[Ag67(SPhMe2)32(PPh3)8]3+: Synthesis, Total ... - ACS Publications

Oct 13, 2016 - ... University of Science and Technology (KAUST), Thuwal 23955-6900, Saudi Arabia ... Engineering the surface ligands of metal nanopart...
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[Ag67(SPhMe2)32(PPh3)8]3+: Synthesis, Total Structure, and Optical Properties of a Large Box-Shaped Silver Nanocluster Mohammad J. Alhilaly, Megalamane S. Bootharaju, Chakra P Joshi, Tabot M.D. Besong, Abdul-Hamid Emwas, Rosalba Juarez Mosqueda, Sami Kaappa, Sami Malola, Karim Adil, Aleksander Shkurenko, Hannu Häkkinen, Mohamed Eddaoudi, and Osman M. Bakr J. Am. Chem. Soc., Just Accepted Manuscript • DOI: 10.1021/jacs.6b09007 • Publication Date (Web): 13 Oct 2016 Downloaded from http://pubs.acs.org on October 18, 2016

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Journal of the American Chemical Society

[Ag67(SPhMe2)32(PPh3)8]3+: Synthesis, Total Structure, and Optical Properties of a Large Box-Shaped Silver Nanocluster Mohammad J. Alhilaly,†,‡ Megalamane S. Bootharaju,†,‡ Chakra P. Joshi,† Tabot M. Besong,† AbdulHamid Emwas,⊥ Rosalba Juarez-Mosqueda,§ Sami Kaappa,§ Sami Malola,§ Karim Adil,|| Aleksander Shkurenko,|| Hannu Häkkinen,*,§ Mohamed Eddaoudi,|| and Osman M. Bakr*,† †

Division of Physical Sciences and Engineering, King Abdullah University of Science and Technology (KAUST), Thuwal 23955-6900, Saudi Arabia ⊥Imaging and Characterization Core Lab, King Abdullah University of Science and Technology (KAUST), Thuwal 239556900, Saudi Arabia § Departments of Physics and Chemistry, Nanoscience Center, University of Jyväskylä, FI-40014 Jyväskylä, Finland ||

Functional Materials Design, Discovery and Development Research Group (FMD3), Advanced Membranes and Porous Materials Center, Division of Physical Sciences and Engineering, King Abdullah University of Science and Technology (KAUST), Thuwal 23955-6900, Saudi Arabia ABSTRACT: Engineering the surface ligands of metal nanoparticles is critical in designing unique arrangements of metal atoms. Here, we report the synthesis and total structure determination of a large box-shaped Ag67 nanocluster (NC) protected by a mixed shell of thiolate (2,4-dimethylbenzenethiolate, SPhMe2) and phosphine (triphenylphosphine, PPh 3) ligands. Single crystal X-ray diffraction (SCXRD) and electrospray ionization mass spectrometry (ESI-MS) revealed the cluster formula to be [Ag67(SPhMe2)32(PPh3)8]3+. The crystal structure shows an Ag23 metal core covered by a layer of Ag44S32P8 arranged in the shape of a box. The Ag23 core was formed through an unprecedented centered cuboctahedron i.e., Ag13, unlike the common centered Ag13 icosahedron geometry. Two types of ligand motifs, eight AgS3P and eight bridging thiols were found to stabilize the whole cluster. The optical spectrum of this NC displayed highly structured multiple absorption peaks. The electronic structure and optical spectrum of Ag67 were computed using time-dependent density functional theory (DFT) both for the full cluster [Ag67(SPhMe2)32(PPh3)8]3+ and a reduced model [Ag67(SH)32(PH3)8]3+. The lowest metal-to-metal transitions in the range of 500 to 800 nm could be explained by considering the reduced model that shows almost identical electronic states to 32 free electrons in a jellium box. The successful synthesis of the large box-shaped Ag67 NC facilitated by the combined use of phosphine and thiol paves the way for synthesizing other metal clusters with unprecedented shapes by judicious choice of thiols and phosphines.

INTRODUCTION Noble metal nanoparticles (NPs), especially ones made of gold and silver, have recently garnered significant attention because of the potential applications of their optical and physicochemical properties,1-3 which led to their use in catalysis,4,5 bioimaging and biosensing,6-9 and light energy conversion10,11. Unlike plasmonic NPs (average diameter >2 nm), ultrasmall NPs (typically