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促进输送膜法烯烃/烷烃分离研究进展 被引量:2
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作者 刘振梅 徐志康 +1 位作者 寇瑞强 戴清文 《石油化工》 CAS CSCD 北大核心 2002年第9期753-758,共6页
膜分离法由于其潜在的低能耗、高效益、无污染等优点而受到关注,其中促进输送膜在烯烃/烷烃分离中更因具有高的选择性而引起研究者的兴趣。介绍了促进输送膜进行烯烃/烷烃分离的研究进展,较详细地阐述了促进输送膜的分离机理、膜的分类... 膜分离法由于其潜在的低能耗、高效益、无污染等优点而受到关注,其中促进输送膜在烯烃/烷烃分离中更因具有高的选择性而引起研究者的兴趣。介绍了促进输送膜进行烯烃/烷烃分离的研究进展,较详细地阐述了促进输送膜的分离机理、膜的分类以及影响分离性能的各种因素。 展开更多
关键词 促进输送 烯烃 烷烃 分离 研究进展 银离子 载体 可逆化学络合 聚合物-金属复合膜
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Ionic polymer metal composites actuators with enhanced driving performance by incorporating graphene quantum dots 被引量:1
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作者 YIN Guo-xiao HE Qing-song +2 位作者 YU Min WU Yu-wei XU Xian-rui 《Journal of Central South University》 SCIE EI CAS CSCD 2022年第5期1412-1422,共11页
In order to further improve the driving performance of ionic polymer metal composites(IPMCs),Nafion/graphene quantum dots(GQDs)hybrid membranes incorporating GQDs with various contents of 0,0.1 wt.%,0.5 wt.%,1.0 wt.%,... In order to further improve the driving performance of ionic polymer metal composites(IPMCs),Nafion/graphene quantum dots(GQDs)hybrid membranes incorporating GQDs with various contents of 0,0.1 wt.%,0.5 wt.%,1.0 wt.%,2.0 wt.%and 4.0 wt.%were fabricated by solution casting,and then IPMCs were manufactured by electroless plating.The water contents and elastic moduli of the hybrid membranes were tested.The morphology characteristics of the hybrid membranes and the IPMCs were observed,and the current,AC impedance,blocking force and displacement of the IPMCs were measured.The results show that the elastic modulus of the hybrid membranes decreases,the water content increases,and the actuation performance of the IPMCs improves significantly after the addition of GQDs.IPMC with 1.0 wt.%GQDs exhibits the best driving property.Compared with the IPMC without GQDs,the working current,ion conductivity,blocking force,and tip displacement increase by 94.67%,311.11%,53.66%,and 66.07%,respectively.These results lay a solid foundation for the preparation of IPMCs with high performance,and further broaden their applications in biomedical devices and bionic robots. 展开更多
关键词 graphene quantum dots hybrid membrane ionic polymer metal composites actuation performance
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