Artykuły udostępnione publicznie: - Santanu PattanayakWięcej informacji
Niedostępny w żadnym miejscu: 1
The equatorial ligand effect on the properties and reactivity of iron (V) oxo intermediates
S Pattanayak, FG Cantú Reinhard, A Rana, SS Gupta, SP de Visser
Chemistry–A European Journal 25 (34), 8092-8104, 2019
Upoważnienia: Department of Science & Technology, India
Dostępne w jakimś miejscu: 12
Electrocatalytic water oxidation by a molecular cobalt complex through a high valent cobalt oxo intermediate
D Das, S Pattanayak, KK Singh, B Garai, SS Gupta
Chemical Communications 52 (79), 11787-11790, 2016
Upoważnienia: Department of Science & Technology, India
Spectroscopic and Reactivity Comparisons of a Pair of bTAML Complexes with FeV=O and FeIV=O Units
SSG Santanu Pattanayak, Andrew J. Jasniewski, Atanu Rana, Apparao ...
Inorganic chemistry 56 (11), 6352-6361, 2017
Upoważnienia: US National Science Foundation, US Department of Energy, US National …
Electrochemical Formation of FeV(O) and Mechanism of Its Reaction with Water During O−O Bond Formation
S Pattanayak, DR Chowdhury, B Garai, KK Singh, A Paul, BB Dhar, ...
Chemistry–A European Journal 23 (14), 3414-3424, 2017
Upoważnienia: Department of Science & Technology, India
Oxoiron (v) mediated selective electrochemical oxygenation of unactivated C–H and C [double bond, length as m-dash] C bonds using water as the oxygen source
B Chandra, KM Hellan, S Pattanayak, SS Gupta
Chemical Science 11 (43), 11877-11885, 2020
Upoważnienia: Department of Science & Technology, India
Selective C–H bond oxidation catalyzed by the Fe-bTAML complex: Mechanistic implications
M Ghosh, S Pattanayak, BB Dhar, KK Singh, C Panda, S Sen Gupta
Inorganic Chemistry 56 (18), 10852-10860, 2017
Upoważnienia: Department of Science & Technology, India
Quantification of the electrostatic effect on redox potential by positive charges in a catalyst microenvironment
ND Loewen, S Pattanayak, R Herber, JC Fettinger, LA Berben
The Journal of Physical Chemistry Letters 12 (12), 3066-3073, 2021
Upoważnienia: US Department of Energy
Using Substituted [Fe4N(CO)12]− as a Platform To Probe the Effect of Cation and Lewis Acid Location on Redox Potential
S Pattanayak, ND Loewen, LA Berben
Inorganic Chemistry 62 (5), 1919-1925, 2022
Upoważnienia: US Department of Energy
Pre-Equilibrium Reaction Mechanism as a Strategy to Enhance Rate and Lower Overpotential in Electrocatalysis
S Pattanayak, LA Berben
Journal of the American Chemical Society 145 (6), 3419-3426, 2023
Upoważnienia: US Department of Energy
Cobalt Carbonyl Clusters Enable Independent Control of Two Proton Transfer Rates in the Mechanism for Hydrogen Evolution
S Pattanayak, LA Berben
ChemElectroChem 8 (13), 2488-2494, 2021
Upoważnienia: US Department of Energy
Electrical-biological hybrid system for carbon efficient isobutanol production
TR Treece, S Pattanayak, MM Matson, MM Cepeda, LA Berben, S Atsumi
Metabolic Engineering 80, 142-150, 2023
Upoważnienia: US Department of Energy
Comparing the reactivity of an oxoiron (iv) cation radical and its oxoiron (v) tautomer towards C–H bonds
S Jana, S Pattanayak, S Das, M Ghosh, L Velasco, D Moonshiram, ...
Chemical Communications 59 (19), 2755-2758, 2023
Upoważnienia: Council of Scientific and Industrial Research, India, Department of Science …
What drives the H-abstraction reaction in bio-mimetic oxoiron-bTAML complexes? A computational investigation
A Mukherjee, S Pattanayak, SS Gupta, K Vanka
Physical Chemistry Chemical Physics 20 (20), 13845-13850, 2018
Upoważnienia: Department of Science & Technology, India
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