《Introduction to New Energy Materials and Devices》一书,全面系统地介绍太阳能、氢能、生物质能、核能、动力电池、储能和燃料电池等研究的基础知识和进展。以储能和换能为顺序,先系统介绍了目前电化学储能系统,如锂离子电池、其他新型电池和超级电容器的工作机理、发展历史和进展;接着介绍了常见的换能系统如燃料电池...
The 2024 China International New Energy Materials and Devices Exhibition and the 2024 China International Industrial Expo - New Materials Industry Exhibition will be held simultaneously. As one of the important main activities of the 2024 China International Industrial Expo - New Materials Industry Exhibi...
新能源材料与器件导论=Introduction to New Energy Materials and Devices:英文 全面系统地介绍太阳能、氢能、生物质能、核能、动力电池、储能和燃料电池等研究的基础知识和新进展。 作者:吴宇平,朱玉松,(南非)特尼斯·范·雷 编著出版社:化学工业出版社出版时间:2020年10月 手机专享价 ¥ 当当价 降价通知 ...
新能源材料与器件导论=Introduction to New Energy Materials and Devices:英文距结束 26 : 26 : 13 : 17 ¥ 162.22 折后 ¥ 152.22 满99减10 发货地: 北京 包邮 品牌: Energy/安耐驰 ENERGY/能量 ENERGY/倍力加 风格: 新能源 材料 器件 导论 Introduction to New Energy Materials ...
The International Conference on Energy Engineering, New Energy Materials and Devices (NEMD), is an annual conference hold each year. NEMD provides a premier interdisciplinary platform for researchers, practitioners and educators to present and discuss not only the most recent innovations, trends, and ...
Exploration of new Materials, Devices and Technologies for Energy Harvesting: the NANOFUNCTION ExperienceMarco TartagniAndroula NassiopoulouMarius CostacheEnrico Sangiorgi
1. New energy materials and new energy devices 2. Synthesis and application of inorganic nanomaterials 3. New-generation dye-sensitized solar cells and perovskite solar cells 4. New-generation low-temperature fuel cells 5. Resource recycling of waste 6. Cleaner utilization for renewable energy resour...
In this paper we report experiments and simulations on thin oxide (1.5–3 nm) MOS devices, showing that native traps can play a dominant role in the tunneling characteristics of such oxides. The number of traps, and thus their role on the tunneling current, can be minimized by careful and...
New Material Found To Upgrade Your Electronic Devices April 24, 2024 | Leave a Comment Washington University in St. Louis scientists have developed a novel material that supercharges innovation in electrostatic energy storage. The material is built from artificial heterostructures made of freestanding ...
Therefore, the energy consumption is theoretically two orders of magnitude lower than the energy consumed by breaking covalent bond in traditional phase change materials and provides a new platform for the development of more energy-efficient storage devices and helps us move towards a sustainable and...