Virus Detection by Integrated Graphene FET(1)

Kazuhiko Matsumoto; Kaori Yamamoto; Natsuki Sato; Kiyoji Sakano; Kayoko Nishihara; Mamiko Yano; Takao Ono; Yasushi Kanai; Shota Ushiba; Naruto Miyakawa; Shinsuke Tani; Masahiko Kimura

Presentation information

Symposium (Oral)

Symposium » 【Open Symposium】Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

[15p-A410-1~11] 【Open Symposium】Cutting edge nanotechnology for virus detection -Realization of a pandemic-free society with graphene FET sensors capable of rapid detection of human infectious viruses-

Wed. Mar 15, 2023 1:30 PM - 5:35 PM A410 (Building No. 6)

Kazuhiko Matsumoto(Osaka Univ.), Akio Ono(Osaka University)

2:15 PM - 2:30 PM

[15p-A410-4] Virus Detection by Integrated Graphene FET(1)

〇Kazuhiko Matsumoto¹, Kaori Yamamoto¹, Natsuki Sato¹, Kiyoji Sakano¹, Kayoko Nishihara¹, Mamiko Yano¹, Takao Ono¹, Yasushi Kanai¹, Shota Ushiba², Naruto Miyakawa², Shinsuke Tani², Masahiko Kimura² (1.Osaka Univ., 2.Murata Co.)

Keywords:Graphene FET, Virus detection

Sensitive and rapid detection of highly pathogenic viruses become important issue. We have successfully detected the new coronavirus by utilizing the high-sensitivity characteristics of graphene FETs. We have developed a system in which 32 graphene FETs are attached to microTAS, and a phosphate buffer solution flows in, flows through the FET channel, and flows out from the left. Using this system, we observed changes in the Dirac Point before and after virus introduction, and successfully detected the virus. Furthermore, we enabled SEM observation of viruses on graphene FETs, and found that the change in Dirac Point was almost proportional to the number of viruses on graphene FETs. As a result, it was confirmed that the system was measuring the charge of the virus, and the novel coronavirus was successfully detected.