. 1m length. Choose from TUBE116-010P (250um ID PEEK), TUBE116-030P (750um ID PEEK), or TUBE116-030F (750um ID FEP) .

PEEK Tubing. 1/32" [790 um] OD; 0.01" [250um] ID. 1m length. P/N: TUBE132-010P

360um [0.014"] OD capillary tubing, 1 m length. 

Available sizes and materials:

NOTE: The fused silica capillary is externally coated with polyimide to provide abrasion resistance and maintain product strength. 

To cut the PEEK capillary or tubing we recommend using a sharp blade such as a razor blade or X-Acto knife.

To cleave fused-silica capillary tubing with the ceramic cleaving stone (LS-CUTTER):

• Place the capillary tubing on a clean, flat surface. If possible, apply slight linear tension to keep it taut.
• Holding the cleaving stone at an approximate 30° angle to the tubing, draw the non-serrated edge of the cleaving stone across the tubing. Apply just enough pressure to penetrate the polyimide coating.
• Pull the tubing axially until it breaks. If it won’t break, the polyimide coating has not been fully penetrated. Repeat the above steps, pressing down with slightly more force while drawing the cleaving stone across the tubing.
• Once cleaved, inspect the end finish to ensure the cleave quality meets the application requirements.

Cutting stone for cutting fused-silica capillary.

Note: the cutting stone will not cut PEEK capillary or tubing. For PEEK capillary or tubing, we recommend using a sharp blade.

12ml two-part high-strength epoxy adhesive (3M™ DP420) for attaching bonded-port connectors to chip.

• glass, metal and plastic bonding
• room temperature cure
• 20 minute work life, 2 hours set, 24 hours full strength
• color: off-white

T7 TORX driver for installing breadboard screws.

1/8" hex wrench for installing one-piece fittings and plugs.

Reusable column for customizable packing and easy sample preparation. Includes four 10µm polyester sample filters and two one-piece fittings.

Currently only available for 1/32" OD tubing. Contact LabSmith for special orders.

Available volumes: 50µl (uCTG-50-T132) and 150µl (uCTG-150-T132).

Material: PEEK™.

4" x 6" platform for mounting CapTite microfluidic components. 0.25" hole spacing for mounting fluid circuit components. Suitable for all tubing sizes.
Secure components to breadboard using 2-28 self-tapping screws. Use 1/4" long screws to mount valves and breadboard reservoirs; 1/2" long screws for mounting interconnects.
LS-600-CH includes a 1" x 3" cutout for mounting and viewing a slide or microfluidic chip. Interfaces with LabSmith SVM340 breadboard stage. Chip clips, electrode clips, and breadboard mounting hardware sold separately.

Quantity Discounts

10–49 pieces: 12%
50–100 pieces: 25%
Contact LabSmith for quantities > 100.
Prices shown are list prices, Quantity discounts will be applied in shopping cart.

3-port manual valve with "L" flow pattern. Available for use with 360µm capillary, 1/32" tubing, or 1/16" tubing via one-piece fittings (not included). Can be mounted to LabSmith breadboards.

MV201 valves are constructed with Vespel^® as the wetted material for use with a wide variety of chemicals and able to withstand harsh reagents. Select valves are available with PCTFE as the wetted material.  Contact LabSmith for pricing and availability.

Reusable PEEK™ reservoirs can be mounted to LabSmith breadboards.

BBRES-1ML 1.1 mL reservoir with sealable cap. Includes four ports for direct connection to capillary or tubing (three in reservoir and one in cap). Cap seals with Viton^® O-ring (two included) for vacuum or pressure applications. Max pressure 1800 kPa (250 psi).  Four one-piece fittings or plugs required for each BBRES-1ML reservoir, not included.

Available for connection to 360µm OD (-C360), 1/32" OD (-T132), or 1/16" OD (-T116) tubing.

Connector for holding a variety of filters including 3M™ Empore™ solid phase extraction filters (not included).

Two one-piece fittings required for connection to 360 um OD capillary (p/n C360-100, not included).

Material: PEEK™.

PEEK™ female fitting for connecting Luer Lock syringe to capillary or tubing. Available for use with 360µm OD tubing (C360-300A), 1/32" OD tubing (T132-300A), or 1/16" OD tubing (T116-300A).

Part numbers ending in 'A' include a one-piece fitting for attachment to tubing.

Bonds to port on a through-hole chip. Compatible with ~1mm port size. Material: Ultem®.

