Gold(I)–Thiolate Coordination Polymers as Multifunctional Materials: The Case of Au(I)–<i>p</i>-Fluorothiophenolate

Vaidya, Shefali; Hawila, Saly; Zeyu, Fan; Khan, Tuhin; Fateeva, Alexandra; Toche, François; Chiriac, Rodica; Bonhommé, Anne; Ledoux, Gilles; Lebègue, Sébastien; Park, Jeongmin; Kim, Won June; Liu, Juejing; Guo, Xiaofeng; Mesbah, Adel; Horike, Satoshi; Demessence, Aude

doi:10.1021/acsami.4c01958

ACS Appl. Mater. Interfaces

2024

DOI: 10.1021/acsami.4c01958

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Gold(I)–Thiolate Coordination Polymers as Multifunctional Materials: The Case of Au(I)–p-Fluorothiophenolate

Shefali Vaidya,

Saly Hawila,

Fan Zeyu

et al.

Abstract: Gold−sulfur interaction has vital importance in nanotechnologies and material chemistry to design functional nanoparticles, self-assembled monolayers, or molecular complexes. In this paper, a mixture of only two basic precursors, such as the chloroauric acid (HAu(III)Cl 4 ) and a thiol molecule (p-fluorothiophenol (p-HSPhF)), are used for the synthesis of gold(I)−thiolate coordination polymers. Under different conditions of synthesis and external stimuli, five different functional materials with different stat… Show more

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Cited by 2 publications

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Simple Fabrication and Unique Fiber Growth Mechanism of Copper(I) 4-Toluenethiolate-Based Fibrous Coordination Polymer

Eguchi,

Nodake,

Nagata

2024

ACS Macro Lett.

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Coordination polymers (CPs) exhibit various distinctive properties owing to the metals incorporated in their main chains. These properties make CPs appealing for applications in optoelectronic devices and sensors and as precursors for inorganic materials with controlled morphologies. However, only a few CPs form fibrous structures, and the fabrication methods require complicated procedures, thus, limiting their range of applications. In this study, we report the easily feasible fabrication of fibrous CP, specifically, copper(I) 4-toluenethiolate (CuSArMe), and investigate its unique fiber growth mechanism. The reaction of CuI and 4-toluenethiol in acetonitrile in the presence of triethylamine quickly produced aggregated CuSArMe particles. With continuous stirring at ambient temperature (∼20 °C), wavy fibers grew from the surface of the aggregates, eventually forming an entangled fibrous structure. Structural evaluations of CuSArMe using powder X-ray diffraction analyses revealed that the regularity of the crystal phase increased as the morphology changed from aggregated particles to fibrous structures, suggesting that the transformation was a crystallization-driven process. Additionally, the conversion of fibrous CuSArMe to Cu2S, a known semiconductor, was demonstrated while maintaining the fiber-like structure and providing the desired materials.

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Simple Fabrication and Unique Fiber Growth Mechanism of Copper(I) 4-Toluenethiolate-Based Fibrous Coordination Polymer

Eguchi,

Nodake,

Nagata

2024

ACS Macro Lett.

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On Polymeric Gold(I) Complexes with Glutathione in Aqueous Solutions

Mironov,

Kharlamova

2024

Russ. J. Inorg. Chem.

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Gold(I)–Thiolate Coordination Polymers as Multifunctional Materials: The Case of Au(I)–p-Fluorothiophenolate

Cited by 2 publications

References 71 publications

Simple Fabrication and Unique Fiber Growth Mechanism of Copper(I) 4-Toluenethiolate-Based Fibrous Coordination Polymer

Simple Fabrication and Unique Fiber Growth Mechanism of Copper(I) 4-Toluenethiolate-Based Fibrous Coordination Polymer

On Polymeric Gold(I) Complexes with Glutathione in Aqueous Solutions

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