Our Research Fields


Nanomaterials describe materials of which a single unit is sized between 1 and 1000 nanometers (10−9 meter) but is usually 1—100 nm. Nanomaterials research takes a materials science-based approach to nanotechnology, leveraging advances in materials metrology and synthesis which have been developed in support of microfabrication research. Materials with structure at the nanoscale often have unique optical, electronic, or mechanical properties.


Bioengineering is the application of concepts and methods of biology to solve real-world problems related to the life sciences or the application thereof, using engineering’s own analytical and synthetic methodologies and also its traditional sensitivity to the cost and practicality of the solutions arrived at.

Wearable Electronics

Wearable technology is related to both the field of ubiquitous computing and the history and development of wearable computers. With ubiquitous computing, wearable technology share the vision of interweaving technology into the everyday life, of making technology pervasive and interaction friction less. Through the history and development of wearable computing, this vision has been both contrasted and affirmed.

Click for more details

Do you want to…

Take some time and see our Publications?

...or maybe see our Members?

Our group members

SCI(E) Papers
Total Impact Factor
Corresponding Author
Total Impact Factor

Latest news

[Acceptance] “Bioinspired Geometry-Switchable Janus Nanofibers for Eye-Readable H2 Sensors”

우리 연구실의 한희탁 학생이 주저자로 참여하고 이상근 학생, 신세라 학생, 이재홍 박사가 공동 저자로 참여한 논문 “Bioinspired Geometry-Switchable Janus Nanofibers for Eye-Readable H2 Sensors”가 SCI journal인 Advanced Functional Materials (2016 IF = 12.124)에 Accept 되었습니다. 축하드립니다!

[Acceptance] “Rough-Surface-Enabled Capacitive Pressure Sensors with 3D Touch Capability”

우리 연구실의 이재홍 박사님이 주저자로 참여하고 강수빈 학생이 공동 저자로 참여한 논문 “Rough-Surface-Enabled Capacitive Pressure Sensors with 3D Touch Capability”가 SCI journal인 Small (2015 IF = 8.32)에 Accept 되었습니다. 축하드립니다!

[News] 신세라 학생 논문, Small의 Front Cover로 선정

우리 연구실의 신세라 학생이 주저자로 참여하고 이재홍, 이상근, 서정목 박사, 김다영, 김현철, 홍주리 박사, 이순일 학생이 공동 저자로 참여한 논문 “A Droplet-Based High-Throughput SERS Platform on a Droplet-Guiding-Track-Engraved Superhydrophobic Substrate”가 Small의 Front Cocver로 선정되었습니다. 축하드립니다!   [Link]

See all our news

NRF  MOTIE  KIAT  Future  BK21plus  LG  Hyundai  Applied Materials  Air Liquide  Najran  Tanaka