C360-400 interfaces to 360µm OD capillary via C360-100 one-piece fitting (not included) or to chip reservoir.
C360-400S is a slim version of C360-400(2.8 mm diameter) for use in tight spaces.   Interfaces to 360µm capillary via C360-100 one-piece fitting (not included) or to chip reservoir.
T132-400 interfaces to 1/32" OD tubing via T132-100 one-piece fitting (not included) or to chip reservoir.
T116-400 interfaces to 1/16" OD tubing via T116-100 one-piece fitting (not included).

Multiport Y (wye) 3-port fitting for routing or combining microfluidic flows.

Available for use with 360µm OD capillary (C360-203Y), 1/32" OD tubing (T132-203Y), or 1/16" OD tubing (T116-203Y) via CapTite one-piece fittings (not included). Can be mounted to LabSmith breadboards.

Material: Ultem^®.

Pressure rating: 2500 psi (18 MPa).

Elbow interconnector for rerouting microfluidic flows. Available for use with:

• 360µm OD capillary (C360-205 or C360-205A)
• 1/32" OD tubing (T132-205 or T132-205A), or
• 1/16" OD tubing (T116-205)

Two one-piece fittings required (not included) for connection to tubing or capillary. Material: Ultem® or Acrylic (part numbers ending in 'A' are Acrylic). Can be mounted to LabSmith breadboards.

Pressure rating: 2500 psi (18 MPa).

Multiport fitting for routing or combining microfluidic flows.

Available for use with 360µm OD capillary (C360-204 or C360-204A), 1/32" OD tubing (T132-204 or T132-204A), or 1/16" OD tubing (T116-204).

Requires four CapTite one-piece fittings (not included) for connection to capillary or tubing. Material: Ultem® or Acrylic (part numbers ending in 'A' are Acrylic). Can be mounted to LabSmith breadboards.

Pressure rating: 2500 psi (18 MPa).

Multiport fitting for routing or combining microfluidic flows.

Available for use with 360µm OD capillary (C360-203/A), 1/32" OD tubing (T132-203/A), or 1/16" OD tubing (T116-203).

Requires three CapTite one-piece fittings (not included) for connection to capillary or tubing. Material: Ultem® or Acrylic (part numbers ending in 'A' are Acrylic). Can be mounted to LabSmith breadboards.

Union for connecting microfluidic tubing.

Available for use with 360µm OD capillary (C360-202/A), 1/32" OD tubing (T132-202/A), or 1/16" OD tubing (T116-202) via two CapTite one-piece fittings (not included).

Material: Ultem® or Acrylic (part numbers ending in 'A' are Acrylic). Can be mounted to LabSmith breadboards.

Pressure rating: 2500 psi (18 MPa).

For adapting a CapTite™ component to a different microfluidic tubing size.

Material: PEEK™

T116-A360: used to attach 360µm OD capillary to a component with a T116 female port.
T116-A132: used to attach 1/32" OD tubing to a component with a T116 female port.
T132-A360: used to attach 360µm OD capillary to a component with a T132 female port.
C360-A116: used to attach 1/16" OD tubing to a component with a C360 or T132 female port.
C360-A132: used to attach 1/32" OD tubing to a component with a C360 female port.

Pressure rating: 2500 psi (18 MPa).

One-Piece plug for plugging ports of CapTite microfluidic connectors and uProcess microfluidic automation components.

C360-101 plug can be used in any -C360 or -T132 port.  T116-101 plug can be used in any -T116 port.

Material: PEEK™.

Pressure rating: 2500 psi (18 MPa).

One-Piece fittings (one-piece ferrules) provide fast, leak-free connections between capillary/tubing and CapTite™ microfluidic routing components. PEEK™.

Available for 360 µm OD capillary (C360-100), 1/32" OD tubing (T132-100), and 1/16" OD tubing (T116-100).  Pressure rating: 2500 psi (18 MPa).

The uProcess™ Plus kit offers everything in the uProcess Standard Kit plus much more. It's the most economical way to get everything you need to set up your microfluidic laboratory, including uProcess automated pumps, valves and sensors, CapTite ferrules and fittings, and capillary or tubing.

uProcess Plus kits offer 10% discount off individual component prices.

Typically ships within 1 week.

uProcess™ kits are a convenient and economical package for setting up your microfluidic laboratory, including uProcess automated pumps, valves and sensors, CapTite ferrules and fittings, and capillary or tubing.

uProcess standard kits include 10% discount off of individual component pricing.

Typically ships within 1 week.

