Science & Prototype Instruments

Accelerating Cell and Gene Therapy Manufacturing with High-Efficiency Microfluidic Electroporation

Our Solution:

Advanced Microfluidic Electroporation for Precise Control and Scalability.

High Transfection Efficiency: Maximize successful cargo (mRNA, DNA, CRISPR components) uptake for robust genetic modification.
Superior Cell Viability: Minimize cellular stress by applying a highly uniform electric field, leading to higher yields of healthy, functional primary cells.
Scalable Performance: Continuous flow during transfection produces consistent, predictable results from small R&D batches to commercial volumes.

Core Technology:

Electroporation in Continuous Flow using microfluidics

Electroporation Mechanism

Creating Transient Pores for Cellular Cargo Delivery

Cartoon diagram illustrating the cell electroporation process

The diagram shows the process: (1) Before Pulse: Membrane is intact; (2) During Pulse: Transient pores open; (3) After Pulse: Pores close, sealing cargo inside.

Microfluidic Flow Electroporation

Continuous Processing in Electric Field

Animation demonstrating continuous flow of cells through the electroporation microfluidic channel

The animation shows cells passing through the uniform electric field of the microfluidic chip for high-speed, high-viability processing.

Shape the Future of Cell Manufacturing.

Join us in refining and validating our next-generation microfluidic electroporation platforms, scaling from R&D to clinical use, for tomorrow’s cell therapies.

Partner with CyteQuest