High-affinity 1 : 2 recognition based on naphthyl-azocalix[4]arene and its application as a cleavable noncovalent connector in constructing responsive supramolecular polymeric materials

Macrocyclic hosts which can bind two guests simultaneously with high affinity, such as cucurbit[8]uril, are highly useful for a wide range of applications by acting as noncovalent connectors. However, the integration of stimuli-controlled release properties into such robust noncovalent connectors wo...

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Published in	Chemical science (Cambridge) Vol. 16; no. 16; pp. 766 - 776
Main Authors	Yao, Shun-Yu, Ying, An-Kang, Geng, Wen-Chao, Chen, Fang-Yuan, Hu, Xin-Yue, Cai, Kang, Guo, Dong-Sheng
Format	Journal Article
Language	English
Published	England Royal Society of Chemistry 16.04.2025 The Royal Society of Chemistry
Subjects	Affinity Aqueous solutions Chemistry Connectors Controlled release Hypoxia Recognition Robustness (mathematics) Stimuli Supramolecular polymers
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Abstract	Macrocyclic hosts which can bind two guests simultaneously with high affinity, such as cucurbit[8]uril, are highly useful for a wide range of applications by acting as noncovalent connectors. However, the integration of stimuli-controlled release properties into such robust noncovalent connectors would be even more desirable. Here, we introduce Naph-SAC4A, a naphthyl-extended deep-cavity azocalix[4]arene with hypoxia-responsiveness, which exhibits exceptional 1 : 2 hosting abilities for organic dyes in aqueous solution with affinities ranging from 10 14 to 10 16 M −2 . Furthermore, Naph-SAC4A was employed as a robust hypoxia-cleavable noncovalent connector to construct linear supramolecular polymers and crosslinked supramolecular hydrogels. Both structures exhibit responsiveness to hypoxic stimuli. With its high-affinity 1 : 2 recognition, unique hypoxia-responsiveness, and easy accessibility, Naph-SAC4A holds great potential for smart supramolecular polymeric materials. Naph-SAC4A forms 1 : 2 host-guest complexes ( K total up to 10 16 M −2 ) with dyes, enabling modular hypoxia-responsive supramolecular polymers and hydrogels. This system shows broad potential in drug delivery, tissue engineering, and imaging diagnostics.
AbstractList	Macrocyclic hosts which can bind two guests simultaneously with high affinity, such as cucurbit[8]uril, are highly useful for a wide range of applications by acting as noncovalent connectors. However, the integration of stimuli-controlled release properties into such robust noncovalent connectors would be even more desirable. Here, we introduce Naph-SAC4A, a naphthyl-extended deep-cavity azocalix[4]arene with hypoxia-responsiveness, which exhibits exceptional 1 : 2 hosting abilities for organic dyes in aqueous solution with affinities ranging from 1014 to 1016 M−2. Furthermore, Naph-SAC4A was employed as a robust hypoxia-cleavable noncovalent connector to construct linear supramolecular polymers and crosslinked supramolecular hydrogels. Both structures exhibit responsiveness to hypoxic stimuli. With its high-affinity 1 : 2 recognition, unique hypoxia-responsiveness, and easy accessibility, Naph-SAC4A holds great potential for smart supramolecular polymeric materials. Macrocyclic hosts which can bind two guests simultaneously with high affinity, such as cucurbit[8]uril, are highly useful for a wide range of applications by acting as noncovalent connectors. However, the integration of stimuli-controlled release properties into such robust noncovalent connectors would be even more desirable. Here, we introduce Naph-SAC4A, a naphthyl-extended deep-cavity azocalix[4]arene with hypoxia-responsiveness, which exhibits exceptional 1 : 2 hosting abilities for organic dyes in aqueous solution with affinities ranging from 10 to 10 M . Furthermore, Naph-SAC4A was employed as a robust hypoxia-cleavable noncovalent connector to construct linear supramolecular polymers and crosslinked supramolecular hydrogels. Both structures exhibit responsiveness to hypoxic