Syringe/plunger installation tools for SPS01 automated syringe pump. Includes hex tool for syringe plunger removal/installation and hex wrench to secure syringe glass.

Syringe glass and plunger set for use in the SPS01 programmable syringe pump.  Connects to capillary or tubing using via one-piece fitting (not included).

Typically ships within 2-3 days

SPS01 syringe pump enables automated, coordinated dispensing of microfluidic volumes. Includes 1 syringe glass and plunger set. Requires an EIB200 interface controller for communicating with PC. Connects to capillary or tubing via CapTite one-piece fitting (not included). Syringe/plunger assembly tools required for removing syringe glass/plunger for cleaning.

Typically ships within 2-3 days.

Two-position, three-port automated valves.  Available for 360um capillary (AV201-C360), 1/32" tubing (AV201-T132), or 1/16" tubing (AV201-T116).

Learn about LabSmith's complete line of microfluidic valves.

The AV201 selector valve is the newest component of LabSmith’s uProcess platform, which simplifies construction and control of microfluidic systems. Automated uProcess components include syringe pumps, temperature and pressure sensors, selector valves, temperature controllers and more. Microsoft Windows^®-based uProcess software provides straightforward control of all devices. With uProcess users can generate automated scripts to control both simple setups and complex lab automation.

Sample switching circuit using AV201 automated microfluidic valve and other uProcess components.

LabSmith’s AV201 valves are constructed with Vespel^® as the wetted material* for use with a wide variety of chemicals and able to withstand harsh reagents.

Requires a 4VM02 Valve Manifold and EIB200 interface controller for communicating with PC.  Connects to capillary or tubing via one-piece fitting (not included). Also available as a manual valve.

Typically ships in 2-3 days.

* Selected valves are available with PCTFE Kel-F^® as the wetted material. Contact LabSmith for pricing and availability.

Breadboard mounting hardware and tools. Includes a Torx driver, hex wrench, and screws for mounting 10 valves/reservoirs and 5 interconnects to breadboard.

uPB breadboards are an optional platform for mounting uProcess automation products and CapTite microfluidic components, including  AV-Series automated valves, MV-Series manual valves, BBRES breadboard reservoirs, and CapTite Interconnects.

uProcess devices that interface with uProcess breadboard connectors include: EIB200 Automation Interface, SPS01 Syringe Pump, 4VM02 Valve Manifold, 4AM01 Sensor Manifold, 4PM01 Power Manifold, and uEP01 Electrophoresis Power Module.

uPB breadboards are available with 5, 8, or 12 device connections:

• uPB-05: uProcess breadboard with 5 uDevice connections. Overall size: 5.25" x 7.25"; 0.25" hole spacing.
• uPB-08: uProcess breadboard with 8 device connections. Overall size: 9" x 10"; 0.25" hole spacing.
• uPB-12: uProcess breadboard with 12 device connections. Overall size: 12" x 12"; 0.25" hole spacing.
• uPB-iBB: uProcess breadboard with 8 device connections and 1" x 3" cutout for chip viewing via LabSmith SVM340 microscope. Overall size: 12" x 12"; 0.25" hole spacing. (Custom size/shape cutouts available, please contact LabSmith for pricing).

The Breadboard Mounting Tools kit includes tools and screws for mounting valves, reservoirs, and interconnects to breadboards.

The iBB-Tools kit includes the breadboard mounting tools, as well as chip clips and electrode clips for mounting chips and electrodes to breadboards.

Microfluidics and Nanofluidics approaches assist researchers in the life sciences, nanotechnology, chemistry and engineering. In these experiments it is essential to have total control of fluid flow and electric fields, and reliable capture and imaging of often transient phenomena.

LabSmith’s LabPackage gives you complete experiment control, helping you to get started with micro/nanofluidics experimentation quickly. LabPackage lets you take your lab from macro to micro/nano in a flash.

The LabPackage offers a 10% discount off individual pricing for all components. It is an impressively economical and convenient way to equip your entire laboratory!

NOTE: After you've placed your order, LabSmith will contact you to select the additional options.

Light shield; sits on top of the SVM340 Microscope to block ambient light. Inside dimensions: 18 cm x 15 cm x 4 cm.

Removable two-piece top mounting stage for the SVM340 Microscope. Includes Delrin top stage and stainless-steel sample plate.  Note: one microscope top stage is included with purchase of SVM340.

Stainless steel sample stage for the SVM340 Microscope with one rectangular opening: 50 x75 mm.

For use with the SVM340 Microscope. Kit includes 8 filters and 2 filter washers in wooden box.

