A tetragonal NaV2O5.H2O nano-flake powder and its preparation method and application are described. The black turbid solution A is obtained by magnetic stirring when NaVO3 and Na2S.9H2O are added to deionized water at the same time. The reactor was naturally cooled to room temperature after being washed by water and alcohol alternately, and the products were collected. The thickness of the nanosheets was 30-60 nm. The nanosheets were tetragonal NaV2O5.H2O nanosheets with single crystal structure growing along (002) crystal plane orientation. As anode materials for lithium-ion batteries, the specific capacities can reach 348, 285, 209, 167 and 130 mAhg_1 at the current densities of 100, 200, 500, 1000 and 2000 mAg_1, respectively. At the current densities of 100 and 200 mAg_1, the first discharge capacity can reach_and 63;mAhg_1. After 480 and 600 cycles, the specific capacities can still be reached. At 483 and 320 mAhg_1, the specific capacity can reach 129 mAhg_1 after 1000 cycles at 1000 mAg_1 current density.
【技术实现步骤摘要】
一种四方相NaV2O5·H2O纳米片状粉体及其制备方法和应用
本专利技术涉及一种NaV2O5·H2O粉体及其制备方法,具体涉及一种四方相NaV2O5·H2O纳米片状粉体及其制备方法和应用。
技术介绍
由于其突出的无记忆效应、低自放电效应、高能量/功率密度、长寿命和环境友好等特性,可充电锂离子电池被认为是一种非常有前景的大尺度能量存储技术。为了满足高性能便携式电子器件和电动车辆的需求,由于它们高效的层间离子传输、大的比表面积(有利于改善离子吸附效果)和快速的表面氧化还原反应,类石墨层状材料逐渐被发展,并引起了大量的关注,被认为是下一代先进的锂离子电池。作为一类典型的层状材料,具有多变化学价态、丰富来源和低成本等优势的钒基氧化物被视为是一种高性能电极材料,并且在能源存储领域备受关注[LiuP,ZhuK,GaoY,LuoH,LuL.RecentProgressintheApplicationsofVanadium-BasedOxidesonEnergyStorage:fromLow-DimensionalNanomaterialsSynthesisto3DMicro/N...
【技术保护点】
1.一种四方相NaV2O5·H2O纳米片状粉体的制备方法,其特征在于:步骤一:取0.8~1.2gNaVO3和0.5~3.5gNa2S·9H2O同时加入到55~65ml去离子水中,磁力搅拌得到黑色浑浊溶液A;步骤二:按55~65%的填充比将溶液A倒入反应内衬后密封,将内衬装于外釜中固定后置于均相反应仪中,在5~15r/min的转速条件下由室温加热到150~200℃进行水热反应;步骤三:水热反应结束后将反应釜自然冷却到室温,经水和醇交替清洗后收集产物,并在40~80℃烘干得到四方相NaV2O5·H2O纳米片状粉体。
【技术特征摘要】
1.一种四方相NaV2O5·H2O纳米片状粉体的制备方法,其特征在于:步骤一:取0.8~1.2gNaVO3和0.5~3.5gNa2S·9H2O同时加入到55~65ml去离子水中,磁力搅拌得到黑色浑浊溶液A;步骤二:按55~65%的填充比将溶液A倒入反应内衬后密封,将内衬装于外釜中固定后置于均相反应仪中,在5~15r/min的转速条件下由室温加热到150~200℃进行水热反应;步骤三:水热反应结束后将反应釜自然冷却到室温,经水和醇交替清洗后收集产物,并在40~80℃烘干得到四方相NaV2O5·H2O纳米片状粉体。2.根据权利要求1所述的四方相NaV2O5·H2O纳米片状粉体的制备方法,其特征在于:所述步骤一磁力搅拌时间为55~65min,转速为800~1000r/min。3.根据权利要求1所述的四方相NaV2O5·H2O纳米片状粉体的制备方法,其特征在于:所述步骤二水热反应时间为1~36h。4.根据权利要求1所述的四方相NaV2O5·H2O...
【专利技术属性】
技术研发人员:黄剑锋,李文斌,曹丽云,冯亮亮,何枢薇,任一杰,李瑞梓,畅珣伟,
申请(专利权)人:陕西科技大学,
类型:发明
国别省市:陕西,61
还没有人留言评论。发表了对其他浏览者有用的留言会获得科技券。