2021
DOI: 10.1039/d1na00387a
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Polyoxoplatinates as covalently dynamic electron sponges and molecular electronics materials

Abstract: In organic systems, dynamic covalent chemistry provides an adaptive approach (i.e., “covalent dynamics”) where thermodynamic equilibriums are used to tailor structural and electronic changes in molecular assemblies. The covalent dynamics...

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Cited by 7 publications
(7 citation statements)
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“…[92] More importantly, the redox properties, surface nucleophilicity, and hydrogen/electron areas of different POM structures can be further investigated through molecular orbital analysis and molecular electrostatic potential analysis. [93,94]…”
Section: Characterization Methodsmentioning
confidence: 99%
“…[92] More importantly, the redox properties, surface nucleophilicity, and hydrogen/electron areas of different POM structures can be further investigated through molecular orbital analysis and molecular electrostatic potential analysis. [93,94]…”
Section: Characterization Methodsmentioning
confidence: 99%
“…POMtronics is a term coined in 2020 [41] that broadly refers to advanced applications of POMs deriving from their magnetic, electronic, and optical properties [123]. In a more narrow sense, POMtronics refers to POM-based nanoelectronics and spintronic devices [124]. A typical example may be a symmetrical and spherical POM sandwiched between two gold electrodes functioning as a current switch (Figure 18) [124].…”
Section: Vision On Pomtronicsmentioning
confidence: 99%
“…Electron-rich metal oxo clusters have attracted significant attention due to their diverse structures and excellent physicochemical properties for applications, including medicine, 1,2 biotechnology, catalysis, 3,4 molecular electronics materials, 5,6 nanotechnology, 7 and energy storage. 8 The formation of deeply reduced, electron-rich oxo clusters was achieved by Mo VI → Mo IV super-reduction; the Xu's group has been working on the establishment and exploration of the chemical properties of the deeply reduced electron-rich Mo IV 3 -polyoxometalate (POMs) featuring triangularly Mo IV -Mo IV metalmetal bonded incomplete cuboidal (TIC) [Mo IV 3 O 4 ] units, including synthesis, structure and catalysis.…”
Section: Introductionmentioning
confidence: 99%