Tahamida Banu scite author profile

Tahamida Banu

5Publications

76Citation Statements Received

237Citation Statements Given

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Affiliations

University of Stuttgart, Indian Association for the Cultivation of Science

Publications

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Hydrolysis of ammonia borane and metal amidoboranes: A comparative study

Banu

Debnath

Ash

et al. 2015

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A gas phase mechanistic investigation has been carried out theoretically to explore the hydrolysis pathway of ammonia borane (NH3BH3) and metal amidoboranes (MNH2BH3, M = Li,Na). The Solvation Model based on Density (SMD) has been employed to show the effect of bulk water on the reaction mechanism. Gibbs free energy of solvation has also been computed to evaluate the stabilization of the participating systems in water medium which directly affects the barrier heights in the potential energy surface of hydrolysis reaction. To validate the experimentally observed kinetics studies, we have carried out transition state theory calculations on these hydrolysis reactions. Our result shows that the hydrolysis of both the metal amidoboranes exhibits greatly improved kinetics over the neat NH3BH3 hydrolysis which corroborates well with the experimental observation. Between the two amidoboranes, hydrolysis of LiNH2BH3 is found to be kinetically favored over that of NaNH2BH3, making it a better candidate for releasing molecular hydrogen.

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Exploration of Unimolecular Gas-Phase Detoxication Pathways of Sarin and Soman: A Computational Study from the Perspective of Reaction Energetics and Kinetics

Ash

Debnath

Banu

et al. 2016

Chem. Res. Toxicol.

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A mechanistic investigation has been carried out to explore all possible gas phase unimolecular isomerization as well as decomposition pathways of toxic organophosphorus compounds (OPCs), namely, sarin (GB) and soman (GD), which are better known as nerve agents. We have identified a total of 13 detoxication pathways for sarin, where the α-H, β-H, and γ-H take part in the H-transfer process. However, for soman, due to the presence of ω-H, three additional detoxication pathways are obtained, where the ω-H is involved in the H-transfer process. Among all the pathways, the D3 decomposition pathway, where the phosphorus oxoacid derivative and alkene are generated via the formation of a six-membered ring in the transition state, is identified as the most feasible pathway from the perspective of both activation barrier and reaction enthalpy values. Moreover, we have studied the feasibility of the isomerization and decomposition pathways by performing the reaction kinetics in the temperature range of 300 K-1000 K using the one-dimensional Rice-Ramsperger-Kassel-Marcus (RRKM) master equation. From the RRKM calculation also, D3 pathway is confirmed as the most feasible pathway for both OPCs. The rate constant values associated with the D3 pathway within the temperature range of 600 K-700 K imply that the degradation of the OPCs is possible within this temperature range via the D3 pathway, which is in good agreement with the earlier reported experimental result. It is also observed that at higher temperature range (∼900 K), the increased rate constant values of other detoxication pathways indicate that along with D3, all other pathways become more or less equally feasible. Therefore, the entire work provides a widespread idea about the kinetic as well as thermodynamic feasibility of the explored detoxication pathways of the titled OPCs.

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A cryogenic ice setup to simulate carbon atom reactions in interstellar ices

Qasim

Witlox

Fedoseev

et al. 2020

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Cyclic amine-borane adducts [C_nH_2n+1N·BH₃(n = 2–6)] as chemical hydrogen storage systems: a computational analysis

et al. 2014

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Structural and thermodynamic aspects of Li n @C x endohedral metallofullerenes: a DFT approach

et al. 2016

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Tahamida Banu

Hydrolysis of ammonia borane and metal amidoboranes: A comparative study

Exploration of Unimolecular Gas-Phase Detoxication Pathways of Sarin and Soman: A Computational Study from the Perspective of Reaction Energetics and Kinetics

A cryogenic ice setup to simulate carbon atom reactions in interstellar ices

Cyclic amine-borane adducts [C_nH_2n+1N·BH₃(n = 2–6)] as chemical hydrogen storage systems: a computational analysis

Structural and thermodynamic aspects of Li n @C x endohedral metallofullerenes: a DFT approach

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Tahamida Banu

Hydrolysis of ammonia borane and metal amidoboranes: A comparative study

Exploration of Unimolecular Gas-Phase Detoxication Pathways of Sarin and Soman: A Computational Study from the Perspective of Reaction Energetics and Kinetics

A cryogenic ice setup to simulate carbon atom reactions in interstellar ices

Cyclic amine-borane adducts [CnH2n+1N·BH3(n = 2–6)] as chemical hydrogen storage systems: a computational analysis

Structural and thermodynamic aspects of Li n @C x endohedral metallofullerenes: a DFT approach

Contact Info

Product

Resources

About

Cyclic amine-borane adducts [C_nH_2n+1N·BH₃(n = 2–6)] as chemical hydrogen storage systems: a computational analysis