Catalysis may be either homogeneous or heterogeneous.
催化可以是均相的,也可以是多相的。
The photocatalysis detoxification of air and water is hence, a process that combines heterogeneous catalysis with solar technologies.
因此,空气和水的光催化解毒是一个结合多相催化与太阳能技术的过程。
"Nanomania" has reached the area of heterogeneous catalysis, a new concept namely called nanocatalysis is thus generated.
“纳米热”已渗透到多相催化领域的研究中,由此产生了一个新概念———纳米催化。
Recently, the techniques of SPS and EFISPS have been applied in heterogeneous catalysis studies, they are characterized by high sensitivity, good reappearance and simplicity in operation.
近年来将SPS和EFISPS技术应用于多相催化研究领域,显示出其检测灵敏度高、再现性好、操作简单等特点。
The application of Mssbauer spectroscopy to the study of heterogeneous catalysis is briefly described.
本文简要介绍了穆斯堡尔谱学在多相催化研究中的应用。
The paper is basic of theory of heterogeneous catalysis, to discuss the transformation of from theory to actual technology.
本文以多相催化反应动力学理论为基础,深入探讨从理论到实际技术的转化。
There are examples in many fields, heterogeneous catalysis is one of them.
在许多领域都有这样的例子,多相催化就是其中一个例子。
The preparation of ethanolamine is mainly composed of aqueous ammonia and liquid ammonia methods, which belong to typical homogeneous catalysis and heterogeneous catalysis respectively.
乙醇胺主要由氨水法与液氨法两种制备方法合成,它们分属于典型的均相催化与多相催化。
The FBS (fluorous biphase system) makes homogeneous catalysis and heterogeneous separation possible and easy to separate the catalysts dissolved in PFC (perfluorocarbons).
氟两相体系实现了均相催化多相化,可以方便地分离溶解在PFC中的催化剂。
The field of catalysis is mainly divided into heterogeneous one and homogeneous one.
多相催化和匀相催化是催化领域的两大类型。
These hollow spheres are used as confined reaction vessels, drug carriers, dye dispersants, and carrier systems in heterogeneous catalysis et al.
纳米胶囊的应用领域非常广泛,已经或正在应用于微型反应器、药物载体、染料分散剂、非均相催化剂载体等方面。
It is a hot research topic in the field of nano-science and heterogeneous catalysis at current.
属当前纳米科学和异相催化领域热门研究课题。
This invention relates to a heterogeneous catalysis palladium catalyst, in addition to its preparing method and usage.
本发明涉及一种非均相钯催化剂、合成方法和用途。
Also, HAP-based material acting as a catalyst shows its advantage in heterogeneous catalysis system.
同样,以HAP基材料作为多相可循环催化剂也已显示出其在催化领域的优势。
Also, HAP-based material acting as a catalyst shows its advantage in heterogeneous catalysis system.
同样,以HAP基材料作为多相可循环催化剂也已显示出其在催化领域的优势。
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