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机译:通过超临界CO <下标> 2 下标>发泡来创建纳米细胞TPU泡沫的不同方法
Department of Materials Science and Engineering National Taiwan University of Science and Technology;
Department of Chemical Engineering and Biotechnology National Taipei University of Technology;
Department of Chemical Engineering and Biotechnology National Taipei University of Technology;
Department of Materials Science and Engineering National Taiwan University of Science and Technology;
Department of Chemical Engineering and Biotechnology National Taipei University of Technology;
Material and Chemical Research Laboratories Industrial Technology Research Institute;
Institute of Organic and Polymeric Materials National Taipei University of Technology;
Department of Chemical Engineering and Biotechnology National Taipei University of Technology;
Thermoplastic polyurethanes; Foams; Co2; Graphene; Micro/nanocellular foams;
机译:通过超临界CO <下标> 2 下标>发泡来创建纳米细胞TPU泡沫的不同方法
机译:RVC泡沫电极的绿色电化学改性和通过对污染物施加脉冲电流施加脉冲电流来提高H <下标> 2 下标> O <下标> 2 下标> O电解
机译:Al
机译:超临界CO2发泡的微型和纳米细胞TPU-石墨烯纳米复合泡沫的制备
机译:半磁性半导体合金Cd [下标x] Zn [下标y] Mn [下标z] Se的一些性质(x + y + z = 1)
机译:聚(3-羟基丁酸酯-co-3-羟基戊酸酯)的发泡超临界二氧化碳的发泡性能和结晶行为
机译:Li [下标1-x] Ni [下标0.33] mn [下标0.33] Co [下标0.33] O [下标2](NmC [下标333])和Li [下标1-x] Ni的电子和离子输运特征[下标0.50] mn [下标0.20] Co [下标0.30] O [下标2](NmC [下标523])作为Li含量的函数