Water‐dispersible and soluble porous organic polymers for biomedical applications
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TLDR
This review highlights recent progress on water soluble or dispersible POPs for biomedical applications including bioimaging and biosensing, nanocarriers for drug delivery and tumor targeting, phototherapeutics, protein and gene delivery, biomacromolecule encapsulation and discrimination, and anti‐microbial activity.Abstract:
Porous organic polymers (POPs) have become an emerging class of advanced porous organic materials owing to their structural diversity and tailored functions in solid state and organic media. Creating water‐soluble and related water‐dispersible POPs is still very challenging in the research area of porous organic materials. Their porosity‐based functions with diverse topological architectures in aqueous media offer promising platforms in bio‐related fields. This review highlights recent progress on water soluble or dispersible POPs for biomedical applications including bioimaging and biosensing, nanocarriers for drug delivery and tumor targeting, phototherapeutics, protein and gene delivery, biomacromolecule encapsulation and discrimination, and anti‐microbial activity.read more
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References
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TL;DR: In this critical review, recent progress in the area ofAIE research is summarized and typical examples of AIE systems are discussed, from which their structure-property relationships are derived.
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Functional Supramolecular Polymers
TL;DR: The specific features of supramolecular polymers that can lead to applications in a variety of fields are reviewed, including: materials—in which processability and self-healing properties are of interest; biomedicine— in which the concerns are dynamic functionality and biodegradability; and hierarchical assembly and electronic systems—with an interest in unidirectionality of charge flow.
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San-Yuan Ding,Wei Wang +1 more
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Polymers of intrinsic microporosity (PIMs): organic materials for membrane separations, heterogeneous catalysis and hydrogen storage
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TL;DR: This tutorial review describes recent research directed towards the synthesis of polymer-based organic microporous materials termed Polymers of Intrinsic Microporosity (PIMs), and demonstrates the potential of PIMs for heterogeneous catalysis and hydrogen storage.
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