adsorption catalysis 中文意思是什麼
adsorption catalysis
解釋
吸附催化- adsorption : n. 【化學】吸附(作用)。
- catalysis : n. (pl. -ses ) 【化學】接觸反應,觸媒作用,催化(作用)。
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This paper reviews the recent developments in the application of mesoporous molecular sieves in the fields of catalysis, biology fixation, adsorption, separation, preparation of nanomaterials and environmental protection, especially the desulfurization of gasoline prospects
摘要綜述了近幾年介孔分子篩在催化反應、生物固定吸附和分離、納米材料制備及環保等方面應用研究的進展,並對其在環保方面,尤其是汽油脫硫的應用前景做了展望。 -
In the design and fabrication of biosensor, the development of a simple and effective strategy for the construction of sensitive membrane on the electrode is a crucial step. nano - crystalline particles, exhibiting a large surface area with diameter less than 100 nm, high surface - activity, good biocompatibility, strong adsorption and great efficiency of catalysis, might be favorable for constructing biosensor
納米材料,因其具有大的比表面積、高的表面活性、強吸附力及高催化效率等優異特性,可在增加生物分子(酶、抗原或抗體等)的吸附量和穩定性的同時提高生物分子(酶)的催化活性,使傳感器的響應靈敏度得到提高。 -
Due to the hierarchical porous structures with pore size ranging from nanometer to micrometer scale, these materials have potential applications in many fields such as heterogeneous catalysis, adsorption / separation, exhaust gas treatment and so on
由於具有豐富的分級多孔結構和優良的機械性能,生物形態材料在催化、分離與吸附和高溫尾氣處理等領域具有廣泛的應用前景。 -
This paper introduces four theories about the antibacterial mechanism of silver : sterilization by static adsorption, ion exudation, light catalysis, and complex function
摘要介紹銀的抗菌機理的4種理論:靜電吸附殺菌、金屬溶出殺菌、光催化殺菌和復合作用殺菌。 -
Especially, the mesoporous silica materials ( designated mcm - 41 ), which is regarded as a novel nano - structured materials, are expected to show potential values in many fields such as adsorption, catalysis, optics, nano - technology, electronics, magnetics and chemical sensors because they exhibit hexagonal structure, the pore size which can be regulated from 1. 5 to 10nm, high specific surface area and thermal stability. 1
特別是以命名為mcm - 41的有序介孔材料的出現,因其孔道呈六方有序排列、孔徑在1 . 5 10nm范圍內可連續調節、高的比表面積和熱穩定性等特點而在吸附、催化、分離、納米技術以及光、電、磁等領域具有廣泛的應用價值,正成為眾多領域的研究熱點之一。
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