Properties of iron sulfide, hydrosulfide, and mixed sulfide/hydrosulfide cluster anions through photoelectron spectroscopy and density functional theory calculations

Shi Yin; Elliot R Bernstein

doi:10.1063/1.4964651

Properties of iron sulfide, hydrosulfide, and mixed sulfide/hydrosulfide cluster anions through photoelectron spectroscopy and density functional theory calculations

J Chem Phys. 2016 Oct 21;145(15):154302. doi: 10.1063/1.4964651.

Authors

Shi Yin¹, Elliot R Bernstein¹

Affiliation

¹ Department of Chemistry, NSF ERC for Extreme Ultraviolet Science and Technology, Colorado State University, Fort Collins, Colorado 80523, USA.

PMID: 27782493
DOI: 10.1063/1.4964651

Abstract

A new magnetic-bottle time-of-flight photoelectron spectroscopy (PES) apparatus is constructed in our laboratory. The PES spectra of iron sulfide, hydrosulfide, and mixed sulfide/hydrosulfide [FeS_m(SH)_n^-; m, n = 0-3, 0 < (m + n) ≤ 3] cluster anions, obtained at 2.331 eV (532 nm) and 3.492 eV (355 nm) photon energies, are reported. The electronic structure and bonding properties of these clusters are additionally investigated at different levels of density functional theory. The most probable structures and ground state spin multiplicity for these cluster anions are tentatively assigned by comparing their theoretical first vertical detachment energies (VDEs) with their respective experiment values. The behavior of S and (SH) as ligands in these iron sulfide, hydrosulfide, and mixed sulfide/hydrosulfide cluster anions is investigated and compared. The experimental first VDEs for Fe(SH)_1-3^- cluster anions are lower than those found for their respective FeS_1-3^- cluster anions. The experimental first VDEs for FeS_1-3^- clusters are observed to increase for the first two S atoms bound to Fe^-; however, due to the formation of an S-S bond for the FeS₃^- cluster, its first VDE is found to be ∼0.41 eV lower than the first VDE for the FeS₂^- cluster. The first VDEs of Fe(SH)_1-3^- cluster anions are observed to increase with the increasing numbers of SH groups. The calculated partial charges of the Fe atom for ground state FeS_1-3^- and Fe(SH)_1-3^- clusters are apparently related to and correlated with their determined first VDEs. The higher first VDE is correlated with a higher, more positive partial charge for the Fe atom of these cluster anions. Iron sulfide/hydrosulfide mixed cluster anions are also explored in this work: the first VDE for FeS(SH)^- is lower than that for FeS₂^-, but higher than that for Fe(SH)₂^-; the first VDEs for FeS₂(SH)^- and FeS(SH)₂^- are close to that for FeS₃^-, but higher than that for Fe(SH)₃^-. The first VDEs of general iron sulfide, hydrosulfide, and mixed sulfide/hydrosulfide clusters [FeS_m(SH)_n^-; m, n = 0-3, 0 < (m + n) ≤ 3] are dependent on three properties of these anions: 1. the partial charge on the Fe atom, 2. disulfide bond formation (S-S) in the cluster, and 3. the number of hydrosulfide ligands in the cluster. The higher the partial charge on the Fe atom of these clusters, the larger the first VDE; however, cluster S-S bonding and more (SH) ligands in the cluster lower the cluster anion first VDE.