研究性论文 [1] you xu, yunfeng cao, ren'ai li*. high-performance flexible ionically conductive superhydrophobic papers via deep eutectic polymer-enhanced interfacial interactions. langmuir 2024.
[2] quanfeng liang, mengqing li, yuchen cao, ren'ai li*, yunfeng cao. supramolecular covalent cellulose-based bioplastics with high transparency, hydrophobicity, ionic conductivity, mechanical robustness, and recyclability. journal of materials chemistry c 2024, 12(5), 1746-1752. [3] mengqing li, hongzhuang zhang, yizhi gong, zhulan liu, ren'ai li*, yunfeng cao*. green, recyclable, mechanically robust, wet-adhesive and ionically conductive cellulose-based bioplastics enabled by supramolecular covalent hydrophobic eutectic networks. international journal of biological macromolecules 2024, 258,128795. [4] mengqing li,§ kai zhao,§ chao liu, zhulan liu, ren'ai li*, yunfeng cao*. construction of poly(hydrophobic deep eutectic solvent)/ethylcellulose composite films for green recyclable tapes. langmuir 2023, 39 (38), 13649-13655. [5] mengqing li, zhulan liu, yongke hu, ren'ai li*, yunfeng cao*. a hydrophobic eutectogel with excellent underwater self-adhesion, self-healing, transparency, stretchability, ionic conductivity, and fully recyclability. chemical engineering journal 2023, 472, 145177.
[6] hongtian zhang, yongke hu, zhulan liu, ren'ai li*, yunfeng cao*. a highly transparent, underwater self-healing, self-adhesive, and recyclable supramolecular eutectogel for liquid metal encapsulation. acs materials letters 2023, 5(10), 2621-2628. [7] ren'ai li*, mengqing li, zhulan liu, yunfeng cao*. water-insensitive self-adhesive elastomers derived from hydrophobic deep eutectic polymers. chemical communications 2022, 58(100), 13975-13978. [8] qiankun zhang, guangxue chen, ren'ai li*, liang lin, minghui he*. mechanically tough yet self-healing transparent conductive elastomers obtained using a synergic dual cross-linking strategy. polymer chemistry, 2021, 12(13), 2016-2023. [9] ren'ai li, kaili zhang, guangxue chen, bin su, minghui he*. stiff, self-healable, transparent polymers with synergetic hydrogen bonding interactions. chemistry of materials. 2021, 33, 13, 5189–5196. [10] ren′ai li, ting fan, guangxue chen, kaili zhang, bin su,* junfei tian, and minghui he*. autonomous self-healing, antifreezing, and transparent conductive elastomers, chemistry of materials. 2020, 32, 874−881. [11] ren'ai li, guangxue chen, ting fan, kaili zhang and minghui he*. transparent conductive elastomers with excellent autonomous self-healing capability in harsh organic solvent environments. journal of materials chemistry a. 2020, 8, 5056-5061. [12] ren'ai li, ting fan, guangxue chen, hujun xie, bin su⁎, minghui he⁎. highly transparent, self-healing conductive elastomers enabled by synergistic hydrogen bonding interactions. chemical engineering journal. 393 (2020) 124685.
[13] ren'ai li, kaili zhang, ling cai, guangxue chen*, minghui he. highly stretchable ionic conducting hydrogels for strain/tactile sensors. polymer. 2019, 167:154-158. [14] ren'ai li1, kaili zhang1, guangxue chen, bin su*, junfei tian, minghui he*. green polymerizable deep eutectic solvent (pdes) type conductive paper for origami 3d circuits. chemical communications. 2018,54(18):2304-2307.
[15] ren'ai li, guangxue chen, minghui he*, junfei tian and bin su*. patternable transparent and conductive elastomers towards flexible tactile/strain sensors. journal of materials chemistry c, 2017,5(33):8475-8481.
发明专利 (1) 李仁爱; 徐友; 李孟情; 刘祝兰; 曹云峰 ; 水下自粘附、自修复的透明离子导电弹性体及其合成方法, 2022-11-11, 中国, zl 2022 1 1414398.4
(2) 李仁爱; 李孟情; 刘祝兰; 曹云峰 ; 一种疏水自粘附纤维素基透明胶带及其合成方法, 2022-6-9, 中国, zl 2022 1 0653123.x (3) 李仁爱; 李孟情; 刘祝兰; 曹云峰 ; 基于可聚合疏水低共熔溶剂水下自修复弹性体及合成方法, 2022-6-9, 中国, zl 2022 1 0663560.x (4) 汤树海; 李仁爱; 陈广学; 朱琦 ; 一种透明离子导电纤维素纸及其制备方法, 2021-2-23, 中国, zl 2021 1 0201106.8 (5) 何明辉; 李仁爱; 陈广学; 田君飞 ; 一种高透明自修复固体材料及其制备方法与应用, 2019-9-10, 中国, zl 2019 1 0853528.6 (6) 何明辉; 李仁爱; 陈广学; 张凯丽; 田君飞 ; 自修复材料用可聚合低共熔溶剂、导电弹性体及制备方法, 2018-12-3, 中国, zl 2018 1 1465819.x |
