Detection of ionized gas molecules in air by graphene and carbon nanotube networks

Ji Hao; Bo Li; Hyun Young Yung; Fangze Liu; Sanghyung Hong; Yung Joon Jung; Swastik Kar

Detection of ionized gas molecules in air by graphene and carbon nanotube networks

ORAL

Abstract

The liquid phase ions sensing by graphene and carbon nanotube has been demonstrated in many publications due to the minimum gate voltage easily shift induced by ionic gating effect, but it is still unclear for vapor phase ions sensing. Here we want to report that the ionized gas molecules in air can be also very sensitively detected by graphene and carbon nanotube networks under very low applied voltage, which shows the very high charge to current amplification factor, the value can be up to 10$^{\mathrm{8}}$~A/C, and the direction of current-change can be used to differentiate the positive and negative ions. In further, the field effect of graphene device induced by vapor phase ions was discussed.

^*NSF ECCS 1202376, NSF ECCS CAREER 1351424 and NSF DMREF 1434824, a Northeastern University Provost’s Tier-1 seed grant for interdisciplinary research, Technology Innovation Program (10050481) from Ministry of Trade, Industry & Energy of Republic of Korea

March 17, 2017, 10:12 AM – March 17, 2017, 10:24 AM

Authors

Ji Hao
- Department of Mechanical and Industrial Engineering, Northeastern University
Bo Li
- Department of Mechanical Engineering, Villanova University
Hyun Young Yung
- Department of Energy Engineering, Gyeongnam National University of Science and Technology
Fangze Liu
- Los Alamos National Laboratory
Sanghyung Hong
- Department of Mechanical and Industrial Engineering, Northeastern University
Yung Joon Jung
- Department of Mechanical and Industrial Engineering, Northeastern University
Swastik Kar
- Department of Physics, Northeastern University
- Northeastern University