Dissecting the Interplay between Organic Charge-Modulated Field-Effect Transistors and Field-Effect Transistors through Interface Control Engineering

Abstract: Organic charge-modulated field-effect transistors (OCMFETs) have garnered significant interest as sensing platforms for diverse applications that include biomaterials and chemical sensors owing to their distinct operational principles. This study aims to improve the understanding of driving mechanisms in OCMFETs and optimize their device performance by investigating the correlation between organic field-effect transistors (OFETs) and OCMFETs. By introducing self-assembled monolayers (SAMs) with different funct… Show more

“…[18][19][20] Another key factor is the selectivity of gas sensors, which can be achieved with a functionalized molecule that merely interacts with the target analyte. 21,22 In a previous study, nitrided zeolites in conductive polymers were investigated for selective NO 2 adsorption. 23,24 Nitrogen has robust potential as a functional site for adsorbing NO x molecules.…”

Additive engineering for high-performance polythiophene gas sensors incorporating functional amine additive with strong binding energy for NO₂

“…[18][19][20] Another key factor is the selectivity of gas sensors, which can be achieved with a functionalized molecule that merely interacts with the target analyte. 21,22 In a previous study, nitrided zeolites in conductive polymers were investigated for selective NO 2 adsorption. 23,24 Nitrogen has robust potential as a functional site for adsorbing NO x molecules.…”

Additive engineering for high-performance polythiophene gas sensors incorporating functional amine additive with strong binding energy for NO₂