机译:超小型集成式3D微型超级电容器解决了小型设备的能量存储问题
Center for Implantable Devices Purdue University West Lafayette IN USA;
Weldon Schol of Biomedical Engineering Purdue University West Lafayette IN USA;
Center for Implantable Devices Purdue University West Lafayette IN USA;
IDEAS Microwave Laboratory and Department of Electrical and Computer Engineering Purdue University West Lafayette IN USA;
The Jackson Laboratory Howard Hughes Medical Institute Bar Harbor ME USA;
Center for Implantable Devices Purdue University West Lafayette IN USA;
Weldon Schol of Biomedical Engineering Purdue University West Lafayette IN USA;
micro-supercapacitors; 3D integration; microsystems; flexible materials; solid-state materials; polyaniline;
机译:基于石墨烯的叉指式微型超级电容器的设计和制造的最新进展
机译:小型化能量存储设备的二维材料:从个别设备到智能集成系统
机译:表面增强型3D RGO混合动力车和多孔RGO纳米网络作为集成储能装置的高性能超级电容器电极
机译:基于Miura折叠式微型超级电容器的可折叠微型化储能装置的设计
机译:基于PhotoPatternable固体电解质的片上集成电化学能量存储装置
机译:储能装置水热获得ZnCo2O4的高阶3D层级结构的超电容性能增强
机译:封装,高性能,可伸缩阵列的堆叠平面微型超超级电容器,如防水可穿戴能量存储装置
机译:综合公用事业系统节能优化存储系统设计与技术研究。第3卷:(候选IUs储能装置的技术和成本特征评估)