钴-富勒烯配合物对氘的反应活性。

Reactivity of Cobalt-Fullerene Complexes towards Deuterium.

作者信息

Vanbuel Jan, Germán Estefanía, Libeert Guillaume, Veys Koen, Moens Janni, Alonso Julio A, López María J, Janssens Ewald

机构信息

Quantum Solid-State Physics, Department of Physics and Astronomy, KU Leuven, 3001, Leuven, Belgium.

Departamento de Física Teórica, Atómica y Óptica, Universidad de Valladolid, 47011, Valladolid, Spain.

出版信息

Chemphyschem. 2020 May 18;21(10):1012-1018. doi: 10.1002/cphc.202000146. Epub 2020 Apr 21.

DOI:10.1002/cphc.202000146

PMID:32233111

Abstract

The adsorption of molecular deuterium (D ) onto charged cobalt-fullerene-complexes Co C (n=1-8) is measured experimentally in a few-collision reaction cell. The reactivity is strongly size-dependent, hinting at clustering of the transition metal atoms on the fullerenes. Formation and desorption rate constants are obtained from the pressure-dependent deuterogenation curves. DFT calculations indeed find that this transition metal clustering is energetically more favorable than decorating the fullerene. For n=1, D is predicted to bind molecularly and for n=2 dissociative and molecular configurations are quasi-isoenergetic. For n=3-8, dissociation of D is thermodynamically preferred. However, reaching the ground state configuration with dissociated deuterium on the timescale of the experiment may be hindered by dissociation barriers.

摘要

在几碰撞反应池中通过实验测量了分子氘（D₂）在带电钴 - 富勒烯配合物CoₙC₈₀（n = 1 - 8）上的吸附。反应活性强烈依赖于尺寸，这暗示了过渡金属原子在富勒烯上的聚集。从压力依赖的氘化曲线获得了形成和解吸速率常数。密度泛函理论计算确实发现，这种过渡金属聚集在能量上比在富勒烯上进行修饰更有利。对于n = 1，预计D₂以分子形式结合，对于n = 2，解离和分子构型的能量几乎相等。对于n = 3 - 8，D₂的解离在热力学上是有利的。然而，在实验时间尺度上，由于解离势垒，可能会阻碍氘解离后达到基态构型。

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钴-富勒烯配合物对氘的反应活性。

Reactivity of Cobalt-Fullerene Complexes towards Deuterium.

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