摘要
在当前时期,国内经济发展的速度是较快的,而这也就使得工程材料的需求持续增加,材料方面的要求也提高了很多,在这背景下,有机—无机杂化材料也就应运而生。相较于传统符合材料来说,有机—无机材料是有着本质区别的,应该说,此种材料的有机相和无机相均已达到纳米级别,有一些已经达到分子级别。和有机材料、无机材料相比对,明显在各方面性能上都是具有优势的。在当前时期,有机—无机材料的研究工作正在深入进行,将来的应用前景是十分光明的。
In the current period, the speed of domestic economic development is relatively fast, and this also causes the engineering material demand to increase continuously. The material aspect request also raised a lot, under this background, the organic-inorganic hybrid material also arises at the historic moment. Compared with the traditional materials, the organic-inorganic materials are essentially different. It should be said that the organic and inorganic phases of these materials have reached the nanometre level, and some have reached the molecular level. Compared with organic materials and inorganic materials, obvious advantages in all aspects of performance. In the present period, the research of organic-inorganic materials is going deep into the future. The prospect of its application is very bright.
作者
张竞丹
ZHANG Jingdan(Shijiazhuang Elite Middle School, Hebei, Shijiazhuang, 050000, China)
出处
《数码设计》
2018年第5期27-28,共2页
Peak Data Science
关键词
有机-无机杂化材料
溶胶凝胶法
插入法
Organic-inorganic hybrid materials
sol-gel method
insertion method
