Subhash Singh scite author profile

There is a growing need to understand mechanisms of photoresponse in devices based on organic semiconductor thin films and interfaces. The phenomenon of persistent photocurrent (PPC) has been systematically investigated in solution processed TIPS-Pentacene based organic thin film transistors (OTFTs) as an important example of an organic semiconductor material system. With increasing light intensity from dark to 385 mW/cm2, there is a significant shift in threshold voltage (VTh) while the filed-effect mobility remains unchanged. The OTFT shows large photoresponse under white light illumination due to exponential tail states with characteristic energy parameter of 86 meV. The photo-induced current is observed to persist even for several hours after turning the light off. To investigate the origin of PPC, its quenching mechanism is investigated by a variety of methods involving a combination of gate bias, illumination and temperature. We show that a coherent model of trap-charge induced carrier concentration is able to account for the quenching behavior. Analysis of isothermal transients using time-analyzed transient spectroscopy shows that the emission rates are activated and are also field enhanced due to Poole-Frankel effect. The results shed light on the nature, origin, and energetic distribution of the traps controlling PPC in solution processed organic semiconductors and their interfaces.

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Flexible inkjet-printed dual-gate organic thin film transistors and PMOS inverters: Noise margin control by top gate

Singh

Takeda

Matsui

et al. 2020

Organic Electronics

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Dielectric optimization for inkjet-printed TIPS-pentacene organic thin-film transistors

Singh

Mohapatra

2014

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Flexible PMOS Inverter and NOR Gate Using Inkjet-Printed Dual-Gate Organic Thin Film Transistors

Singh

Takeda

Matsui

et al. 2020

IEEE Electron Device Lett.

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Subhash Singh

Bias stress effect in solution-processed organic thin-film transistors: Evidence of field-induced emission from interfacial ions

Persistent photocurrent (PPC) in solution-processed organic thin film transistors: Mechanisms of gate voltage control

Flexible inkjet-printed dual-gate organic thin film transistors and PMOS inverters: Noise margin control by top gate

Dielectric optimization for inkjet-printed TIPS-pentacene organic thin-film transistors

Flexible PMOS Inverter and NOR Gate Using Inkjet-Printed Dual-Gate Organic Thin Film Transistors

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