Vipul Singh scite author profile

A new solution-processed technique of floating film transfer method (FTM) is proposed for depositing organic thin film semiconductor. Organic field-effect transistors (OFETs) have been fabricated to evaluate the transport characteristics in poly(3-hexylthiophene) (P3HT) films deposited with FTM and spin-coating methodology. An enhancement of hole mobility was found in the FTM film by one order of magnitude as compared to that in spin-coated films. Absorption spectra as well as X-ray diffraction profiles represent well-grown lamella structures of P3HT with FTM transverse to the substrate, representing the advantage of this method suitable for the carrier transport.

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Influence of potassium permanganate on the anisotropic growth and enhanced UV emission of ZnO nanostructures using hydrothermal process for optoelectronic applications

Dixit

Bilgaiyan

Palani

et al. 2015

J Sol-Gel Sci Technol

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Attenuation of coda waves in the Garhwal Himalaya, India

Gupta

Singh

Kumar

1995

Physics of the Earth and Planetary Interiors

104

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Enhancement of triboelectric nanogenerator output performance by laser 3D-Surface pattern method for energy harvesting application

et al. 2020

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Role of Surface Plasmon Decay Mediated Hot Carriers toward the Photoluminescence Tuning of Metal-Coated ZnO Nanorods

2017

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Photoluminescence spectra of metal (Al and Au)-coated ZnO nanorods synthesized by a facile low-temperature hydrothermal method with in situ addition of KMnO 4 has been investigated. Further, dependence of defect density prior to metal coating on enhancement/suppression of UV and defect-related emissions have been investigated. The UV emission from metal-coated ZnO nanorods was greatly enhanced whereas the visible emission was significantly suppressed compared with the case of bare ZnO nanorods. Here, we have proposed a new mechanism elucidating the effect of Al and Au coating, incorporating the fact that nonradiative decay of surface plasmons to hot electrons and hot holes (generated through interband transitions) can be assigned for UV-emission enhancement and defect-related emission passivation, respectively. The recombination of electrons present at the defect level of ZnO to the hot holes generated with d−sp transition can be attributed for the suppression of deep level emission rather than the transfer to the Al Fermi level, whereas electron transfer from the defect states to the Fermi level and transfer of hot holes to the ZnO valence band level is responsible for UV emission enhancement in Au coated ZnO nanorods. Moreover, we have also discussed the interaction of charge carriers present at various defects states, viz., neutral, singly ionized, and doubly ionized oxygen vacancies with metals. The observed results were further verified using the Kubelka−Munk absorption technique. This work provides a plausible explanation behind the emission tuning of the metalcoated ZnO nanorods.

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Vipul Singh

Enhancement of Transport Characteristics in Poly(3-hexylthiophene) Films Deposited with Floating Film Transfer Method

Influence of potassium permanganate on the anisotropic growth and enhanced UV emission of ZnO nanostructures using hydrothermal process for optoelectronic applications

Attenuation of coda waves in the Garhwal Himalaya, India

Enhancement of triboelectric nanogenerator output performance by laser 3D-Surface pattern method for energy harvesting application

Role of Surface Plasmon Decay Mediated Hot Carriers toward the Photoluminescence Tuning of Metal-Coated ZnO Nanorods

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