S
Suryakant Mishra
Researcher at Weizmann Institute of Science
Publications - 31
Citations - 1113
Suryakant Mishra is an academic researcher from Weizmann Institute of Science. The author has contributed to research in topics: Electrochromism & Raman spectroscopy. The author has an hindex of 17, co-authored 26 publications receiving 639 citations. Previous affiliations of Suryakant Mishra include Indian Institute of Technology Indore.
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TiO2–Co3O4 Core–Shell Nanorods: Bifunctional Role in Better Energy Storage and Electrochromism
TL;DR: In this article, a suitably designed heterostructured TiO2-Co3O4 core-shell nanorod array has been found to exhibit improved supercapacitive as well as electrochromic properties as compared to the nanowires of either of the oxides when used individually.
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Length-Dependent Electron Spin Polarization in Oligopeptides and DNA
Suryakant Mishra,Amit Kumar Mondal,Shubhadeep Pal,Tapan Kumar Das,Eilam Z. B. Smolinsky,Giuliano Siligardi,Ron Naaman +6 more
TL;DR: The effect of spin polarization in conduction and in electric field-induced polarization was measured for double-stranded DNA oligonucleotides and oligopeptides of different lengths.
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The Electron Spin as a Chiral Reagent
Tzuriel S. Metzger,Suryakant Mishra,Brian P. Bloom,Naama Goren,Avner Neubauer,Guy Shmul,Jimeng Wei,Shira Yochelis,Francesco Tassinari,Claudio Fontanesi,David H. Waldeck,Yossi Paltiel,Ron Naaman +12 more
TL;DR: This work shows that enantioselective chemical transformations can be induced by the electron spin itself, and demonstrates a new mechanism for realizing enantiospecific chemistry.
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Mesoporous Nickel Oxide (NiO) Nanopetals for Ultrasensitive Glucose Sensing
TL;DR: The glucose sensor electrode possesses good anti-interference ability, stability, repeatability & reproducibility and shows inert behavior toward ascorbic acid, uric acid (UA) and dopamine acid (DA) making it a perfect non-enzymatic glucose sensor.
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Effect of Chiral Molecules on the Electron's Spin Wavefunction at Interfaces.
Supriya Ghosh,Suryakant Mishra,Eytan Avigad,Brian P. Bloom,Lech T. Baczewski,Shira Yochelis,Yossi Paltiel,Ron Naaman,David H. Waldeck +8 more
TL;DR: Kelvin-probe measurements on ferromagnetic thin film electrodes reveal that the electron penetration from the metal electrode into the chiral molecules depends on the ferromagnet’s magnetization direction and the molecules’ chirality, which implies that this phenomenon is important for spin transport in chiral spintronic devices and for magneto-electrochemistry of chiral molecule.