...
机译:非常规电化学储能架构的设计注意事项
Institute of Information and Communication Technologies Electronics and Applied Mathematics Electrical Engineering UniversitÉ catholique de Louvain Louvain-la-Neuve Belgium;
Institute of Condensed Matter and Nanosciences Bio- and Soft Matter UniversitÉ catholique de Louvain Louvain-la-Neuve Belgium;
Department of Materials Science and NanoEngineering Rice University Houston TX USA;
Big Delta Systems LLC Houston TX USA;
Department of Materials Science and NanoEngineering Rice University Houston TX USA;
Big Delta Systems LLC Houston TX USA;
Department of Materials Science and NanoEngineering Rice University Houston TX USA;
lithium batteries; supercapacitors; unconventional architectures;
机译:基于金属氧化物的电化学储能电极体系结构设计的最新进展
机译:RuO2 / C / RuO2夹心同心架构智能设计系统,可实现电化学储能的高性能
机译:RuO 2 sub> / C / RuO 2 sub>的夹心同心架构的智能设计系统,可实现电化学储能的高性能
机译:3-D纳米架构中的垂直对准ZnO / MnO_2 / PEDOT芯壳电极,用于高能电力密度假电容电化学储存
机译:具有新颖的纳米级结构的功能材料的开发设计用于储能和电化学水分解。
机译:通过SR掺杂RGO复合用合理设计提高LACOO3的电化学特性用于储能装置
机译:来自常规/非常规技术的碳材料,用于电化学储能装置