Nanoelectronic Devices Laboratory

1. Biomimetic Tactile Sensors Enabled by Nanotube Networks

- Biomimetic tactile sensors will realize quantitative analysis

of surface tactile textures which have never been possible

before. The sensor incorporates highly sensitive pressure

sensors that senses the vibration transferred from the

artificial fingerprint structures making possible analysis of

tactile contact information, which may lead to

- Quantitative classification of tactile sensation

- Humanistic haptic feedback

2. On-chip Microfluidic Cell Sorting & Capture

- Cell sorting microfluidic devices have normally been

fabricated on glass substrates. Here, we have developed a

method to incorporated microfluidcs on top of an insulated Si

substrates allowing application to

- On-chip circulating tumor cell (CTC) capture

- On-chip microfluidic cell culture and analysis.

3. Vertically Integrated 3D Silicon Memory

- For further integration of memory, 3D memory structures

have been proposed. Our interest is in reducing distribution

due to polysilicon and devise new 3D memory structures. The

related research topics are

- 3D NAND Flash for beyond Tbit storage

- 3D integrated DRAM structure research

 

Research

Electronic device application of natural and synthetic

nanostructures