<Abstract>
We are conducting research on micro-droplet manipulation to improve the efficiency of biochemical experiments: fusing a large number of droplets formed on two substrates to achieve mixing, reaction, and separation between droplets.
＜Link＞
Selective control of the contact and transport between droplet pairs by electrowetting-on-dielectric for droplet-arry sanwiching technology

Cellular calcium oscilations in droplets with different chemical concentrations supplied by droplet-array sandwiching technology

<Abstract>
We are conducting research on devices that mimic biological tubes(small intestine, blood vessels, etc.) for drug discovery support. We aim to reproduce in vivo by combining actuators and cells.
<Link＞
An openable artificial intestinal tract system for the in vitro evaluation of medicines

<Abstract>
Our purpose is to develop a system that automatically performs stimulation and evaluation of cultured cells, thereby contributing to the efficiency of experiments and the discovery of new cellular functions. Automation makes it possible to mimic the in vivo environment, which changes day and night.

＜Link＞
Cell and tissue system capable of automated culture, stimulation and monitor with the aim of feedback control of organs-on-a-chip