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锂离子电池电极材料Li_(4)Ti_(5)O_(12)@TiO_(2)的制备及性能 被引量:1
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作者 华丽 曾建华 +2 位作者 樊锋凯 朱玉涵 翁方青 《兰州大学学报(自然科学版)》 CAS CSCD 北大核心 2023年第2期271-278,共8页
用水热法制备Li_(4)Ti_(5)O_(12)@TiO_(2)复合材料与同样方法制备的尖晶石型Li_(4)Ti_(5)O_(12)进行对比.对2种材料采用扫描电子显微镜、X射线衍射仪、光电子能谱仪(XPS)进行表征;N_(2)吸附-脱附曲线进行比表面积分析;恒电流充放电测试... 用水热法制备Li_(4)Ti_(5)O_(12)@TiO_(2)复合材料与同样方法制备的尖晶石型Li_(4)Ti_(5)O_(12)进行对比.对2种材料采用扫描电子显微镜、X射线衍射仪、光电子能谱仪(XPS)进行表征;N_(2)吸附-脱附曲线进行比表面积分析;恒电流充放电测试和电化学交流阻抗(EIS)技术进行电化学性能分析.结果表明,Li_(4)Ti_(5)O_(12),和Li_(4)Ti_(5)O_(12)均呈颗粒状,粒径分别约为50和70nm.XPS分析显示Li_(4)Ti_(5)O_(12)@TiO_(2)中的Ti为+4价态.电化学测试结果显示Li_(4)Ti_(5)O_(12),复合了锐钛型TiO_(2)后其充放电比容量较纯Li_(4)Ti_(5)O_(12)高,主要原因是嵌入到尖晶石型Li_(4)Ti_(5)O_(12)晶格中的Li_(4)Ti_(5)O_(12)分析显示Li_(4)Ti_(5)O_(12)复合TiO_(2)后降低了欧姆接触电阻和电化学反应中的电荷转移电阻,提高了电极表面与电解液间的固-液界面双电层电容,有利于Li的嵌入和脱出,增大其可逆比容量.两种材料中Li的扩散系数分别为3.36×10^(-10)和2.03×10^(-12 )cm^(2)/s.比表面积分析显示复合TiO_(2)后的Li_(4)Ti_(5)O_(12)具有较大的比表面积(73.65m/g),纯Li_(4)Ti_(5)O_(12)的比表面积为56.23m/g.Li_(4)Ti_(5)O_(12),复合TiO_(2)后作为锂电池的阳极材料更有利于Li扩散,为Li的脱嵌提供较好的通道,其比容量也得到提高。 展开更多
关键词 li_(4)ti_(5)o_(12) tio_(2) 复合物 锂离子电池
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Li_(3)V_(2)(PO_(4))_(3)/Li_(4)Ti_(5)O_(12)锂离子全电池的电化学性质
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作者 刘洋洋 《高师理科学刊》 2023年第5期50-53,共4页
研究了Li_(3)V_(2)(PO_(4))_(3)/Li_(4)Ti_(5)O_(12)全电池在不同电压区间的电化学性能.电流密度为17 mA/g,Li_(3)V_(2)(PO_(4))_(3)/Li_(4)Ti_(5)O_(12)在1.5~2.9 V下的首次放电比容量为125.1 mA h/g,30次循环后放电比容量为102.9 mAh... 研究了Li_(3)V_(2)(PO_(4))_(3)/Li_(4)Ti_(5)O_(12)全电池在不同电压区间的电化学性能.电流密度为17 mA/g,Li_(3)V_(2)(PO_(4))_(3)/Li_(4)Ti_(5)O_(12)在1.5~2.9 V下的首次放电比容量为125.1 mA h/g,30次循环后放电比容量为102.9 mAh/g,容量衰减22.2 mAh/g,容量保持率82.2%.相同电流密度下,Li_(3)V_(2)(PO_(4))_(3)/Li_(4)Ti_(5)O_(12)在1.5~3.3 V电压内的首次放电比容量为145.6 mAh/g,30次循环后放电比容量为110.8 mAh/g,容量衰减34.8 mAh/g,容量保持率76.1%.说明全电池在1.5~2.9 V电压区间内的电化学性能比在1.5~3.3V电压区间内好.研究对今后Li_(3)V_(2)(PO_(4))_(3)与其他负极材料的研究都具有一定的指导作用. 展开更多
关键词 锂离子电池 全电池 li_(3)V_(2)(Po_(4))_(3)/li_(4)ti_(5)o_(12) 电化学
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LiNi_(1/3)Co_(1/3)Mn_(1/3)O_(2)/Li_(4)Ti_(5)O_(12)全电池的制备及电化学性能测试
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作者 林成 习汝文 +2 位作者 吴榆 李佩研 高群 《时代汽车》 2023年第21期137-140,153,共5页
