纳米科学与催化专刊前言(英文)
发布时间:2018-11-17 15:14
【摘要】:正Over the past decade, to meet the ever increased demand on high-performance catalysts with excellent activity, selectivity and stability, the nanocatalysts and catalysis have been rigorously explored, resulting in a noticeable progress in new paradigm of nanoscience and nanotechnology for catalysis. Differing remarkably from conventional bulk catalysts, size shrinkage of active components to nanometer scale gives a rise to significantly increased catalytic activity, owing to the high surface-to-volume ratio of small particles as well as a large
[Abstract]:Positive Over the past decade, to meet the ever increased demand on high-performance catalysts with excellent activity, selectivity and stability, the nanocatalysts and catalysis have been rigorously explored, resulting in a noticeable progress in new paradigm of nanoscience and nanotechnology for catalysis. Differing remarkably from conventional bulk catalysts, size shrinkage of active components to nanometer scale gives a rise to significantly increased catalytic activity, owing to the high surface-to-volume ratio of small particles as well as a large
【作者单位】: CAS
【分类号】:+
,
本文编号:2338264
[Abstract]:Positive Over the past decade, to meet the ever increased demand on high-performance catalysts with excellent activity, selectivity and stability, the nanocatalysts and catalysis have been rigorously explored, resulting in a noticeable progress in new paradigm of nanoscience and nanotechnology for catalysis. Differing remarkably from conventional bulk catalysts, size shrinkage of active components to nanometer scale gives a rise to significantly increased catalytic activity, owing to the high surface-to-volume ratio of small particles as well as a large
【作者单位】: CAS
【分类号】:+
,
本文编号:2338264
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