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机译:通过简单的电解质溶液处理和溶剂洗涤银纳米线网络的电导率提高
Harbin Inst Technol State Key Lab Adv Welding &
Joining Harbin 150001 Heilongjiang Peoples R China;
Shanghai Aerosp Equipments Manufacture Shanghai 200245 Peoples R China;
Harbin Inst Technol State Key Lab Adv Welding &
Joining Harbin 150001 Heilongjiang Peoples R China;
Shanghai Aerosp Equipments Manufacture Shanghai 200245 Peoples R China;
Harbin Inst Technol State Key Lab Adv Welding &
Joining Harbin 150001 Heilongjiang Peoples R China;
Harbin Inst Technol State Key Lab Adv Welding &
Joining Harbin 150001 Heilongjiang Peoples R China;
Harbin Inst Technol State Key Lab Adv Welding &
Joining Harbin 150001 Heilongjiang Peoples R China;
Singapore Inst Mfg Technol Nanyang Dr Singapore 637662 Singapore;
Harbin Inst Technol State Key Lab Adv Welding &
Joining Harbin 150001 Heilongjiang Peoples R China;
silver nanowires; electrolyte solution; nano-joining; high conductivity;
机译:通过简单的电解质溶液处理和溶剂洗涤银纳米线网络的电导率提高
机译:用银纳米线作为填料的壳聚糖基固体聚合物电解质的机械稳定性和离子电导率的增强
机译:通过镍离子桥联结内聚地增强银纳米线网络的导电性和热稳定性
机译:从浸出溶剂萃取过程中从浸出液转移到电解质中的洗涤阶段
机译:在室温互穿的锂离子纳米电池应用中,通过氧化铝互穿网络中电解质材料的纳米约束,可以提高固体和凝胶聚合物电解质的离子电导率。
机译:通过镍离子桥联结内聚地增强银纳米线网络的导电性和热稳定性
机译:通过三维杂交氮化硼氮化银氮化物热网络填充剂增强了聚二甲基硅氧烷的导热率
机译:增强的二氧化铈固体电解质燃料电池开发。降低电子电导率允许在高效高功率密度燃料电池中使用固体氧化铈电解质,其温度与金属电池硬件兼容。