2022
DOI: 10.1002/adtp.202200053
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Covalent Organic Frameworks as a Biomacromolecule Immobilization Platform for Biomedical and Related Applications

Abstract: With the development of biotherapeutic field, biomacromolecules with definite curative and small side effects have gradually become a hot spot in the research and development of new drugs. However, the use of biomacromolecules as drug candidates pose some technical difficulties related to their medicinal properties, mainly drug stability and in vivo transport and delivery. Currently, diverse nanodrug delivery systems have been used to deliver biomacromolecules because they can maintain stability, significantly… Show more

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Cited by 17 publications
(7 citation statements)
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“…COFs possess several advantageous properties such as a high specific surface area, an adjustable pore size, a diverse composition, easy surface functionalization, and high biocompatibility, which make them suitable for hosting gas molecules, biological macromolecules, and nanoparticles. The use of COFs as carriers for protein drugs is an emerging protein immobilization technology. Protein immobilization on COFs can be achieved through surface anchoring and internal encapsulation. Surface anchoring involves fixing proteins on the surface of COFs by physical adsorption or chemical bonding. This approach overcomes the limitations of internal encapsulation that depend on the pore size.…”
Section: Discussionmentioning
confidence: 99%
“…COFs possess several advantageous properties such as a high specific surface area, an adjustable pore size, a diverse composition, easy surface functionalization, and high biocompatibility, which make them suitable for hosting gas molecules, biological macromolecules, and nanoparticles. The use of COFs as carriers for protein drugs is an emerging protein immobilization technology. Protein immobilization on COFs can be achieved through surface anchoring and internal encapsulation. Surface anchoring involves fixing proteins on the surface of COFs by physical adsorption or chemical bonding. This approach overcomes the limitations of internal encapsulation that depend on the pore size.…”
Section: Discussionmentioning
confidence: 99%
“…This strategy is more intricate and costly than one-pot synthesis, which restricts these complexes' mass production and clinical applications. 232 Recent work by Gao et al does pave the way for the future; they developed a mechanochemical strategy for de novo encapsulation of an enzyme inside the COF TpPa-1, which also stabilizes the enzyme against acid, heat, or denaturing agents. 121 Further work will still be required to develop a library of structurally diverse, highly customizable COFs with suitable chemical and morphological properties to immobilize a variety of biomacromolecules, including proteins, drugs, and antibodies.…”
Section: Limitations and Unrealized Advantages Of Using Reticular Pla...mentioning
confidence: 99%
“…[16][17][18] However, only a few further presented the diverse bio-applications of COFs. [19][20][21] Also, another limitation of existing reviews on COF-based carrier systems in the biomedical field is that almost all focused on cancer therapy, while ignoring other applications. 22 Thus, in this review, we highlight the importance of COFs as host materials for the delivery of bioactives and their applications, not only in cancer therapy but also in other biomedical fields.…”
Section: Bencan Tangmentioning
confidence: 99%