Electrospun Azido-PCL Nanofibers for Enhanced Surface Functionalization by Click Chemistry

Anica Lancuski; Sebastien Fort; Frederic Bossard

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Electrospun Azido-PCL Nanofibers for Enhanced Surface Functionalization by Click Chemistry

机译：电纺Azido-PCL纳米纤维，通过点击化学增强表面功能

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This paper reports highly surface functionalized and "clickable" α,ω-azido-poly(ε-caprolactone) fibers (f-PCL-N3), obtained by classical electrospinning setup. Azide-functionalized PCL was obtained from a commercially available α,ω-poly(ε-caprolactone)-diol, PCL2, and electrospun with a nonderivative high-molecular-weight PCL. Successful chemical modifications of PCL, were confirmed by NMR, FTIR and MALDI-TOF mass spectroscopy. The high content of surface azides, as a response to the high electric field applied, was characterized using a colorimetric assay. In addition, azide reduction to amines revealed a nondestructive route for highly amine-functionalized fibers. Fluorescence labeling of f-PCL-N3 fibers with FITC-alkyne fluorophore proved that the azide groups are mainly surface-localized as well as highly available for click-chemistry coupling.

机译：本文报道了通过经典电纺丝工艺获得的高度表面官能化和“可点击”的α，ω-叠氮基-聚（ε-己内酯）纤维（f-PCL-N3）。叠氮化物官能化的PCL可以从市售的α，ω-聚（ε-己内酯）-二醇，PCL2中获得，并用非衍生的高分子量PCL进行电纺。 NMR，FTIR和MALDI-TOF质谱证实了PCL的成功化学修饰。使用比色测定法表征了表面叠氮化物的高含量，作为对施加的高电场的响应。此外，叠氮化物还原为胺显示出高度胺官能化纤维的非破坏性途径。用FITC-炔烃荧光团对f-PCL-N3纤维进行荧光标记证明，叠氮化物基团主要在表面定位，并且高度可用于点击化学偶联。

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《ACS applied materials & interfaces》 |2012年第12期|共6页
作者
Anica Lancuski; Sebastien Fort; Frederic Bossard;
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正文语种 eng
中图分类化学工业;
关键词
electrospinning; nanofibers; polycaprolactone; azides; click chemistry; surface functionalization;

机译：电纺;纳米纤维;聚己内酯;叠氮化物;点击化学;表面功能化;

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1. Electrospun Azido-PCL Nanofibers for Enhanced Surface Functionalization by Click Chemistry [J] . Anica Lancuski, Sebastien Fort, Frederic Bossard ACS applied materials & interfaces . 2012,第12期

机译：电纺Azido-PCL纳米纤维，通过点击化学增强表面功能
2. The study of the pseudo-polyrotaxane architecture as a route for mild surface functionalization by click chemistry of poly(epsilon-caprolactone)-based electrospun fibers [J] . Oster M., Schlatter G., Gallet S., Journal of Materials Chemistry, B. materials for biology and medicine . 2017,第11期

机译：用聚（ε-己内酯）的电纺纤维点击化学伪聚光卷架作为轻度表面官能化途径的研究
3. Charge assisted tailoring of chemical functionality at electrospun nanofiber surfaces [J] . Urszula Stachewicz, Corinne A. Stone, Colin R. Willis Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology . 2012,第43期

机译：电纺纳米纤维表面的电荷辅助化学功能定制
4. Primary Amine-Functionalized Silicon Surfaces via Click Chemistry with α-Alkynyl-Functionalized Poly(2-aminoethyl methacrylate) [C] . Alp H. Alidedeoglu, Christopher A. Harris, Nemesio Martinez-Castro, ACS Symposium on Polymeric Delivery of Therapeutics . 2010

机译：通过用α-炔基 - 官能化聚（2-氨基乙基甲基丙烯酸酯）键入化学初级胺官能化硅表面
5. Controlling Chemical Modification of Chlorinated Silicon Surfaces Via Wet-Chemistry Approaches and Morphology-Preserving Functionalization of Metal Oxide Nanomaterials Through Two-Step Click Reaction [D] . ?He, Chuan 2020

机译：通过两步咔哒反应控制通过湿化化学方法和金属氧化物纳米材料的形态保护官能化的化学改性。通过两步咔哒反应
6. Mussel inspired protein-mediated surface functionalization of electrospun nanofibers for pH-responsive drug delivery [O] . Jiang Jiang, Jingwei Xie, Bing Ma, -1

机译：贻贝启发了电纺纳米纤维的蛋白质介导的表面功能化可用于pH响应药物递送
7. Electrospun Azido-PCL Nanofibers for Enhanced Surface Functionalization by Click Chemistry [O] . Anica Lancuški, Sébastien Fort, Frédéric Bossard 2012

机译：Electromun Azido-PCL纳米纤维用于通过点击化学增强表面官能化
8. Application of a Biotin Functionalized QD Assay for Determining Available Binding Sites on Electrospun Nanofiber Membrane [R] . Marek, P., Senecal, K., Nida, D., 2011

机译：生物素功能化QD法测定电纺纳米纤维膜上有效结合位点的应用

Electrospun Azido-PCL Nanofibers for Enhanced Surface Functionalization by Click Chemistry

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