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SnO_2 nanospheres among GO and SWNTs networks as anode for enhanced lithium storage performances被引量：2: 2016年; Conducting supporters of purified single-walled carbon nanotubes(SWNTs) and graphene oxide(GO)were used to confine pomegranate-structured Sn O2 nanospheres for forming SnO_2-GO-SWNT composites.As anode material for lithium ion batteries(LIBs), this composite exhibits a stable and large reversible capacity together with an excellent rate capability. In addition, an analysis of the AC impedance spectroscopy has been used to confirm the enhanced mechanism for LIB performance. The improved electrochemical performance should be ascribed greatly to the reinforced synergistic effects between GO and SWNT networks, and their enhanced contribution of the conductivity. These results indicate that this composite has potential for utilization in high-rate and durable LIBs.; Weiwei WenMingzhong ZouQian FengJiaxin LiHeng LaiZhigao Huang

具有纳米阵列结构的Cu_xO薄膜作为锂离子电池负极材料的电化学性能研究: 2019年; 利用磁控溅射薄膜沉积技术设计制备了具有纳米阵列结构的3种(Cu O、Cu4O3、Cu2O)铜氧化物薄膜,将其直接用作锂电池负极材料进行电化学性质的表征测量.经循环200次之后,结果发现Cu O负极薄膜虽然在前50次经历了容量衰减,但之后保持有最高的比容量.在此基础上,将Cu O负极薄膜与商业钴酸锂正极匹配制作出软包薄膜全电池,并对其性能进行了表征测试,为设计高容量全电池薄膜负极材料提供一个可行的方案.; 彭希虹陈越范昕玥陈寅林春黄志高; 关键词：薄膜锂离子电池纳米阵列磁控溅射

Nano-crystalline FeOOH mixed with SWNT matrix as a superior anode material for lithium batteries被引量：3: 2014年; Nano-crystalline FeOOH particles(5～10 nm) have been uniformly mixed with electric matrix of single-walled carbon nanotubes(SWNTs)for forming FeOOH/SWNT composite via a facile ultrasonication method. Directly using the FeOOH/SWNT composite(containing 15 wt%SWNTs) as anode material for lithium battery enhances kinetics of the Li+insertion/extraction processes, thereby effectively improving reversible capacity and cycle performance, which delivers a high reversible capacity of 758 mAh g-1under a current density of 400 mA g-1even after 180 cycles, being comparable with previous reports in terms of electrochemical performance for FeOOH anode. The good electrochemical performance should be ascribed to the small particle size and nano-crystalline of FeOOH, as well as the good electronic conductivity of SWNT matrix.; Mingzhong ZouWeiwei WenJiaxin LiYingbin LinHeng LaiZhigao Huang; 关键词：FEOOH SWNT

无机固态电解质及其电极-电解质界面优化对全固态锂离子电池性能提高的研究进展: 2021年; 固态电池研究的重点在于开发高离子电导率的固态电解质,并优化固态电解质和电极的界面问题.首先以近年来受到广泛研究的无机固态电解质为中心,主要介绍通过固相烧结、液相烧结、溶胶凝胶法等方法制备的包括LiPON型、钙钛矿型、石榴石型和NASICON型在内的4种无机固态电解质及其在全固态锂离子电池中的应用;其次,通过对固态电解质表面修饰及界面优化,并结合不同的修饰方法讨论了界面优化的本征机制;最后对固态电池的研究开发、应用及发展前景进行了展望.; 李志宣陈越林洪斌林春潘汉殿黄志高; 关键词：固态电解质无机

有机系锂-空气电池碳基正极的研究进展: 2013年; 高比能量有机系锂-空气电池是近年来的研究热点.其中,碳基正极的研究是开发有机系锂-空气电池的关键.本文综述了有机系锂-空气电池碳基正极的最新研究进展,着重介绍碳基正极的组成部件、构筑组态、双功能催化机制三方面因素及其关联性.最后,对当前有机系锂-空气电池碳基正极中存在的问题和后续发展提出建议.; 李加新赵毅吴初新赖恒黄志高官轮辉

LiFe1-xMnxPO4正极材料的磁性研究: 2018年; 采用高温固相法制备纯相LiFePO_4、碳包覆的LiFe_(1-x)Mn_xPO_4(x=0.0,0.1,0.3,0.5)5个样品.利用XRD、SEM、VSM、XPS及CT-2001A对材料的结构、形貌、磁性和电化学性能等进行测量.实验结果表明,未掺杂与掺杂的样品均没有明显的杂相,且都是橄榄石结构;在100,200,300 K下,纯相LiFePO_4、碳包覆LiFe_(1-x)Mn_xPO_4(x=0.0,0.1,0.3,0.5)、商业化的正极材料碳包覆磷酸铁锂6个样品都具有弱铁磁性,且磁性强度不同.所有样品都存在三价铁离子,其对应于γ-Fe_2O_3;LiFePO_4的电化学特性与引入的γ-Fe_2O_3杂质有密切的关系;磁测量和XPS谱可以敏感地检测出γ-Fe_2O_3杂质的存在,它们提供了两种检测磷酸铁锂正极材料质量的有效技术.; 张林王翠丽陈蕾杨文宇陈越林应斌黄志高; 关键词：磁性碳包覆锰掺杂 Γ-FE2O3

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国家自然科学基金(21203025)