Syringe Pump for Microfluidics and Laboratory Fluid Delivery

A Benchtop Syringe Pump for Controlled Liquid Delivery in Research Applications

A benchtop syringe pump designed for controlled syringe-based liquid delivery in research applications. It can be used in microfluidics, droplet generation, hydrogel preparation, cell culture perfusion, and other experiments where gradual and controlled fluid movement is required.

Suitable for small-scale experiments, method development, and testing flow conditions before moving to more complex systems.

 

Description

Why use Syringe Pump?

Many microfluidic and cell culture experiments require controlled liquid delivery through tubing, chips, needles, or small devices. Manual pipetting or uncontrolled flow can make it difficult to manage timing, liquid volume, and flow behaviour.

Syringe Pump provides a practical way to deliver fluids from a syringe into experimental setups with controlled movement.

  • Controlled Syringe-Based Delivery: Supports gradual liquid delivery for laboratory and microfluidic experiments.
  • Useful for Microfluidics: Suitable for introducing aqueous solutions, oils, buffers, hydrogels, and other research fluids into microfluidic devices.
  • Small-Scale Testing: Useful for testing flow conditions, chip designs, hydrogel systems, and material behaviour before larger-scale experiments.
  • Suitable for Droplet Work: Can be used as part of droplet generation setups where controlled flow of dispersed or continuous phases is required.
  • Benchtop Design: Compact laboratory format suitable for research benches and routine experimental setups.
  • Supports Method Development: Useful when optimising flow conditions, reagent delivery, or device testing.

Technical Use

Syringe Pump is intended for research applications requiring controlled syringe-driven fluid delivery. It can be used with compatible syringes, tubing, and laboratory devices depending on the experimental setup.

It is particularly useful when researchers need to test how flow conditions affect droplet formation, hydrogel behaviour, material delivery, or cell culture device operation.

Key Use Benefits:

  • Controlled Liquid Movement: Helps deliver fluids at a set pace during experiments.
  • Microfluidic Device Testing: Suitable for introducing fluids into microfluidic chips and small-channel devices.
  • Droplet and Emulsion Setup: Can support flow control for droplet generation and water-in-oil emulsion experiments.
  • Hydrogel and Biomaterial Studies: Useful for delivering hydrogel precursor solutions such as GelMA, AlgMA, alginate, or other research materials.
  • Cell Culture and Perfusion Studies: Can be used in research setups requiring controlled media or reagent delivery.
  • Pre-Scale Testing: Useful for testing conditions before moving into more automated or larger-volume systems.

Applications

From microfluidic device testing to hydrogel delivery, Syringe Pump can support a range of laboratory applications:

  • Microfluidics: For controlled liquid delivery into chips, tubing, and small-channel devices.
  • Droplet Generation: For syringe-based delivery of oil and aqueous phases in droplet microfluidic setups.
  • Hydrogel Formation: For controlled delivery of hydrogel precursor solutions in biomaterial experiments.
  • Cell Encapsulation: For research setups involving cells, hydrogels, and droplet-based encapsulation.
  • Organ-on-a-Chip and Perfusion Culture: For controlled media or reagent delivery in microfluidic cell culture systems.
  • Drug Screening and Assay Development: For controlled addition of reagents, media, or test compounds in small-scale systems.
  • Biomaterials Research: For testing flow behaviour of polymers, hydrogels, and particle-forming materials.
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Additional information

Product Type

Syringe Pump

Model

LSP02-1Y

Number of Channels

Dual channel

Working Modes

Infusion, withdrawal, infusion then withdrawal, withdrawal then infusion, continuous operation

Syringe Compatibility

10 µL to 60 mL syringes

Display

128 × 64 graphic LCD display

Control Interface

Rotary encoder switch and membrane keypad

Flow/Volume Settings

Volume, flow rate, and linear speed

Linear Force

≤ 280 N

Accuracy

≤ 0.5% error when operating at ≥30% of maximum infusion distance

Communication

RS485

Power Supply

AC 90–265 V, 50/60 Hz

Dimensions

280 × 263.5 × 153.2 mm

Weight

4.9 kg

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