功能陶瓷基光催化材料的发展与性能研究

Shuanglong Lin, L. Jing, Hongtao Lu, Yuehong Qi, Wu Yifei
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摘要

随着能源、信息、环保和生物科学技术的飞速发展,具有悠久历史的材料——陶瓷,也获得了新的研究进展,即功能陶瓷的发展。功能陶瓷以其独特的热、电、磁、声、光物理特性、化学、生物特性和适当的力学特性,在相关的科学研究和工程项目应用中发挥着关键作用。而且,由于光催化技术具有反应条件温和、操作方便、无二次污染等特点,被认为是21世纪最有前途的环境治理技术,即能有效解决化石能源枯竭和环境污染问题。此外,光催化技术还具有低能耗的特点,也成为开发新能源的必要技术。如果功能
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Development and Properties of Functional Ceramic-based Photocatalytic Materials
: With the rapid development of energy, information, environmental protection and biological science and technology, the material with a long history-ceramics, has also obtained a new research progress, namely, the development of functional ceramics. Functional ceramics play a key role in related scientific research and engineering project applications, with their unique thermal, electric, magnetic, acoustic and optical physical characteristics, chemical, biological and appropriate mechanics characteristics. Moreover, because the photocatalytic technology has the characteristics of mild reaction conditions, convenient operation and no secondary pollution, it is considered as the most promising environmental governance technology in the 21st century, that is, it can effectively solve the problems of fossil energy depletion and environmental pollution. In addition, photocatalytic technology also has the characteristics of low energy consumption, and has also become a necessary technology to develop new energy sources. If functional
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