Department of Chemistry and Biochemistry, University of Notre Dame, Notre Dame, IN 46556, USA.
Science. 2011 Jan 14;331(6014):171-4. doi: 10.1126/science.1197461.
Most materials and devices typically operate under specific environmental conditions, many of them highly reactive. Heterogeneous catalysts, for example, work under high pressure of reactants or in acidic solutions. The relationship between surface structure and composition of materials during operation and their chemical properties needs to be established in order to understand the mechanisms at work and to enable the design of new and better materials. Although studies of the structure, composition, chemical state, and phase transformation under working conditions are challenging, progress has been made in recent years in the development of new techniques that operate under a variety of realistic environments. With them, new chemistry and new structures of materials that are only present under reaction conditions have been uncovered.
大多数材料和设备通常在特定的环境条件下运行,其中许多条件具有高度反应性。例如,多相催化剂在反应物的高压或酸性溶液中工作。为了了解工作中的机制并能够设计新的更好的材料,需要建立材料在运行过程中的表面结构和组成与其化学性质之间的关系。尽管在工作条件下对结构、组成、化学状态和相变的研究具有挑战性,但近年来在开发可在各种实际环境下运行的新技术方面取得了进展。利用这些技术,发现了仅在反应条件下存在的新材料的新化学和新结构。