您要查找的是不是:
- Hard carbon is a promising anode material for lithium ion batteries due to its high capacity and low cost. 摘要硬碳具有嵌锂容量大,造价低,循环寿命长等优点,是制备高安全性锂离子电池负极潜在的优良材料。
- Silicon is a very promising candidate to replace graphite as an anode material in Li-ion batteries because of its high theoretical capacity. 摘要:由于具有高理论电容量,极富潜力的矽负极材料有可能取代石墨成为新一代的锂离子电池材料。
- An anticorrosive coating was prepared with lamellar zinc particles as the sacrificial anode material and epoxy resin as the binder. 摘要以鳞片状锌粉为牺牲阳极材料,环氧树脂为成膜物质,制备了鳞片状锌粉防腐蚀涂料。
- LiMn_2O_4 is one of the anode material of lithium ion battery,due to its bad circulating performance and electrochemical stability,it is greatly limited in its industrialization. 合成性能好、结构稳定的正极材料锰酸锂是研究和制备有应用前景的锂离子蓄电池电极材料的关键,锰酸锂是较有前景的锂离子正极材料之一。
- Abstract: A great interest was attracted in the improvement of lead dioxide as anode material owing to its high electriconductivity, high oxygen overpotential and chemiinertness. 摘 要: 二氧化铅作为阳极由于具有高的催化活性、高的析氧过电位和化学惰性而受到关注。
- The anode material of aluminum electrolysis is present in the odiously working environment of high temperature and strong corrosiveness medium, so it is very difficult for modern material science to select inert anode material. 摘要铝电解阳极材料处在高温、强腐蚀性介质的恶劣工作环境中,所以惰性阳极材料的选择是现代材料科学难度很大的课题之一。
- To improve the cyclability of SnO2 anode material, prevent theaggregation of Sn particle during the cycling, here we chose graphite to bethe dispersant in the system, prepared the composite of SnO2/graphitewith Sol-gel technique. 为了改善 SnO2 材料的循环性,防止 Sn 颗粒在充放电的过程中形成团簇,可以采取在 SnO2材料中加入适当的分散体系的方法,本文选取了传统负极材料石墨作为 SnO2的分散体系,用溶胶凝胶法在合成了 SnO2/石墨复合材料,其作为电池材料的循环性能较 SnO2有很大改善。
- The electroplating of chromium from a trivalent chromium bath in engineering has a fatal disadvantage of poor bath stability which is highly dependent on the nature of the anode material. 摘要三价铬镀铬在实际应用中最大的问题是工艺的稳定性差,而阳极是影响硫酸盐三价铬镀液稳定性的关键。
- Abstract: Recent studies on anode materials for lithium ion secondary battery are reviewed. 文摘:综述了最近几年来锂离子二次电池负极材料的研究。
- The status and progress of the anode materials for SOFC are reviewed in this paper. 摘要本文综述了固体氧化物燃料电池阳极材料的研究现状和进展。
- Recent studies on anode materials for lithium ion secondary battery are reviewed. 综述了最近几年来锂离子二次电池负极材料的研究。
- The investigated anode materials include modified carbons,nitrides ,silicides ,oxides and novel alloys. 研究的负极材料主要有:改性碳材料、氮化物、硅化物、氧化物和新型合金。
- With the development of solid polymer electrolyte ,lithium and its alloys may be the promising anode materials. 随着固体电解质的不断研究,锂金属及其合金有可能成为最有前景的负极材料。
- The technology of our company to manufacture anode materials is unique, and the qualification yield is 100%. 辉宇负极材料的生产工艺独特,成功解决了天然石墨的不稳定性问题,产品质量合格率为100%25,性能优良。
- Other metal antimonides, such as CoFe3Sb12, CoSb2 and FeSb2 have been also prepared and studied as anode materials in the present work. 此外,还研究了CoFe_3Sb_(12)、CoSb_2和FeSb_2锑系列合金。
- Results show that the composite improves the first cycle columbic efficiency and cycle life of anode materials effectively. 结果表明,该碳纳米管复合导电剂可有效提高电极材料的首次库仑效率和循环寿命。
- The material is flawed throughout. 这种材料到处是裂缝。
- The key points of the electrons transfer are elucidated, which provides new ideas for developing new and efficient anode materials. 明确电子传递的关键环节,为新型高效阳极材料的开发提供思路。
- Li_ 3-x M_xN(M:Co,Ni,Cu) is a series of promising anode materials for lithium ion batteries due to their high capacities and stable cycling performance. 具有首次脱锂容量大,良好的充放电可逆性等优点,是制备锂离子电池负极的优良材料。
