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Spectroscopic, Molecular docking studies on cellulose acetate: polyvinylidene fluoride as flexible film scaffold for wound healing
发表日期 July 01, 2024 (DOI: https://doi.org/10.54985/peeref.2407p2120813)
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作者
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Milton Franklin Benial A1 , Pushpam S1 , Sheelarani V1
- Madurai Kamaraj University
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会议/活动
- Conference, September 2023 (Madurai, India)
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海报摘要
- Although health care has rapidly advanced in recent decades, the development of appropriate biomaterials for wound healing application remains a challenging task. The hydrophobic nature of PVDF membrane causes fouling, decreasing the membrane performance and shortening the membrane lifetime. Cellulose is one of the most common natural polymers in the world. This work mainly reviews the processing, properties and applications of the β phase PVDF de blend membranes with PVDF, which possessed enhanced antifouling properties. CA a polymer was chosen as the host polymer matrix due to its flexibility, high thermal stability, mechanical stability and versatile properties. Aqueous PVDF a polymer was incorporated as additive to modulate the conductivity of the host semi crystalline polymer.Additionally, computer modelling, such as molecular docking tools, can lead to pharmacological study and improve assortment and biological treatments. The CA:PVDF molecular docking study was performed with wound related proteins such as 1VIT, 1TBQ
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关键词
- Celluose Acetate, PVDF, X-RD, FT-IR, Molecular docking
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研究领域
- Physics, Pharmacy and Pharmacology, Chemistry
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参考文献
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基金
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附加信息
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- 利益冲突
- No competing interests were disclosed.
- 数据可用性声明
- Data sharing not applicable to this poster as no datasets were generated or analyzed during the current study.
- 知识共享许可协议
- Copyright © 2024 A et al. This is an open access work distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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引用
A, M., S, P., V, S. Spectroscopic, Molecular docking studies on cellulose acetate: polyvinylidene fluoride as flexible film scaffold for wound healing [not peer reviewed]. Peeref 2024 (poster).
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