stimuli. With its high-affinity 1 : 2 recognition, unique hypoxia-responsiveness, and easy accessibility, Naph-SAC4A holds great potential for smart supramolecular polymeric materials. Macrocyclic hosts which can bind two guests simultaneously with high affinity, such as cucurbit[8]uril, are highly useful for a wide range of applications by acting as noncovalent connectors. However, the integration of stimuli-controlled release properties into such robust noncovalent connectors would be even more desirable. Here, we introduce Naph-SAC4A, a naphthyl-extended deep-cavity azocalix[4]arene with hypoxia-responsiveness, which exhibits exceptional 1 : 2 hosting abilities for organic dyes in aqueous solution with affinities ranging from 10 14 to 10 16 M −2 . Furthermore, Naph-SAC4A was employed as a robust hypoxia-cleavable noncovalent connector to construct linear supramolecular polymers and crosslinked supramolecular hydrogels. Both structures exhibit responsiveness to hypoxic stimuli. With its high-affinity 1 : 2 recognition, unique hypoxia-responsiveness, and easy accessibility, Naph-SAC4A holds great potential for smart supramolecular polymeric materials. Naph-SAC4A forms 1 : 2 host-guest complexes ( K total up to 10 16 M −2 ) with dyes, enabling modular hypoxia-responsive supramolecular polymers and hydrogels. This system shows broad potential in drug delivery, tissue engineering, and imaging diagnostics. Macrocyclic hosts which can bind two guests simultaneously with high affinity, such as cucurbit[8]uril, are highly useful for a wide range of applications by acting as noncovalent connectors. However, the integration of stimuli-controlled release properties into such robust noncovalent connectors would be even more desirable. Here, we introduce Naph-SAC4A, a naphthyl-extended deep-cavity azocalix[4]arene with hypoxia-responsiveness, which exhibits exceptional 1 : 2 hosting abilities for organic dyes in aqueous solution with affinities ranging from 10 14 to 10 16 M −2 . Furthermore, Naph-SAC4A was employed as a robust hypoxia-cleavable noncovalent connector to construct linear supramolecular polymers and crosslinked supramolecular hydrogels. Both structures exhibit responsiveness to hypoxic stimuli. With its high-affinity 1 : 2 recognition, unique hypoxia-responsiveness, and easy accessibility, Naph-SAC4A holds great potential for smart supramolecular polymeric materials.
Author	Guo, Dong-Sheng Chen, Fang-Yuan Hu, Xin-Yue Ying, An-Kang Yao, Shun-Yu Cai, Kang Geng, Wen-Chao
AuthorAffiliation	Key Laboratory of Functional Polymer Materials (Ministry of Education) Nankai University College of Chemistry and Environmental Sciences College of Chemistry Xinjiang Key Laboratory of Novel Functional Materials Chemistry Collaborative Innovation Center of Chemical Science and Engineering State Key Laboratory of Elemento-Organic Chemistry Frontiers Science Center for New Organic Matter Kashi University
AuthorAffiliation_xml	– name: Frontiers Science Center for New Organic Matter – name: College of Chemistry and Environmental Sciences – name: Key Laboratory of Functional Polymer Materials (Ministry of Education) – name: Xinjiang Key Laboratory of Novel Functional Materials Chemistry – name: State Key Laboratory of Elemento-Organic Chemistry – name: Kashi University – name: College of Chemistry – name: Collaborative Innovation Center of Chemical Science and Engineering – name: Nankai University
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Snippet	Macrocyclic hosts which can bind two guests simultaneously with high affinity, such as cucurbit[8]uril, are highly useful for a wide range of applications by...
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SubjectTerms	Affinity Aqueous solutions Chemistry Connectors Controlled release Hypoxia Recognition Robustness (mathematics) Stimuli Supramolecular polymers
Title	High-affinity 1 : 2 recognition based on naphthyl-azocalix[4]arene and its application as a cleavable noncovalent connector in constructing responsive supramolecular polymeric materials
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