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机译:增强纳米孔Fe3O4的电磁波吸收源自金属 - 有机框架的碳复合材料
Tongji Univ Affiliated Shanghai Peoples Hosp 10 Dept Dent Shanghai 00072 Peoples R China;
Tongji Univ Sch Mat Sci &
Engn Shanghai Key Lab D&
A Met Funct Mat Shanghai 201804 Peoples R China;
Tongji Univ Sch Mat Sci &
Engn Shanghai Key Lab D&
A Met Funct Mat Shanghai 201804 Peoples R China;
Tongji Univ Sch Mat Sci &
Engn Shanghai Key Lab D&
A Met Funct Mat Shanghai 201804 Peoples R China;
Tongji Univ Sch Mat Sci &
Engn Shanghai Key Lab D&
A Met Funct Mat Shanghai 201804 Peoples R China;
Shanghai Jiao Tong Univ Sch Mat Sci &
Engn State Key Lab Met Matrix Composites Shanghai 200240 Peoples R China;
Tongji Univ Sch Mat Sci &
Engn Shanghai Key Lab D&
A Met Funct Mat Shanghai 201804 Peoples R China;
Tongji Univ Affiliated Shanghai Peoples Hosp 10 Dept Dent Shanghai 00072 Peoples R China;
Tongji Univ Sch Mat Sci &
Engn Shanghai Key Lab D&
A Met Funct Mat Shanghai 201804 Peoples R China;
Metal-organic frameworks; Nanoporous Fe3O4@C; Dielectric loss; Magnetic loss; Electromagnetic wave absorption;
机译:增强纳米孔Fe3O4的电磁波吸收源自金属 - 有机框架的碳复合材料
机译:分层的Nico合金纳米粒子/纳米孔碳复合材料衍生自具有增强电磁波吸收性能的双金属MOF
机译:具有增强微波吸收的金属有机骨架的等级手风琴的Ni @多孔碳纳米复合材料的合理结构
机译:纳米多孔碳源源于石墨烯氧化物(GO)和金属 - 有机框架(MOF):合成和气体吸收性能
机译:纳米多孔二氧化硅基质和碳水合物金属有机骨架中客体-主体相互作用的热力学。
机译:Fe3O4 / ZnO核壳纳米复合材料的可控制备及其在2-18 GHz频率范围内的电磁波吸收性能
机译:蜂窝状碳质复合材料内多孔建筑和磁Fe3O4 nps的显着推广,用于增强微波吸收