Titlebook: Development of New Catalytic Performance of Nanoporous Metals for Organic Reactions; Mei Yan Book 2014 Springer Japan 2014 Click Reaction.

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書(shū)目名稱Development of New Catalytic Performance of Nanoporous Metals for Organic Reactions影響因子(影響力)

書(shū)目名稱Development of New Catalytic Performance of Nanoporous Metals for Organic Reactions影響因子(影響力)學(xué)科排名

書(shū)目名稱Development of New Catalytic Performance of Nanoporous Metals for Organic Reactions網(wǎng)絡(luò)公開(kāi)度

書(shū)目名稱Development of New Catalytic Performance of Nanoporous Metals for Organic Reactions網(wǎng)絡(luò)公開(kāi)度學(xué)科排名

書(shū)目名稱Development of New Catalytic Performance of Nanoporous Metals for Organic Reactions被引頻次

書(shū)目名稱Development of New Catalytic Performance of Nanoporous Metals for Organic Reactions被引頻次學(xué)科排名

書(shū)目名稱Development of New Catalytic Performance of Nanoporous Metals for Organic Reactions年度引用

書(shū)目名稱Development of New Catalytic Performance of Nanoporous Metals for Organic Reactions年度引用學(xué)科排名

書(shū)目名稱Development of New Catalytic Performance of Nanoporous Metals for Organic Reactions讀者反饋

書(shū)目名稱Development of New Catalytic Performance of Nanoporous Metals for Organic Reactions讀者反饋學(xué)科排名

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2190-5053 ivity, which cannot be realized by traditional catalysts. All of the results described here will help readers to develop new catalytic performance of nanoporous metals for organic reactions.978-4-431-56249-8978-4-431-54931-4Series ISSN 2190-5053 Series E-ISSN 2190-5061

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Book 2014-phase conditions. The author was the first to fabricate nanoporous copper with tunable nanoporosity and apply it for organic reactions. The catalyst can be reused up to ten times without loss of catalytic activity. In addition, the author developed the highly selective semihydrogenation of alkynes

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,Eigenschaften von B?den und Fels,the click reaction occurred at the catalyst surface and the Cu(I) species was the real catalytic active sites. The CuNPore catalyst system was also applied to the three-component coupling of terminal alkynes, tosyl azide and dialkylamines to afford the corresponding aminoimines in high yields.

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Nanoporous Copper Metal Catalyst in Click Chemistry: Nanoporosity Dependent Activity Without Supporthe click reaction occurred at the catalyst surface and the Cu(I) species was the real catalytic active sites. The CuNPore catalyst system was also applied to the three-component coupling of terminal alkynes, tosyl azide and dialkylamines to afford the corresponding aminoimines in high yields.

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