T
Thomas C. W. Mak
Researcher at The Chinese University of Hong Kong
Publications - 1096
Citations - 28635
Thomas C. W. Mak is an academic researcher from The Chinese University of Hong Kong. The author has contributed to research in topics: Crystal structure & Ligand. The author has an hindex of 69, co-authored 1079 publications receiving 26114 citations. Previous affiliations of Thomas C. W. Mak include Kuwait University & Ehime University.
Papers
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Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal–organic framework
Ren-Wu Huang,Yong-Sheng Wei,Xi-Yan Dong,Xiao-Hui Wu,Chenxia Du,Shuang-Quan Zang,Thomas C. W. Mak,Thomas C. W. Mak +7 more
TL;DR: The work enriches the cluster-based metal-organic framework portfolio, bridges the gap between silver chalcogenide/chalcogenolate clusters and metal- organic frameworks, and provides a foundation for further development of functional silver-cluster-based materials.
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Polyhedral Clathrate Hydrates. X. Structure of the Double Hydrate of Tetrahydrofuran and Hydrogen Sulfide
Thomas C. W. Mak,R. K. McMullan +1 more
TL;DR: The structure of the tetrahydrofuran/hydrogen sulfide double hydrate has been determined from three-dimensional single-crystal data as discussed by the authors, and the analysis confirmed the clathrate host lattice characteristic of 17 cubic (Type II) gas hydrates.
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Novel Tb-MOF Embedded with Viologen Species for Multi-Photofunctionality: Photochromism, Photomodulated Fluorescence, and Luminescent pH Sensing
TL;DR: In this article, a terbium-organic framework embedded with asymmetric viologen species has been constructed, where reversible photochromism from bright yellow to dark green is implemented due to the favorable spatial stack of the electron donor and acceptor.
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Highly selective Fe3+ sensing and proton conduction in a water-stable sulfonate–carboxylate Tb–organic-framework
TL;DR: In this paper, a 3D porous terbium-organic framework (Tb-DSOA) has been successfully assembled by Tb3+ ions and a sulfonate-carboxylate linker disodium-2,2′-disulfonate 4,4′-oxydibenzoic acid (Na2H2DSOA).
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Chemistry and biological activities of caffeic acid derivatives from Salvia miltiorrhiza
TL;DR: The structural diversity and the pronounced biological activities encountered in the caffeic acid derivatives of S. miltiorrhiza indicate that this class of compounds is worthy of further studies that may lead to new drug discovery.