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Aiming to have new energy devices and systems, researchers have worked to create new nanosized functional materials. Nanomaterials have a very high surface area to volume ratios, which result in special properties in comparison to the bulk materials. Among the reported nanostructures, nanofibers have special interest due to the high axial ratio. Inorganic nanofibers are considered the best candidate in the advanced energy devices such as Fuel cells and Dye sensitized solar cells due to the high chemical stability. In this book novel metallic nanofibers are introduced to be exploited as…mehr

Produktbeschreibung
Aiming to have new energy devices and systems, researchers have worked to create new nanosized functional materials. Nanomaterials have a very high surface area to volume ratios, which result in special properties in comparison to the bulk materials. Among the reported nanostructures, nanofibers have special interest due to the high axial ratio. Inorganic nanofibers are considered the best candidate in the advanced energy devices such as Fuel cells and Dye sensitized solar cells due to the high chemical stability. In this book novel metallic nanofibers are introduced to be exploited as catalysts for ammonia borane dehydrogenation and as electrodes in fule cells and dye sensitized solar cells. The results are promosing.
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Autorenporträt
Prof. Hak Yong KimHe is a professor in Organic Materials and Fiber Engineering Department Chonbuk National University, Jeonju, Republic of Korea. He got his PhD degree from Seoul National University, Republic of Korea. Prof. Kim has more than 200 papers published in SCI journals and more than 79 registered patents.