Icosidodecahedral Coordination‐Saturated Cuprofullerene

Zhan, Shun‐Ze; Liu, Yu‐Li; Cai, Hong; Li, Ming‐De; Huang, Qibin; Wang, Xu‐Dong; Li, Mian; Dang, Li; Ng, Seik Weng; Lu, Weigang; Li, Dan

doi:10.1002/ange.202312698

Angewandte Chemie

2023

DOI: 10.1002/ange.202312698

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Icosidodecahedral Coordination‐Saturated Cuprofullerene

Shun‐Ze Zhan,

Yu‐Li Liu,

Hong Cai

et al.

Abstract: The first coordination‐saturated buckyball with C60 molecule totally encased in an icosidodecahedral Cu30 in a (μ30‐(η2)30)‐fashion, namely C60@Cu30@Cl36N12, has been successfully realized via a C60‐templated assembly. The 48 outmost coordinating atoms (36Cl + 12N) comprise a new simplicial polyhedron that is described by a ccf topology. Charge transfer from (CuI, Cl) to C60 explains the expansion of light absorption up to 700 nm, and accounts for an ultrafast photophysical process that underpins its high pho… Show more

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2024

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Enumeration of n-Dimensional Hypercubes, Icosahedra, Rubik’s Cube Dice, Colorings, Chirality, and Encryptions Based on Their Symmetries

Balasubramanian

2024

Symmetry

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The whimsical Las Vegas/Monte Carlo cubic dice are generalized to construct the combinatorial problem of enumerating all n-dimensional hypercube dice and dice of other shapes that exhibit cubic, icosahedral, and higher symmetries. By utilizing powerful generating function techniques for various irreducible representations, we derive the combinatorial enumerations of all possible dice in n-dimensional space with hyperoctahedral symmetries. Likewise, a number of shapes that exhibit icosahedral symmetries such as a truncated dodecahedron and a truncated icosahedron are considered for the combinatorial problem of dice enumerations with the corresponding shapes. We consider several dice with cubic symmetries such as the truncated octahedron, dodecahedron, and Rubik’s cube shapes. It is shown that all enumerated dice are chiral, and we provide the counts of chiral pairs of dice in the n-dimensional space. During the combinatorial enumeration, it was discovered that two different shapes of dice exist with the same chiral pair count culminating to the novel concept of isochiral polyhedra. The combinatorial problem of dice enumeration is generalized to multi-coloring partitions. Applications to chirality in n-dimension, molecular clusters, zeolites, mesoporous materials, cryptography, and biology are also pointed out. Applications to the nonlinear n-dimensional hypercube and other dicey encryptions are exemplified with romantic, clandestine messages: “I love U” and “V Elope at 2”.

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Enumeration of n-Dimensional Hypercubes, Icosahedra, Rubik’s Cube Dice, Colorings, Chirality, and Encryptions Based on Their Symmetries

Balasubramanian

2024

Symmetry

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show abstract

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Icosidodecahedral Coordination‐Saturated Cuprofullerene

Cited by 1 publication

References 48 publications

Enumeration of n-Dimensional Hypercubes, Icosahedra, Rubik’s Cube Dice, Colorings, Chirality, and Encryptions Based on Their Symmetries

Enumeration of n-Dimensional Hypercubes, Icosahedra, Rubik’s Cube Dice, Colorings, Chirality, and Encryptions Based on Their Symmetries

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