Fluorescent coordination-polymer single crystals with tunable elastic–plastic transformations

Jia Hui Zhang; Yu Xia Li; Kai Ge Gao; Xin Li Shi; Jie Sheng Hu; Hui Ai; Zi Shuo Yao; Jun Tao

doi:10.1039/d5dt02338f

Fluorescent coordination-polymer single crystals with tunable elastic–plastic transformations

Jia Hui Zhang
, Yu Xia Li
, Kai Ge Gao
, Xin Li Shi
, Jie Sheng Hu
, Hui Ai
, Zi Shuo Yao^*
, Jun Tao

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Achieving and controlling mechanical responses in single crystals with complex coordination architectures remains challenging. Here, we report the design and synthesis of a homologous series of one-dimensional cadmium(ii) coordination polymers that exhibit controllable bending under an external load. Systematic modification of imidazole-based ligands modulates the periodic Cd⋯Cd separation along the chains, thereby tuning the macroscopic response from elastic to plastic. Based on experimental results and data analysis, we identified an inverse correlation between the metal–metal repeat distance and the attainable elastic strain, consistent with a molecular-spring-like Cd–Cl–Cd backbone. In parallel, the imidazole chromophores endow all materials with stable blue photoluminescence under 365 nm excitation. The convergence of mechanical adaptability and intrinsic emission identifies these crystals as promising candidates for flexible optoelectronic components and optical waveguides.

Original language	English
Journal	Dalton Transactions
DOIs	https://doi.org/10.1039/d5dt02338f
Publication status	Accepted/In press - 2025
Externally published	Yes

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title = "Fluorescent coordination-polymer single crystals with tunable elastic–plastic transformations",

abstract = "Achieving and controlling mechanical responses in single crystals with complex coordination architectures remains challenging. Here, we report the design and synthesis of a homologous series of one-dimensional cadmium(ii) coordination polymers that exhibit controllable bending under an external load. Systematic modification of imidazole-based ligands modulates the periodic Cd⋯Cd separation along the chains, thereby tuning the macroscopic response from elastic to plastic. Based on experimental results and data analysis, we identified an inverse correlation between the metal–metal repeat distance and the attainable elastic strain, consistent with a molecular-spring-like Cd–Cl–Cd backbone. In parallel, the imidazole chromophores endow all materials with stable blue photoluminescence under 365 nm excitation. The convergence of mechanical adaptability and intrinsic emission identifies these crystals as promising candidates for flexible optoelectronic components and optical waveguides.",

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year = "2025",

doi = "10.1039/d5dt02338f",

language = "English",

journal = "Dalton Transactions",

issn = "1477-9226",

publisher = "Royal Society of Chemistry",

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T1 - Fluorescent coordination-polymer single crystals with tunable elastic–plastic transformations

AU - Zhang, Jia Hui

AU - Li, Yu Xia

AU - Gao, Kai Ge

AU - Shi, Xin Li

AU - Hu, Jie Sheng

AU - Ai, Hui

AU - Yao, Zi Shuo

AU - Tao, Jun

PY - 2025

Y1 - 2025

N2 - Achieving and controlling mechanical responses in single crystals with complex coordination architectures remains challenging. Here, we report the design and synthesis of a homologous series of one-dimensional cadmium(ii) coordination polymers that exhibit controllable bending under an external load. Systematic modification of imidazole-based ligands modulates the periodic Cd⋯Cd separation along the chains, thereby tuning the macroscopic response from elastic to plastic. Based on experimental results and data analysis, we identified an inverse correlation between the metal–metal repeat distance and the attainable elastic strain, consistent with a molecular-spring-like Cd–Cl–Cd backbone. In parallel, the imidazole chromophores endow all materials with stable blue photoluminescence under 365 nm excitation. The convergence of mechanical adaptability and intrinsic emission identifies these crystals as promising candidates for flexible optoelectronic components and optical waveguides.

AB - Achieving and controlling mechanical responses in single crystals with complex coordination architectures remains challenging. Here, we report the design and synthesis of a homologous series of one-dimensional cadmium(ii) coordination polymers that exhibit controllable bending under an external load. Systematic modification of imidazole-based ligands modulates the periodic Cd⋯Cd separation along the chains, thereby tuning the macroscopic response from elastic to plastic. Based on experimental results and data analysis, we identified an inverse correlation between the metal–metal repeat distance and the attainable elastic strain, consistent with a molecular-spring-like Cd–Cl–Cd backbone. In parallel, the imidazole chromophores endow all materials with stable blue photoluminescence under 365 nm excitation. The convergence of mechanical adaptability and intrinsic emission identifies these crystals as promising candidates for flexible optoelectronic components and optical waveguides.

UR - https://www.scopus.com/pages/publications/105023395795

U2 - 10.1039/d5dt02338f

DO - 10.1039/d5dt02338f

M3 - Article

AN - SCOPUS:105023395795

SN - 1477-9226

JO - Dalton Transactions

JF - Dalton Transactions

ER -

Fluorescent coordination-polymer single crystals with tunable elastic–plastic transformations

Abstract

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