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Tailoring Enhanced Elasticity of Crystalline Coordination Polymers.


ABSTRACT: The approach for enhancing the elasticity of crystals with suboptimal elastic performances through a rational design was presented. A hydrogen-bonding link was identified as a critical feature in the structure of the parent material, the Cd(II) coordination polymer [CdI2(I-pz)2] n (I-pz = iodopyrazine), to determine the mechanical output and was modified via cocrystallization. Small organic coformers resembling the initial organic ligand but with readily available hydrogens were selected to improve the identified link, and the extent of strengthening the critical link was in an excellent correlation with the delivered enhancement of elastic flexibility materials.

SUBMITTER: Misura O 

PROVIDER: S-EPMC9983303 | biostudies-literature | 2023 Mar

REPOSITORIES: biostudies-literature

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Tailoring Enhanced Elasticity of Crystalline Coordination Polymers.

Mišura Ozana O   Pisačić Mateja M   Borovina Mladen M   Đaković Marijana M  

Crystal growth & design 20230213 3


The approach for enhancing the elasticity of crystals with suboptimal elastic performances through a rational design was presented. A hydrogen-bonding link was identified as a critical feature in the structure of the parent material, the Cd(II) coordination polymer [CdI<sub>2</sub>(I-pz)<sub>2</sub>] <sub><i>n</i></sub> (I-pz = iodopyrazine), to determine the mechanical output and was modified via cocrystallization. Small organic coformers resembling the initial organic ligand but with readily a  ...[more]

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