Wavelengths: 475, 495, 515, 530, 550, 570, 590, 610.

Schott filter for use in the SVM340 Microscope camera module. Includes one 12.5 mm diameter long pass filter and one filter washer.

Wavelengths available: 495, 515, 530, 550, 570, 590, 610, 630, 645, and 665 nm.

RS232-to-USB adapter.

This illuminator module for the SVM340 Microscope offers four selectable LED channels which can be used independently or simultaneously. You can specify the color for each channel from the following LED wavelengths:

• Blue: 470 nm
• Green: 527 nm
• Yellow:590
• Red: 625 nm
• White

Contact LabSmith for UV illuminator module options. Note: The SVM340 base unit includes one illuminator module.

The SVM340 is a research-grade, inverted fluorescence video microscope for microfluidics and microbiology. The SVM340 microscope excels precisely where it counts: getting high-quality experimental data onto a hard drive. Extensive filter, camera, illumination and objectives options let you tailor the system for your research. Motorized traverse and focus, and software-configurable image-based "soft triggers" make the SVM340 perfect for µTAS prototypes and miniature process automation.

New Particle Counting Probes for the SVM340 let you count and characterize particles in real-time, at up to 5000 particles/frame. Characterize particles from sub-micron through hundreds of microns in diameter based on absorption, scattering, refraction or fluorescence. What's more, you can use the results to monitor and control your experiment as it happens. Applications include real-time sensor for microfluidic particle sorters and manipulators, step-and-scan culture characterization, powder particle size and shape quantitation, etc.

Base model includes one optics module (additional Optics Modules can be purchased separately):

• 5 MP Black and White
• 5 MP Color

Also included:

• 10X DIN objective (4X and 20X objectives can be purchased separately)
• Synchronous 4-channel illuminator
• Bottom-up viewing and illumination
• Motionless stage for unperturbed microsystems
• Auto focus
• Auto-acquisition with multiple triggering modes
• Real time particle count and intensity measurement probes
• Time lapse capability
• Lossless recording to disk with post-save and instant replay
• Particle Image Velocimetry probes

The SVM340 is compact (just 21 cm wide x 27 cm long x 9 cm tall) but scans up to 75 mm x 50 mm. With its small size, and costing thousands of dollars less than competing systems, the SVM340 is the ideal tool for micro-and nano-system research.

Typically ships within 4-5 weeks

LabSmith's TT1680 coordinates the timing and synchronization of the most demanding applications. With 16 inputs, 16 timing processors, two logic stages and eight outputs, the TT1680 outperforms a rack full of digital delay generators, gates, timers, filters and cables.

• Complete toolkit for timing and triggering experiments
• 16 channels of digital delays, timers, clocks and more
• Sophisticated logic, gating and filtering
• Windows- or LabView-based programming and operation
• 10ns resolution and 100ps accuracy
• Field-updatable software and firmware

The TT1680 consists of both ground-breaking software and a programmable hardware controller. Trigger experimental design software makes it easy to create sophisticated control schemes from a PC, with a built-in compiler that can accept C-style assignments and operations.

The TT1680 hardware controller can function as part of a computer-based control system using Trigger or LabView, or it can operate in stand-alone mode. With the TT1680 linked to your computer, you'll quickly program, refine and expand experiments. Using stand-alone mode, you can store and recall up to 64 complete settings, then trigger and monitor an experiment from the TT1680 front panel. You'll have the flexibility to design experiments offline, then to embed the controller in your test environment for set-and-forget operation.

With a single TT1680 you can synchronize all experimental hardware. Each of the sixteen logic channels can operate as a clock, digital delay, delayed trigger, counter, and more, all with 10 ns resolution and programmable trigger logic.

The TT1680 also brings you functions that are simply not available elsewhere. "Dynamic delay triggering" lets you reliably capture elusive phenomena, basing its delay time on a real-time measurement. This unique mode lets you control uncertain timing situations, such as synchronizing a flash to a passing projectile, or timing the spark in a cyclic combustion system. "False-Trigger Suppression" mode helps tame noisy signals and prevents unwanted triggering in sub-optimal environments. "Drift Compensation" mode offers automatic, closed loop timing compensation for maintaining extremely high laser accuracy, run after run.

The TT1680 goes far beyond the functions of a digital delay generator, pulse generator, logic delay or logic controller, integrating all of these functions and more in a single unit.

