Titlebook: Studies on Graphene-Based Nanomaterials for Biomedical Applications; Je Min Yoo Book 2020 Springer Nature Singapore Pte Ltd. 2020 Graphene

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Catalytic Degradation of Phenols by Recyclable CVD Graphene Films,monstrated that the catalytic activity is proportional to the surface area of the graphene film and the catalytic efficiency can be considerably enhanced simply by utilizing multiple graphene films. Furthermore, the graphene film’s recyclability has been tested and validated its practical use by carrying out repeated cycles with the same film.

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Book 2020us attention from scientists in all fields of study due to many unprecedented properties. The initial scientific attention was focused on the development of transparent flexible electrodes by exploiting two-dimensional graphene film’s extraordinary electrical and physical properties. Recently, given

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Introduction of Graphene-Based Nanomaterials,nce due to many of its unprecedented characteristics. In the beginning, the major research focus had been solely on macroscopic applications including the replacement of indium tin oxide (ITO) with chemical vapor deposition (CVD) graphene for flexible thin substrates for transparent electrodes. Rele

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Catalytic Degradation of Phenols by Recyclable CVD Graphene Films,ubstances, ferrous ion-based catalysts have been commonly exploited for oxidative degradation through advanced oxidation processes (AOPs). Nevertheless, these catalysts imminently accompany a few major disadvantages such as the need of additional purification steps to remove residual salts and pH ad

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