Ligand Effect on the Electronic Structure of Cobalt Sulfide Clusters: A Combined Experimental and Theoretical Study | Zendy

Gaoxiang Liu | Zendy; Vikas Chauhan | Zendy; Alexander P. Aydt | Zendy; Sandra M. Ciborowski | Zendy; Andrew Pinkard | Zendy; Zhaoguo Zhu | Zendy; Xavier Roy | Zendy; Shiv N. Khanna | Zendy; Kit H. Bowen | Zendy

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Ligand Effect on the Electronic Structure of Cobalt Sulfide Clusters: A Combined Experimental and Theoretical Study

Author(s) -

Gaoxiang Liu,

Vikas Chauhan,

Alexander P. Aydt,

Sandra M. Ciborowski,

Andrew Pinkard,

Zhaoguo Zhu,

Xavier Roy,

Shiv N. Khanna,

Kit H. Bowen

Publication year - 2019

Publication title -

the journal of physical chemistry c

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.401

H-Index - 289

eISSN - 1932-7455

pISSN - 1932-7447

DOI - 10.1021/acs.jpcc.9b04153

Subject(s) - electron affinity (data page) , cluster (spacecraft) , binding energy , cobalt , chemistry , sulfide , density functional theory , atomic orbital , electronic structure , crystallography , homo/lumo , molecular orbital , x ray photoelectron spectroscopy , ligand (biochemistry) , computational chemistry , chemical physics , electron , molecule , atomic physics , inorganic chemistry , physics , nuclear magnetic resonance , organic chemistry , biochemistry , receptor , quantum mechanics , computer science , programming language

Recent studies have shown that capping ligands offer a new dimension for fine-tuning the properties of clusters. Here we investigate this concept by measuring the anion photoelectron spectra of a series of hexanuclear cobalt sulfide clusters, Co6S8, passivated by different numbers of triethylphosphine ligands, PEt3. We find that the addition of PEt3 gradually shifts the electronic spectrum of the cluster to higher energy, leading to a decrease in its electron affinity. Density functional theory calculations reveal that adding ligands demagnetizes the Co6S8 core. The decrease in electron affinity results from a monotonic increase in the energy of the cluster lowest unoccupied molecular orbitals (LUMO). This effect is attributed to the electron donation from the ligands to the cluster core, which increases the charge density in the core region.

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