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Back Cover: A 3D Organically Synthesized Porous Carbon Material for Lithium‐Ion Batteries (Angew. Chem. Int. Ed. 37/2018)
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Ziqiang Zhao Saikat Das Guolong Xing Dr. Pierre Fayon Patrick Heasman Michael Jay Steven Bailey Prof. Colin Lambert Hiroki Yamada Prof. Toru Wakihara Dr. Abbie Trewin Prof. Teng Ben Prof. Shilun Qiu Prof. Valentin Valtchev 《Angewandte Chemie (International ed. in English)》2018,57(37):12178-12178
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Cover Picture: Dipolar Rotors Orderly Aligned in Mesoporous Fluorinated Organosilica Architectures (Angew. Chem. Int. Ed. 16/2015)
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Dr. Silvia Bracco Dr. Mario Beretta Dr. Alice Cattaneo Prof. Angiolina Comotti Prof. Andrea Falqui Dr. Ke Zhao Prof. Charles Rogers Prof. Piero Sozzani 《Angewandte Chemie (International ed. in English)》2015,54(16):4681-4681
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Inside Back Cover: Programmed Photodegradation of Polymeric/Oligomeric Materials Derived from Renewable Bioresources (Angew. Chem. Int. Ed. 4/2015)
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Dr. Saravanakumar Rajendran Ramya Raghunathan Dr. Ivan Hevus Dr. Retheesh Krishnan Dr. Angel Ugrinov Prof. Dr. Mukund P. Sibi Prof. Dr. Dean C. Webster Prof. Dr. Jayaraman Sivaguru 《Angewandte Chemie (International ed. in English)》2015,54(4):1369-1369
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Studies in the last decade suggest that microwave energy may have a unique ability to influence chemical processes. These include chemical and materials syntheses as well as separations. Specifically, recent studies have documented a significantly reduced time for fabricating zeolites, mixed oxide and mesoporous molecular sieves by employing microwave energy. In many cases, microwave syntheses have proven to synthesize new nanoporous structures. By reducing the times by over an order of magnitude, continuous production would be possible to replace batch synthesis. This lowering of the cost would make more nanoporous materials readily available for many chemical, environmental, and biological applications. Further, microwave syntheses have often proven to create more uniform (defect-free) products than from conventional hydrothermal synthesis. However, the mechanism and engineering for the enhanced rates of syntheses are unknown. We review the many studies that have demonstrated the enhanced syntheses of nanoporous oxides and analyze the proposals to explain differences in microwave reactions. Finally, the microwave reactor engineering is discussed, as it explains the discrepancies between many microwave studies. 相似文献
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Cover Picture: Influence of Polymer Electronics on Selective Dispersion of Single‐Walled Carbon Nanotubes (Chem. Eur. J. 41/2016)
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Darryl Fong William J. Bodnaryk Dr. Nicole A. Rice Sokunthearath Saem Prof. Jose M. Moran‐Mirabal Prof. Alex Adronov 《Chemistry (Weinheim an der Bergstrasse, Germany)》2016,22(41):14409-14409
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