S
Sudip Pan
Researcher at Nanjing Tech University
Publications - 177
Citations - 4449
Sudip Pan is an academic researcher from Nanjing Tech University. The author has contributed to research in topics: Covalent bond & Chemistry. The author has an hindex of 30, co-authored 149 publications receiving 2987 citations. Previous affiliations of Sudip Pan include Center for Theoretical Studies, University of Miami & Jacobs University Bremen.
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Journal ArticleDOI
Structure and bonding of IrB12−: converting a rigid boron B12 platelet to a Wankel motor
Lei Liu,Diego Moreno,Edison Osorio,Abril C. Castro,Sudip Pan,Pratim Kumar Chattaraj,Thomas Heine,Gabriel Merino +7 more
TL;DR: The global minimum of IrB12− is a C3v symmetric bowl-like structure in which the Ir atom is located on the concave side of the bowl as discussed by the authors.
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A Stable, Crystalline Beryllium Radical Cation.
TL;DR: A paramagnetic beryllium radical cation, [(CAAC)2Be]+● [CAAC = cyclic (al-kyl)(amino)carbene] (2), prepared by oxidation of a zero-valent berylla complex with TEMPO (2, 2, 6, 6-tetramethylpiperidine-1-oxyl).
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Transition‑Metal Chemistry of Alkaline‑Earth Elements: The Trisbenzene Complexes M(Bz) 3 (M=Sr, Ba)
Qian Wang,Sudip Pan,Yan-Bo Wu,Guohai Deng,Jian‐Hong Bian,Guanjun Wang,Lili Zhao,Mingfei Zhou,Gernot Frenking +8 more
TL;DR: The synthesis and spectroscopic identification of the trisbenzene complexes of strontium and barium M(Bz)3 in low‐temperature Ne matrix suggest that the heavier alkaline earth atoms exhibit the full bonding scenario of transition metals.
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Confinement induced binding of noble gas atoms.
TL;DR: Electron density analysis shows that the He-He interaction in He2@B16N16 is of closed-shell type whereas for the same in He 2@B12N12 there may have some degree of covalent character, and confinement causes some type of orbital interaction between two He atoms, which akins to some degree.
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Double dative bond between divalent carbon(0) and uranium.
Wei Su,Sudip Pan,Xiong Sun,Shuao Wang,Lili Zhao,Gernot Frenking,Gernot Frenking,Gernot Frenking,Congqing Zhu +8 more
TL;DR: A series of uranium−carbone complexes are synthesized in which carbon forms an unprecedented double dative bond to uranium, thus providing new opportunities for the applications of f-block compounds.