'Click' on SAP: Superabsorbent polymer surface modification via CuAAC reaction toward antibacterial activity and improved swollen gel strength

Moini N.; Zohuriaan-Mehr M. J.; Kabiri K.; Khonakdar H. A.

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'Click' on SAP: Superabsorbent polymer surface modification via CuAAC reaction toward antibacterial activity and improved swollen gel strength

机译：SAP上的'点击'：通过CUAAC反应对抗菌活性的超吸收性聚合物表面改性和改善的溶胀凝胶强度

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Superabsorbent polymer (SAP) hydrogel was synthesized and surface-modified by a "click" reaction approach to enhance the mechanical and antibacterial properties of the gel. Thus, a two-step post-treatment strategy was tuned based on solvent-induced volume phase transition and Cu-catalyzed azide-alkyne cycloaddition (CuAAC) reaction. The processes and products were investigated by ATR-FTIR, oscillatory rheometry, SEM-EDX, XPS as well as swelling capacity and antibacterial activities. The 1,2,3-triazole formation was confirmed spectrally. The swollen gel storage modulus was significantly improved. The Cu-extracted modified SAPs represented the antibacterial activity against S. aureus and E. coli. This process is an advanced promising approach to improve and tune the properties of the microgels especially for biomedical applications.

机译：通过“点击”反应方法合成和表面改性超吸收性聚合物（SAP）水凝胶，以增强凝胶的机械和抗菌性质。因此，基于溶剂诱导的体积相转变和Cu催化的叠氮化物 - 炔环加油（Cuaac）反应进行两步后处理策略。通过ATR-FTIR，振荡计流变，SEM EDX，XPS以及溶胀容量和抗菌活性研究了方法和产物。在光谱谱系中确认1,2,3-三唑形成。溶胀的凝胶储存模量显着提高。 Cu提取的改性SAPS表示针对金黄色葡萄球菌和大肠杆菌的抗菌活性。该过程是一种先进的有希望的方法来改善和调整微胶质的性质，特别是对于生物医学应用。

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《Applied Surface Science》 |2019年第1期|1131-1144|共14页
作者
Moini N.; Zohuriaan-Mehr M. J.; Kabiri K.; Khonakdar H. A.;
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作者单位

IPPI Adhes & Resin Dept Polymer Proc Fac POB 14975-112 Tehran Iran;

IPPI Adhes & Resin Dept Polymer Proc Fac POB 14975-112 Tehran Iran|IPPI Biobased Monomers & Polymers Div BIOBASED Div POB 14965-115 Tehran Iran;

IPPI Adhes & Resin Dept Polymer Proc Fac POB 14975-112 Tehran Iran|IPPI Biobased Monomers & Polymers Div BIOBASED Div POB 14965-115 Tehran Iran;

IPPI Polymer Proc Fac Plast Proc & Engn Dept POB 14975-112 Tehran Iran|Leibniz Inst Polymerforsch Dresden eV Hohe Str 6 D-01069 Dresden Germany;

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正文语种 eng
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关键词
Superabsorbent hydrogel; Crosslinking; Click reaction; Triazole; Antibacterial;

机译：超吸收水凝胶;交联;点击反应;三唑;抗菌;

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专利

1. 'Click' on SAP: Superabsorbent polymer surface modification via CuAAC reaction toward antibacterial activity and improved swollen gel strength [J] . Moini N., Zohuriaan-Mehr M. J., Kabiri K., Applied Surface Science . 2019,第SEPa1期

机译：在SAP上的“点击”：通过CuAAC反应实现的超吸收性聚合物表面改性，从而具有抗菌活性并提高了肿胀的凝胶强度
2. Surface cross-linked SAPs with improved swollen gel strength using diol compounds [J] . Journal of Macromolecular Science. Pure and Applied Chemistry . 2020,第1a6期

机译：表面交联的SAP，使用二醇化合物改善溶胀的凝胶强度
3. Rheological determination of the swollen gel strength of superabsorbent polymer hydrogels [J] . Ramazani-Harandi MJ, Zohuriaan-Mehr MJ, Yousefi AA, Polymer Testing . 2006,第4期

机译：流变学测定高吸收性聚合物水凝胶的溶胀强度
4. Effect of Gel-Polymerized Superabsorbent Polymers--SAPs on Concrete Freeze-Thaw Resistance [C] . Sung-Gul Hong, Min-Soo Kim, Juhyuk Moon International workshop on durability and sustainability of concrete structures . 2019

机译：凝胶聚合超吸收聚合物 - SAP对混凝土冻土抗性的影响
5. Surface Modification of Orthodontic Mini-Implants with H 2O2 Gel for Its Antiadherent and Antibacterial Properites in the Presence of Streptococcus mutans [D] . Schiels, Kaitlyn M. 2017

机译：在变形链球菌存在下用H 2O2凝胶对正畸微型放大器的表面修饰及其抗粘附和抗菌性能
6. Photo-Mediated Copper(I)-Catalyzed Azide-Alkyne Cycloaddition (CuAAC) Click Reactions for Forming Polymer Networks as Shape Memory Materials [O] . Matthew K. McBride, Tao Gong, Devatha P. Nair, -1

机译：光介导的铜（I）催化的叠氮化物-炔烃环加成（CuAAC）点击反应形成聚合物网络作为形状记忆材料
7. Berichtigung: Facile Synthesis of Sequence-Regulated Synthetic Polymers Using Orthogonal SuFEx and CuAAC Click Reactions [O] . Cangjie Yang, James P. Flynn, Jia Niu 2019

机译：Berichtigung：使用正交Sufex和Cuaac点击反应的序列调节合成聚合物的容易合成
8. Structural Modification of Sol-Gel Materials through Retro Diels-Alder Reaction;Polymer Preprints [R] . Shaltout, Loy, Mcclain, 1999

机译：通过逆Diels-alder反应对溶胶 - 凝胶材料进行结构改性;聚合物预印本

'Click' on SAP: Superabsorbent polymer surface modification via CuAAC reaction toward antibacterial activity and improved swollen gel strength

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