Embedded Files
LAMP 4PPM에서 새로운 "연구원 및 대학원생"을 모집합니다.
Previous Research Activities
Previous Research Activities
▶ Prof. Cho’s research has been introduced on
MIT Technology Review (March 24, 2010 and Aug. 10 2012) for two times and
Nature (vol 464, 4 March, 2010) as a research highlights.
<R2R gravure printed RFID rectenna>
▶ Based on fully printed rectenna and 1 bit RF code generator, he demonstrated
the world first fully gravure printed 13.56 MHz operated wireless electrochemical sensor tag
for detecting residue of pesticides (Scientific Reports, 2015).
<All printed NFC electrochemical sensor tag for detecting glucose, pesticides, heavy metals, E. coli, etc.>
<A smart food label utilizing roll-to-roll gravure printed NFC antenna and thermistor to replace existing “use-by” date system> (IEEE Sensor Journal 2019, in press)
<R2R gravure printed limit-less length of TFT active matrix for digital signage and sensor arrays>
Detailed technology
Detailed technology
Sustainable High-throughput Foundry for Printed Electronics
Sustainable High-throughput Foundry for Printed Electronics
Realization of a sustainable high throughput foundry with low greenhouse gas emission and net zero by-products using a roll-to-roll gravure printing system. The foundry can be used to fabricate sub-penny flexible microprocessors and microcontrollers for the commercial implementation of the internet of things, point-of-care things, and smart packaging.
Point-of-care testing device based on Ultra-fast Photonic PCR
Point-of-care testing device based on Ultra-fast Photonic PCR
MEDIC RT-qPCR
Development of a photonic RT-qPCR device based on photothermal conversion materials that enables diagnosis in 15 minutes. Early-diagnosis and point-of-care testing are accomplished with 97% accuracy and 94% sensitivity.
Rapid: Sample-to-answer within 15 minutes
High-throughput and High efficiency
Page updated
Google Sites
Report abuse