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Arghya Narayan Banerjee
Researcher at Yeungnam University
Publications - 102
Citations - 3517
Arghya Narayan Banerjee is an academic researcher from Yeungnam University. The author has contributed to research in topics: Thin film & Chemistry. The author has an hindex of 29, co-authored 88 publications receiving 2914 citations. Previous affiliations of Arghya Narayan Banerjee include University of Colorado Boulder & University of Nevada, Las Vegas.
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Recent developments in the emerging field of crystalline p-type transparent conducting oxide thin films
TL;DR: In this article, the origin of p-type conductivity in transparent oxides is discussed and an up-to-date and comprehensive description of different P-type transparent conducting oxide thin films is presented.
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The design, fabrication, and photocatalytic utility of nanostructured semiconductors: focus on TiO2-based nanostructures
TL;DR: Applications and future directions of nanostructured TiO2 are considered in the context of various photoinduced phenomena such as hydrogen production, electricity generation via dye-sensitized solar cells, photokilling and self-cleaning effect, photo-oxidation of organic pollutant, wastewater management, and organic synthesis.
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Low-temperature deposition of ZnO thin films on PET and glass substrates by DC-sputtering technique
Arghya Narayan Banerjee,Chandan Kumar Ghosh,Kalyan Kumar Chattopadhyay,Hideki Minoura,Ajay Krishno Sarkar,Atsuya Akiba,Atsushi Kamiya,Tamio Endo +7 more
TL;DR: The structural, optical and electrical properties of ZnO thin films (260 - 490 nm thick) deposited by direct-current sputtering technique, at a relatively low-substrate temperature (363 K), onto polyethylene terephthalate and glass substrates have been investigated as discussed by the authors.
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Oxygen Vacancy-Induced Structural, Optical, and Enhanced Supercapacitive Performance of Zinc Oxide Anchored Graphitic Carbon Nanofiber Hybrid Electrodes
Gowra Raghupathy Dillip,Arghya Narayan Banerjee,Veettikkunnu Chandran Anitha,Borelli Deva Prasad Raju,Sang Woo Joo,Bong-Ki Min +5 more
TL;DR: An effective strategy to intrinsically improve the conductivity and supercapacitive performance of the hybrids by inducing oxygen vacancies is demonstrated and is expected to provide new insights into improving the electrochemical properties of various composites/hybrids.
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Graphene and its derivatives as biomedical materials: future prospects and challenges.
TL;DR: A comprehensive review on the applications of graphene and its derivatives as biomedical materials has been presented to provide an outlook to the applications, and may open up new horizons to inspire broader interests across various disciplines.