Hemlata Faujdar scite author profile

Hemlata Faujdar

4Publications

32Citation Statements Received

44Citation Statements Given

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University of Delhi

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Intramolecular stabilization of a catalytic [FeFe]-hydrogenase mimic investigated by experiment and theory

et al. 2018

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The mono-substituted complex [Fe2(CO)5(μ-naphthalene-2-thiolate)2(P(PhOMe-p)3)] was prepared taking after the structural principles from both [NiFe] and [FeFe]-hydrogenase enzymes. Crystal structures are reported for this complex and the all carbonyl analogue. The bridging naphthalene thiolates resemble μ-bridging cysteine amino acids. One of the naphthyl moieties forms π-π stacking interactions with the terminal bulky phosphine ligand in the crystal structure and in calculations. This interaction stabilizes the reduced and protonated forms during electrocatalytic proton reduction in the presence of acetic acid and hinders the rotation of the phosphine ligand. The intramolecular π-π stabilization, the electrochemistry and the mechanism of the hydrogen evolution reaction were investigated using computational approaches.

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A mononuclear iron carbonyl complex [Fe(μ-bdt)(CO)₂(PTA)₂] with bulky phosphine ligands: a model for the [FeFe] hydrogenase enzyme active site with an inverted redox potential

et al. 2017

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A mononuclear hexa-coordinated iron carbonyl complex [Fe(μ-bdt)(CO)(PTA)] 1 (bdt = 1,2-benzenedithiolate; PTA = 1,3,5-triaza-7-phosphaadamantane) with two bulky phosphine ligands in the trans position was synthesized and characterized by X-ray structural analysis coulometry data, FTIR, electrochemistry and electronic structure calculations. The complex undergoes a facilitated two-electron reduction 1/1 and shows an inverted one-electron reduction for 1/1 at higher potentials. Electrochemical investigations of 1 are compared to the closely related [Fe(bdt)(CO)(PMe)] compound. A mechanistic suggestion for the hydrogen evolution reaction upon proton reduction from acid media is derived. The stability of 1 in both weak and strong acids is monitored by cyclic voltammetry.

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Structural and HER studies of diphosphine-monothiolate complexes [Fe2(CO)4(μ-naphthalene-2-thiolate)2(μ-dppe)] and [Fe2(CO)4(μ-naphthalene-2-thiolate)2(μ-DPEPhos)]

Faujdar

Spannenberg

Kaur‐Ghumaan

2020

Inorganica Chimica Acta

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Level VI Key Content Analysis of Pictures in History Textbook

Faujdar¹,

Arora²

2015

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Hemlata Faujdar

Intramolecular stabilization of a catalytic [FeFe]-hydrogenase mimic investigated by experiment and theory

A mononuclear iron carbonyl complex [Fe(μ-bdt)(CO)₂(PTA)₂] with bulky phosphine ligands: a model for the [FeFe] hydrogenase enzyme active site with an inverted redox potential

Structural and HER studies of diphosphine-monothiolate complexes [Fe2(CO)4(μ-naphthalene-2-thiolate)2(μ-dppe)] and [Fe2(CO)4(μ-naphthalene-2-thiolate)2(μ-DPEPhos)]

Level VI Key Content Analysis of Pictures in History Textbook

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Hemlata Faujdar

Intramolecular stabilization of a catalytic [FeFe]-hydrogenase mimic investigated by experiment and theory

A mononuclear iron carbonyl complex [Fe(μ-bdt)(CO)2(PTA)2] with bulky phosphine ligands: a model for the [FeFe] hydrogenase enzyme active site with an inverted redox potential

Structural and HER studies of diphosphine-monothiolate complexes [Fe2(CO)4(μ-naphthalene-2-thiolate)2(μ-dppe)] and [Fe2(CO)4(μ-naphthalene-2-thiolate)2(μ-DPEPhos)]

Level VI Key Content Analysis of Pictures in History Textbook

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A mononuclear iron carbonyl complex [Fe(μ-bdt)(CO)₂(PTA)₂] with bulky phosphine ligands: a model for the [FeFe] hydrogenase enzyme active site with an inverted redox potential