Polyhydrido Copper Nanoclusters with a Hollow Icosahedral Core: [Cu30H18{E2P(OR)2}12] (E=S or Se; R=nPr, iPr or iBu)

Subrat Kumar Barik, Shou Chih Huo, Chun Yen Wu, Tzu Hao Chiu, Jian Hong Liao, Xiaoping Wang, Samia Kahlal, Jean Yves Saillard, C. W. Liu

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40 Scopus citations

Abstract

Although atomically precise polyhydrido copper nanoclusters are of prime interest for a variety of applications, they have so far remained scarce. Herein, this work describes the synthesis of a dithiophosphate-protected copper(I) hydride-rich nanocluster (NC), [Cu30H18{S2P(OnPr)2}12] (1H), fully characterized by various spectroscopic methods and single-crystal X-ray diffraction. The X-ray structure of 1H reveals an unprecedented central Cu12 hollow icosahedron. Six faces of this icosahedron are capped by Cu3 triangles, the whole Cu30 core being wrapped by twelve dithiophosphate ligands and the whole cluster has ideal S6 symmetry. The locations of the 18 hydrides in 1H were ascertained by a single-crystal neutron diffraction study. They are composed of three types: capping μ3-H, interstitial μ4-H (seesaw) and μ5-H ligands (square pyramidal), in good agreement with the DFT simulations. The numbers of hydrides and ligand resonances in the 1H NMR spectrum of 1H are in line with their coordination environment in the solid state, retaining the S6 symmetry in solution. Furthermore, two new Se-protected polyhydrido copper nanoclusters, [Cu30H18{Se2P(OR)2}12] (2H: R=iPr 3H: R=iBu) were synthesized from their sulfur relative 1H via ligand displacement reaction and their X-ray structures feature the exceptional case where both the NC shape and size are fully conserved during the course of ligand exchange. DFT and TD-DFT calculations allow understanding the bonding and optical properties of clusters 1H–3H. In addition, the reaction of 1H with [Pd(PPh3)2Cl2] in the presence of terminal alkynes led to the formation of new bimetallic Cu−Pd alloy clusters [PdCu14H2{S2P(OnPr)2}6(C≡CR)6] (4: R=Ph; 5: R=C6H4F).

Original languageEnglish
Pages (from-to)10471-10479
Number of pages9
JournalChemistry - A European Journal
Volume26
Issue number46
DOIs
StatePublished - Aug 17 2020

Funding

This work was supported by the Ministry of Science and Technology in Taiwan (MOST 106-2113-M-259-010; 108-2923-M-259-001) and the France-Taiwan ANR-MOST program (project Nanoalloys). The GENCI is acknowledged for HPC resources (Project A0050807367). We thank Dr. A. Y. Kovalevsky (Neutron Scattering Division, ORNL) for his help with X-ray data collection. This research used resources at the Spallation Neutron Source, a DOE Office of Science User Facility operated by the Oak Ridge National Laboratory, under Contract No. DE-AC05-00OR22725 with UT-Battelle, LLC. This work was supported by the Ministry of Science and Technology in Taiwan (MOST 106‐2113‐M‐259‐010; 108‐2923‐M‐259‐001) and the France‐Taiwan ANR‐MOST program (project Nanoalloys). The GENCI is acknowledged for HPC resources (Project A0050807367). We thank Dr. A. Y. Kovalevsky (Neutron Scattering Division, ORNL) for his help with X‐ray data collection. This research used resources at the Spallation Neutron Source, a DOE Office of Science User Facility operated by the Oak Ridge National Laboratory, under Contract No. DE‐AC05‐00OR22725 with UT‐Battelle, LLC.

FundersFunder number
ANR-MOSTA0050807367
France‐Taiwan ANR‐MOST program
Office of Science
Oak Ridge National LaboratoryDE-AC05-00OR22725
Ministry of Science and Technology, Taiwan106‐2113‐M‐259‐010, 108‐2923‐M‐259‐001

    Keywords

    • copper
    • hollow icosahedron
    • hydride
    • ligand exchange
    • nanocluster
    • neutron diffraction
    • palladium

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