[ { "id": 1, "chunk": "# Supporting Information \n\nRobust UV-Curable Dual-Cross-Linked Coating with Increased Transparency, Long-Term Antifogging, and Efficient Antibacterial Performances \n\nLina Zhang [1,3], Kai Feng\\*[1], Yizhe Liu [1,2], Fangrong Wu [1], Yubo Liu [1,2], Bo $\\mathrm{Yu}^{[2]}$ Xiaowei Pei [1,2], Lijia Liu[3], Chunhong Zhang[3] Yang $\\mathrm{Wu}^{*[1,2,4]}$ , Feng Zhou [2] [1] Yantai Zhongke Research Institute of Advanced Materials and Green Chemical Engineering, Shandong Laboratory of Advanced Materials and Green Manufacturing at Yantai, Yantai, Shandong 264006, PR China. \n[2] State Key Laboratory of Solid Lubrication, Lanzhou Institute of Chemical Physics, Chinese Academy of Science, Lanzhou, Gansu 730000, PR China. \n[3] Yantai Research Institute of Harbin Engineering University, Yantai, Shandong 264006, PR. China. \n[4] Qingdao Centre of Resource Chemistry and New Materials, Qingdao, Shandong \n\n266100, PR China. \n\nCorresponding Authors: Yang Wu, Email: yangwu@licp.cas.cn Kai Feng, Email: kaifeng@amgm.ac.cn \n\n![](images/c0bb05813c4c70d223893d4450fe6b3cf7a13ce055854e16cf46e32754aeac2b.jpg) \nFigure S1. The fine spectrum of nitrogen and bromine of PET and pMDHAB−AA \n\ncopolymer. \n\n![](images/6dd7859da4fc5185f3d4b6b0275eef3cf9e979faf7e9dd2a802cb8169edd261d.jpg) \nFigure S2. DTG curves of pDMAEMA−AA copolymer and pMDHAB−AA copolymer. \n\n![](images/4e5bafefeab4403bd3b0e62e444eb29b8bab302cc8ed88d1f45fff154f45dd8a.jpg) \nFigure S3. The cross-sectional SEM images of pMDHAB−AA coating. \n\n![](images/7ff62d8f92bad4e7722e61ef3c70d951d37d80de6c20b50901b1b35827083808.jpg) \nFigure S4. AFM images of PET surface. \n\n![](images/2106dad24ce41871e7ef0da5ebc090491fbb677593aef69698cbc52c7ee2ef73.jpg) \n\nFigure S5. (a) The thermal weight loss of different crosslinked coatings. (b) DTG curves of different crosslinked coatings. \n\n![](images/0cd6cb5169f054400ccd62dfc1054cac93b56559069a8b888a5148fe13e233de.jpg) \nFigure S6. Transmittance of pMDHAB−AA coatings after different dry-wet alternate \n\nanti-fog test cycles with hot-vapor method. \n\n![](images/24601ec255621f38bdf46b0546bf4a07fb04e13a7ef3e7b33eb799aef683d3de.jpg) \nFigure S7. (a) Bending tests of a pMDHAB-AA coating. (b) The transmittance of the \n\ncoating after bent 100 times. (c) Optical microscope image before coating bending. (d) Optical microscope image after coating bending.", "category": " Results and discussion" } ]