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机译:封面特点:高度有序,超强MN系列纳米线薄膜,具有低接触电阻,作为具有增强性能的柔性超级电容器的独立电极(Chemelectrochem 12/2017)
Key Laboratory of Clean Chemistry Technology ofGuangdong University of TechnologyGuangzhou 510006 Guangdong China;
Key Laboratory of Clean Chemistry Technology ofGuangdong University of TechnologyGuangzhou 510006 Guangdong China;
School of Chemical &
Biomolecular EngineeringGeorgia Institute of TechnologyAtlanta GA 30332 USA;
Institute of Advanced Synthesis (IAS)Nanjing Tech University (Nanjing Tech)30 South Puzhu Road Nanjing 211861 P. R. China;
Key Laboratory of Clean Chemistry Technology ofGuangdong University of TechnologyGuangzhou 510006 Guangdong China;
Key Laboratory of Clean Chemistry Technology ofGuangdong University of TechnologyGuangzhou 510006 Guangdong China;
highly ordered; ultralong nanowires; thin film; flexible supercapacitors;
机译:封面特点:高度有序,超强MN系列纳米线薄膜,具有低接触电阻,作为具有增强性能的柔性超级电容器的独立电极(Chemelectrochem 12/2017)
机译:高度有序的超强MN基纳米线薄膜,具有低接触电阻,作为独立电极,用于具有增强性能的柔性超级电容器
机译:高度有序的超龙MN纳米线薄膜,具有低接触电阻,作为独立电极,用于柔性超级电容器,具有增强的性能
机译:基于多层透明电极的高柔韧性OLED的使用寿命延长,具有增强的阻隔性能
机译:直接在不锈钢上制造的基于纳米结构的MnO2和Fe2O3薄膜的低成本高能量密度的柔性超级电容器
机译:封面特点:高度有序,超强MN系列纳米线薄膜,具有低接触电阻,作为具有增强性能的柔性超级电容器的独立电极(ChemelectoChem 12/2017)