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High Throughput Methods in the Synthesis, Characterization, and Optimization of Porous Materials.
Advanced Materials ( IF 27.4 ) Pub Date : 2020-09-21 , DOI: 10.1002/adma.202002780 Ivan G Clayson 1 , Daniel Hewitt 1 , Martin Hutereau 1 , Tom Pope 1 , Ben Slater 1
Advanced Materials ( IF 27.4 ) Pub Date : 2020-09-21 , DOI: 10.1002/adma.202002780 Ivan G Clayson 1 , Daniel Hewitt 1 , Martin Hutereau 1 , Tom Pope 1 , Ben Slater 1
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Porous materials are widely employed in a large range of applications, in particular, for storage, separation, and catalysis of fine chemicals. Synthesis, characterization, and pre‐ and post‐synthetic computer simulations are mostly carried out in a piecemeal and ad hoc manner. Whilst high throughput approaches have been used for more than 30 years in the porous material fields, routine integration of experimental and computational processes is only now becoming more established. Herein, important developments are highlighted and emerging challenges for the community identified, including the need to work toward more integrated workflows.
中文翻译:
多孔材料的合成,表征和优化中的高通量方法。
多孔材料被广泛用于广泛的应用中,特别是用于精细化学品的存储,分离和催化。合成,表征以及合成前和合成后的计算机模拟通常都是零星地和临时地进行的。尽管高通量方法已在多孔材料领域中使用了30多年,但实验和计算过程的常规集成才刚刚确立。在此,重点介绍了重要的发展,并确定了社区面临的新挑战,包括需要朝着更加集成的工作流程发展。
更新日期:2020-11-03
中文翻译:
多孔材料的合成,表征和优化中的高通量方法。
多孔材料被广泛用于广泛的应用中,特别是用于精细化学品的存储,分离和催化。合成,表征以及合成前和合成后的计算机模拟通常都是零星地和临时地进行的。尽管高通量方法已在多孔材料领域中使用了30多年,但实验和计算过程的常规集成才刚刚确立。在此,重点介绍了重要的发展,并确定了社区面临的新挑战,包括需要朝着更加集成的工作流程发展。
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