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机译:具有分层网络的生物质衍生磁碳/聚苯胺的设计,用于卓越的微波吸收
School of Materials and Chemical Engineering Xi'an Technological University Xi'an 710021 People's Republic of China;
School of Materials and Chemical Engineering Xi'an Technological University Xi'an 710021 People's Republic of China;
School of Materials and Chemical Engineering Xi'an Technological University Xi'an 710021 People's Republic of China;
School of Materials and Chemical Engineering Xi'an Technological University Xi'an 710021 People's Republic of China;
School of Materials and Chemical Engineering Xi'an Technological University Xi'an 710021 People's Republic of China;
机译:用优异的微波吸收性能合成锚定3D生物质衍生碳的MNO纳米棒的低成本策略
机译:在生物质衍生的碳气凝胶中构建分层多孔结构,同时实现高电磁干扰屏蔽效果和高吸收系数
机译:具有优异微波吸收特性的取向聚苯胺/多孔生物质碳复合材料
机译:羰基/四藏形ZnO纳米结构复合涂料的电磁和微波吸收性能
机译:二元金属有机骨架衍生出具有优异钠存储性能的分层空心Ni3S2 / Co9S8 / N掺杂碳复合材料
机译:氧化石墨烯氧化物/ Fe3O4 /聚苯胺三元复合材料作为优越的微波吸收器在电磁污染的屏蔽中
机译:基于纳米蛋白酶自组装的花样Nico2S4微球,锚定3D生物量衍生的碳,以高效微波吸收
机译:工艺参数对聚苯胺/ pmma复合材料微波吸收的影响