LICOO2相关论文
高镍三元 LiNi0.8Co0.15Al0.05O2(NCA)/LiNi0.8Mn0.1Co0.1O2(NCM)和高电压 LiCoO2(LCO)因其较大的比容量成为商业化电池中最主要的正极材......
本文以自制亚微米氧化钇为包覆物,采用高速固相包覆机包覆Li Co O2 (LCO),并采用X射线衍射仪(XRD)、扫描电镜(SEM)及电化学测试等手段对LCO......
随着人们对新能源的需求提高,大容量、安全性能高、微型化、柔性已经成为新型锂离子电池的发展目标。大容量、安全性能高、微型化......
Strain engineering is a powerful approach for tuning various properties of functional materials.The influences of lattic......
LiCoO2电池自商业化以来,在人们的生产和生活中发挥重要作用.电化学法具有简单、高效、环保等特点,被广泛应用于LiCoO2材料的制备......
Solid electrolyte interphase (SEI) is known as an electronic insulating but ionic conducting film formed on the surface ......
由于锰的资源丰富,价格低廉(锰的价格为钴的1/40,镍的1/20),无毒,制备工艺简单等诸多优点,尖晶石型锰酸锂成为替代钴酸锂作为锂离......
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HETEROJUNCTION FORMATION OF SOLID ELECTROLYTE AND ELECTRODE ACTIVE MATERIALS BY GLASS-FLUX APPROACHE
All-solid-state lithium ion rechargeable batteries(LIBs)consisting of solid electrolytes have been desired for higher en......
A series of the electrode materials (LiCoO2) for Lithium ion batteries were synthesized by radiating the mixture of Lith......
随着电子器件微型化的不断发展,人们对能源供应系统微型化和安全性能的要求也在不断提高。常规的电池系统已无法满足人们的需求,因此......
本文主要是在电解法的基础上,通过相转移的方法,将碳酸锂与氢氧化钴在液相中混合,并通过超声波处理,制备锂离子电池正极材料LiCoO2......
开发高性能、低成本的新型电极材料一直是锂离子电池的研究方向。对于传统的锂离子电池正极材料LiCoO2,由于在安全性和价格方面的缺......
Composite polymer electrolyte membranes supported by non-woven fabrics for lithium-ion polymer batte
Poly(vinylidene fluoride-co-hexafluoropropyle- ne) (PVDF-HFP) is one of the most popular polymers for polymer electrolyt......
LiCoO2 electrode/electrolyte interface of Li-ion batteries investigated by electrochemical impedance
The storage behavior and the first delithiation of LiCoO2 electrode in 1 mol/L LiPF6-EC:DMC:DEC electrolyte were investi......
LiNi1/3Co1/3Mn1/3O2, LiMn2O4 and LiCoO2 are paired to make the blended materials for the cathode of lithium-ion batterie......
系统地了解钴酸锂(LiCoO_2)在不同介质环境中的物理化学性质有助于从理论上指导该物质的合成工艺设计以及报废LiCoO_2再利用的工艺......
LiCoO2为最早商业化的锂离子电池正极材料,目前在便携式电子产品中占据着绝大部分市场.但是其有效比容量一般仅为理论值274mAh......
尖晶石LiNi0.5Mn1.5O4正极材料具有高的放电电压平台,高的能量密度和优异的电化学性能的优势,是替代LiCoO2成为下一代锂离子电池......
对电极材料在固定温度下热力学性质的评价,有助于准确描述锂离子电池(LIBs)的性能。为了全面了解层状锂LiMO2(M=Co、Ni、Mn)的特性......
LiCoO2作为商业化最早的锂离子电池正极材料,至今仍受到许多研究人员的广泛关注.高电压下LiCoO2面临着严重的容量衰减和性能下降等......
The overcharge behaviors of 1000 mAh LiCoO2/graphite pouch cells are systematically investigated through the analysis of......
钴酸锂(LiCoO2)由于具有较高的理论体积比容量(1363 m Ah cm-3),在消费类电子产品用锂离子电池正极材料市场中仍占有重要地位。但是L......
锂离子电池凭借其高比能量,高工作电压,优异的循环性能以及快充快放能力在储能领域占据不可取代的地位。而市场需求的增长,对锂离......
建立了电感耦合等离子体质谱(ICP-MS)测定钴酸锂中铈的分析方法.通过实验优化了质谱仪工作条件,确定了铈的测量同位素,标准曲线线......
Li4Ti5O12表面化学镀铜后与LiCoO2制得的18650电池,其倍率放电平台明显提高,并使得放电过程中的温升明显降低。......
混合正极是指将两种及以上不同类或不同规格的正极材料混合制备的正极,其目的是降低电池成本、提高电极比容量和优化电极压实密度......
Mechanism of Lithium and Cobalt Recovery from Spent Lithium-ion Batteries by Sulfation Roasting Proc
Different from the traditional pyrometallurgical recovery process of Li and Co from spent lithium-ion batteries,a new re......
,Charge compensation and capacity fading in LiCoO2 at high voltage investigated by soft x-ray absorp
In order to obtain an in-depth insight into the mechanism of charge compensation and capacity fading in LiCoO2, the evol......
LiCoO2 is one of the most important cathode materials for high energy density lithium ion batteries. The compressed beha......
本论文按研究体系顺序包括:(1)LiCoO2的湿化学制备;(2)Zr、Mg共掺杂提高LiCoO2电化学性能;(3)商业LiCoO2粉体改性;(4)Co掺杂对层状Li[L......