This book provides a comprehensive look at one-dimensional (1D) mesoporous inorganic nanomaterials. Beginning with a systematic presentation of their characterization using advanced electron microscopy techniques, the book discusses how to design the growth of 1D nanomaterials in order to achieve different, application-targeted morphologies such as nanowires, nanorods, nanofibers, nanotubes, and nanobelts. Subsequently, the book systematically summarizes current state-of-the-art research activities, encompassing energy conversion and storage, catalysis, sensing, and adsorption. The book concludes with a forward-looking summary of the different prospects of these materials for novel energy applications, as well as the challenges faced regarding their mass production, cost-effective synthesis strategies, and a deep understanding of the physics involved in the microstructure-dependent performance. Featuring broad and up-to-date coverage of this rapidly growing field, this book is useful for researchers working at the intersections of materials science, chemistry, and advanced energy devices.

This book provides a comprehensive look at one-dimensional (1D) mesoporous inorganic nanomaterials. Beginning with a systematic presentation of their characterization using advanced electron microscopy techniques, the book discusses how to design the growth of 1D nanomaterials in order to achieve different, application-targeted morphologies such as nanowires, nanorods, nanofibers, nanotubes, and nanobelts. Subsequently, the book systematically summarizes current state-of-the-art research activities, encompassing energy conversion and storage, catalysis, sensing, and adsorption. The book concludes with a forward-looking summary of the different prospects of these materials for novel energy applications, as well as the challenges faced regarding their mass production, cost-effective synthesis strategies, and a deep understanding of the physics involved in the microstructure-dependent performance. Featuring broad and up-to-date coverage of this rapidly growing field, this book is useful for researchers working at the intersections of materials science, chemistry, and advanced energy devices.

The 2012 International Conference on Emerging Computation and Information teChnologies for Education (ECICE 2012) was held on Jan. 15-16, 2012, Hangzhou, China. The main results of the conference are presented in this proceedings book of carefully reviewed and accepted paper addressing the hottest issues in emerging computation and information technologies used for education. The volume covers a wide series of topics in the area, including Computer-Assisted Education, Educational Information Systems, Web-based Learning, etc.