D04-刺激响应功能材料(Stimulus-Responsive Functional Materials)
自然界中动植物对周围环境的应激反应行为无处不在,例如向日葵随太阳光转动、含羞草受碰触立即闭合、捕蝇草能够快速捕食昆虫等。刺激响应功能材料又被称为机敏性功能材料或环境响应性功能材料,是一类根据环境变化而改变自身物理或化学性质的新型高端功能材料。通过构筑基元精心设计和先进合成方法可以赋予材料本身具有类生物的高级功能,当材料受到外界刺激时能快速产生响应,引起其在结构、物理性能和化学性质上的改变,这些刺激因素包括光、热、电、压力、湿度和pH等。刺激响应功能材料在柔性传感、光电器件、信息科学、能源存储、生物医疗、航空航天和软体机器人等诸多领域有着广泛的应用前景。本分会聚焦的刺激响应功能材料包括但不局限于以下主题:光响应功能材料,电响应功能材料,热响应功能材料,力响应功能材料,磁响应功能材料,声响应功能材料,pH响应功能材料,离子响应功能材料,溶剂响应功能材料,湿度响应功能材料,多重响应功能材料。
The responsive behaviors of animals and plants to the surrounding environment are ubiquitous in nature. For example, sunflowers are able to chase sunlight, mimosa will close upon being touched, and flytraps can quickly prey on insects. Stimulus-responsive functional materials, also known as sensitive functional materials or environment-responsive functional materials, are new types of advanced functional materials that can alter their physical or chemical properties according to environmental changes. Through judicious design of basic building blocks and advanced synthesis methods, the resulting materials are able to exhibit advanced biological-like functions. Upon being stimulated by external stimuli, these materials can respond quickly with appropriate changes in their structure, physical properties, and chemical properties. These stimulus factors include light, heat, electricity, pressure, humidity and pH, etc. Stimulus-responsive functional materials have broad application prospects in many fields such as flexible sensing, optoelectronic devices, information science, energy storage, biomedicine, aerospace, and soft robotics. This parallel session shall focus on but is not limited to the following topics:
Photoresponsive functional materials, Electroresponsive functional materials, Thermoresponsive functional materials, Mechanically responsive functional materials, Magnetically responsive functional materials, Acoustically responsive functional materials, pH-responsive functional materials, Ion responsive functional materials, Solvent-responsive functional materials, Humidity responsive functional materials, Multi-stimuli responsive functional materials.
杨槐 北京大学
俞燕蕾 复旦大学
陆延青 南京大学
董丽杰 武汉理工大学
王玲 天津大学
北京大学
复旦大学、南京大学、武汉理工大学、天津大学
由大会统一出版,详细信息请点击【论文提交】。
王玲 天津大学
17622709766
lwang17@tju.edu.cn
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