Typically ships within 1-2 weeks

The two channel LC220 integrates and synchronizes complex physical experiments. Featuring logic-based triggering and timing modes unavailable in any other system, the LC220 is a smarter digital delay generator, for authoritative control over lasers and test apparatus.

The LC220 combines ground-breaking software with a compact, programmable hardware controller. The two-channel controller can be programmed from a PC, then operated in stand-alone mode for benchtop or embedded operation. Its outputs allow control over flash lamps and Q-switches, shutters, flow controllers, etc. External feedback to its inputs can be used to synchronize triggering of uncertain events, such as the motion of high-speed machinery.

• Two channels function as digital delays, timers, clocks and more
• 5 ns resolution and 100 ps accuracy
• Unique logic, gating and filtering
• Windows- or LabView-based programming and operation
• Field-updatable software and firmware

LabSmith’s Trig220 experiment design software makes it easy to build simple or sophisticated control schemes. Each channel can operate as a traditional clock, digital delay, delayed trigger, or counter. Additional timing modes offer functionality not available in any other product, including Dynamic Delay for capturing elusive events, and Noise Suppression for reliable triggering in sub-optimal environments. Drift Compensation mode offers automatic, closed loop timing compensation for maintaining extremely high laser accuracy, run after run.

The LC220 provides unique control for applications in laser diagnostics, materials science, gas dynamics, combustion, radar simulation, and many other applications. Outperforming a rack-full of typical timing gear and available for under $2000, the LC220 represents an outstanding value for high-resolution laser-based research.

Typically ships within 2-3 weeks

LabSmith's LC880 Programmable Experiment Controller coordinates, integrates and synchronizes complicated physical experiments, simply and affordably. With 8 timing channels, logic integration, unique timing modes and 10 ns resolution, the LC880 outperforms a rack full of digital delay generators, gates, timers, filters and cables, all for the price of a single delay.

• Complete toolkit for timing and triggering experiments
• 8 channels of agile digital delays, timers, and clocks
• Sophisticated logic, gating and filtering
• Windows- or LabView-based programming and operation
• 10ns resolution and 100ps accuracy
• Field-updatable software and firmware

The hardware controller can function as part of a computer-based control system using Trigger or LabView, or it can operate in stand-alone mode. With the LC880 linked to your computer, you'll quickly program, refine and expand experiments. Using stand-alone mode, you can store and recall up to 64 complete settings, then trigger and monitor an experiment from the LC880 front panel.

In applications from gas dynamics to fracture mechanics, the LC880 earns its place among oscilloscopes and power supplies as an indispensable lab tool.

Typically ships within 1-2 weeks

Platinum electrode wire, 0.584 mm dia (23 gauge), 10 cm length. Purity: 99.95%

Interfaces directly with HVC high-voltage cable terminals (for use with the HVS448 High Voltage Sequencer) or with the cables supplied with the uProcess uEP01-300 Electrophoresis Power Module.  Can be used with or without a Microclip connector.

Set of 8 micro clips for grabbing electrodes. Interfaces directly with HVC high-voltage cable terminals for use with the HVS448 High Voltage Sequencer, or with the cables supplied with the uProcess™ uEP01-300 Electrophoresis Power Module.

High-voltage cable kit for use with HVS High Voltage Sequencers. Three options are available:

• A-HVC8-STD: High-voltage cable kit. Includes eight 1.25 m current-limiting cables with friction-fit terminals.
• A-HVC8-LONG: High-voltage cable kit. Includes eight 2.25 m current-limiting cables with friction-fit terminals.
• A-HVC8-Custom: High-voltage cable kit. Includes eight current-limiting cables with friction-fit terminals. Custom lengths up to 3.5 m.

Cable terminations can connect directly to 23-gauge electrode wire, or to an electrode via a micro clip.

The LabSmith HVS448 High Voltage Sequencer provides eight high-voltage channels with programmable sequencing for an entirely new level of high-voltage control. With innovative voltage supply, up to 8000V differential range, and voltage sensing, current supply, current sensing, and a ground-breaking sequencing environment, the HVS448 integrates your entire experiment, simply and safely.

• Eight channels supplying/sensing up to ±4.0kV/±6mA
• 1 kHz sequencing for microfluidics and MEMS
• 16-bit current sensing resolution
• Ground-breaking Sequence Software for intuitive sequencing
• Complete experiment control for microsystem analysis.

Applications include electrophoresis, dielectrophoresis, capillary electrophoresis, Capillary Electrochromatography (CEC), microfluidics, MEMS, lab-on-a-chip research and many more.

LabSmith HVS448 High Voltage Sequencer Models