A
Aparna Deshpande
Researcher at Indian Institute of Science
Publications - 41
Citations - 2795
Aparna Deshpande is an academic researcher from Indian Institute of Science. The author has contributed to research in topics: Scanning tunneling microscope & Graphene. The author has an hindex of 19, co-authored 40 publications receiving 2507 citations. Previous affiliations of Aparna Deshpande include Indian Institute of Science Education and Research, Pune & Savitribai Phule Pune University.
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Scanning tunnelling microscopy and spectroscopy of ultra-flat graphene on hexagonal boron nitride
Jiamin Xue,Javier Sanchez-Yamagishi,Daniel Bulmash,Philippe Jacquod,Aparna Deshpande,Aparna Deshpande,Kenji Watanabe,Takashi Taniguchi,Pablo Jarillo-Herrero,Brian J. LeRoy +9 more
TL;DR: Scanning tunnelling microscopy is used to show that graphene conforms to hBN, as evidenced by the presence of Moiré patterns, but contrary to predictions, this conformation does not lead to a sizeable band gap because of the misalignment of the lattices.
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Spatially resolved spectroscopy of monolayer graphene on SiO 2
TL;DR: In this article, the authors carried out scanning tunneling spectroscopy measurements on exfoliated monolayer graphene to probe the correlation between its electronic and structural properties, and demonstrated that the electronic properties of graphene are influenced by intrinsic ripples, defects, and the underlying substrate.
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Manipulating kondo temperature via single molecule switching
TL;DR: Tuning spectroscopy data reveal that switching from the saddle to a planar molecular conformation enhances spin-electron coupling, which increases the associated Kondo temperature from 130 to 170 K, demonstrating that the KondoTemperature can be manipulated just by changing molecular conformed without altering chemical composition of the molecule.
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Manipulation of the kondo effect via two-dimensional molecular assembly
TL;DR: By manipulating nearest-neighbor molecules with a scanning tunneling microscope tip, the Kondo resonance originating from the spin-electron interactions between a two-dimensional molecular assembly of TBrPP-Co molecules and a Cu(111) surface is manipulated.
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Starch based nanofibrous scaffolds for wound healing applications
Vijaya Sadashiv Waghmare,Pallavi Ravindra Wadke,Sathish Dyawanapelly,Aparna Deshpande,Ratnesh Jain,Prajakta Dandekar +5 more
TL;DR: Cellular assays with L929 mouse fibroblast cells indicated the ability of the scaffolds to promote cellular proliferation, without exhibiting any toxic effect to the cells, and the nanofibrous scaffolds demonstrated potential for wound healing applications.