Skip to main content
Cyber Security and Resilience Community
Cyber Security and Resilience Community
People
Faculty
Research Scientists
Postdoctoral Fellows
All People
Research Groups
Cyber Security and Resilience Technology (CyberSaR)
Roberto Di Pietro Research Group (R-Pietro)
Security Research Bearing Experimental Results (SeRBER)
Research Strategy
tris keto-hydrazone
A highly selective electron affinity facilitated H2S sensor: the marriage of tris(keto-hydrazone) and organic field-effect transistor
1 min read ·
Wed, Oct 14 2020
News
organic field-effect transistor
tris keto-hydrazone
H2S sensor
Gas Sensors
Saravanan, Yuvaraja, et al. "A highly selective electron affinity facilitated H2S sensor: the marriage of tris (keto-hydrazone) and organic field-effect transistor." Materials Horizons, 2020. Conjugated polymers (CPs) are emerging as part of a promising future for gas-sensing applications. However, some of their limitations, such as poor specificity, humidity sensitivity and poor ambient stability, remain persistent. Herein, a novel combination of polymer-monomer heterostructure, derived from CP (PDVT-10) and a newly accomplished monomer [tris(keto-hydrazone)] has been integrated in an organic
