copy and paste this google map to your website or blog!
Press copy button and paste into your blog or website.
(Please switch to 'HTML' mode when posting into your blog. Examples: WordPress Example, Blogger Example)
Input Form:Deal with this potential dealer,buyer,seller,supplier,manufacturer,exporter,importer
(Any information to deal,buy, sell, quote for products or service)
Force‐Trainable Liquid Crystal Elastomer Enabled by Mechanophore . . . This study introduces a feasible approach to train liquid crystal elastomers (LCEs) by integrating a mechanophore tetraarylsuccinonitrile into their main chain, addressing the challenge of enabling synthetic materials to exchange substances with their environment
东南大学李全团队在力可训练型液晶弹性体领域取得重要突破 相关成果以“Force-Trainable Liquid Crystal Elastomer Enabled by Mechanophore-Induced Radical
东南大学李全院士团队Angew: 基于机械基团诱导自由基聚合的力可训练型液晶弹性体|材料|李全 (内江)_网易订阅 这项研究结果表明,液晶弹性体可以通过机械应力触发自由基的产生和诱导自由基聚合反应来实现自我增强,并获得链缠结、光响应性和荧光颜色等新功能,为创造具有自主自我完善功能的先进智能软材料提供了指导。 该工作以“Force-Trainable Liquid Crystal Elastomer Enabled by Mechanophore-Induced Radical Polymerization”为题发表于Angewandte Chemie International Edition (Angew Chem Int Ed , 2024, e202423584 )。文章第一作者是东南大学在读博士生 徐艺艺, 文章通讯作者是东南大学 李全院士, 杨洪教授 和 黄帅副教授。
Force-Trainable Liquid Crystal Elastomer Enabled by Mechanophore . . . This study introduces a feasible approach to train liquid crystal elastomers (LCEs) by integrating a mechanophore tetraarylsuccinonitrile into their main chain, addressing the challenge of enabling synthetic materials to exchange substances with their environment
(Angew. Chem. Int. Ed. ) Force-Trainable Liquid Crystal Elastomer . . . This study introduces a feasible approach to train liquid crystal elastomers (LCEs) by integrating a mechanophore tetraarylsuccinonitrile into their main chain, addressing the challenge of enabling synthetic materials to exchange substances with their environment Inspired by biological training, the LCEs can self-strengthen and
Force‐Trainable Liquid Crystal Elastomer Enabled by Mechanophore . . . This study introduces a feasible approach to train liquid crystal elastomers (LCEs) by integrating a mechanophore tetraarylsuccinonitrile (TASN) into their main chain, addressing the challenge of enabling synthetic materials to exchange substances with their environment