The interplay of catalytic and gas-phase stages at oxidative conversion of methane: A review

Vladimir S. Arutyunov , Ludmila N. Strekova
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引用次数: 24

Abstract

The effective functionalization of CH bond in methane, the main hydrocarbon component in Earth's crust and the most real source of energy for mankind in the nearest observable future, is undoubtedly can be regarded nowadays as one of the most important scientific and technological tasks. However, the usual practice of considering catalytic and gas-phase processes as independent technological branches seriously restricts the possibilities for a deeper understanding and technological optimization of real processes. The development of more effective technologies to convert methane and other gas-phase hydrocarbons into more valuable and demanded chemicals needs a complex approach based on the combined heterogeneous–homogeneous chemistry of these processes. A number of examples are used to illustrate the interconnection between heterogeneous catalytic and gas-phase processes in oxidative functionalization of methane. A number of potential possibilities for the optimization of the real heterogeneous–homogeneous chemistry of these processes are discussed.

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甲烷氧化转化过程中催化气相阶段的相互作用综述
甲烷是地壳中主要的碳氢化合物成分,也是人类在可预见的不远的将来最真实的能源来源,研究甲烷中CH键的有效功能化,无疑是当今最重要的科学技术任务之一。然而,将催化和气相过程视为独立的技术分支的通常做法严重限制了对实际过程进行更深入理解和技术优化的可能性。开发更有效的技术,将甲烷和其他气相碳氢化合物转化为更有价值和更需要的化学品,需要一种基于这些过程的非均相化学结合的复杂方法。一些例子被用来说明甲烷氧化功能化过程中多相催化和气相过程之间的相互联系。讨论了优化这些过程的实际非均相-均相化学的一些潜在可能性。
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期刊介绍: The Journal of Molecular Catalysis A: Chemical publishes original, rigorous, and scholarly full papers that examine the molecular and atomic aspects of catalytic activation and reaction mechanisms in homogeneous catalysis, heterogeneous catalysis (including supported organometallic catalysis), and computational catalysis.
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