为了提高LiNi_(1/3)Co_(1/3)Mn_(1/3)O_(2)/Li_(4)Ti_(5)O_(12)全电池的电化学性能,本文通过对比实验,研究了在不同的N/P比以及充放电电压区间下的全电池性能表现。经对比数据发现,当正极材料LiNi_(1/3)Co_(1/3)Mn_(1/3)O_(2)(NCM111)... 为了提高LiNi_(1/3)Co_(1/3)Mn_(1/3)O_(2)/Li_(4)Ti_(5)O_(12)全电池的电化学性能,本文通过对比实验,研究了在不同的N/P比以及充放电电压区间下的全电池性能表现。经对比数据发现,当正极材料LiNi_(1/3)Co_(1/3)Mn_(1/3)O_(2)(NCM111)和负极材料Li_(4)Ti_(5)O_(12)(LTO)的N/P比为1.0:1.0,充放电电压区间为0.5~3.2V时,电池具备较好的比容量、库伦效率和循环稳定性。本文为后续LiNi_(1/3)Co_(1/3)Mn_(1/3)O_(2)/Li_(4)Ti_(5)O_(12)全电池的工业化制造提供了帮助。 展开更多
关键词 liNi_(1/3)Co_(1/3)Mn_(1/3)o_(2) li_(4)ti_(5)o_(12) 全电池 N/P比 电压区间
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电极材料Li_4Ti_5O_(12)制备方法研究进展 被引量:3
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作者 刘浩文 刘针邑 唐定国 《电源技术》 CAS CSCD 北大核心 2010年第7期742-745,共4页
电极材料Li_4Ti_5O_(12)是一种具有"零应变"性质的负极材料,电化学性能十分优异,是锂离子电池负极材料的研究热点之一。制备Li_4Ti_5O_(12)材料的方法除了传统的高温固相合成法,还有溶胶-凝胶法、水热(溶剂热)法、高能球磨法... 电极材料Li_4Ti_5O_(12)是一种具有"零应变"性质的负极材料,电化学性能十分优异,是锂离子电池负极材料的研究热点之一。制备Li_4Ti_5O_(12)材料的方法除了传统的高温固相合成法,还有溶胶-凝胶法、水热(溶剂热)法、高能球磨法、微波法和喷雾干燥法等。综述了近几年来Li_4Ti_5O_(12)制备方法的研究进展。 展开更多
关键词 li_4ti_5o_(12) 负极材料 锂离子电池 制备方法
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Synthesis and electrochemical properties of highly dispersed Li_(4)Ti_(5)O_(12)nanocrystalline for lithium secondary batteries 被引量:4
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作者 王瑾 刘晓敏 杨晖 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2012年第3期613-620,共8页
A sol-gel method using lauric acid as surfactant was used to synthesize Li4Ti5O12 nanocrystals with an ultra-fine particle size distribution between 120 and 250 nm.In order to obtain the electrode materials with the b... A sol-gel method using lauric acid as surfactant was used to synthesize Li4Ti5O12 nanocrystals with an ultra-fine particle size distribution between 120 and 250 nm.In order to obtain the electrode materials with the best electrochemical performance,the content of lauric acid during Li4Ti5O12 synthesis was systematically studied.The physical and electrochemical properties of the synthesized samples were characterized by X-ray diffraction(XRD),field emission scanning electron microscopy(FESEM),transmission electron microscopy(TEM),laser particle size analysis,alternating current impedance(AC) and galvanostatic charge-discharge experiments.The highly dispersed Li4Ti5O12 nanocrystals obtained at 800 ℃ for 10 h can deliver a specific capacity of 163.3 mA-h/g at 1C rate without obvious capacity fade up to 50 cycles.The results suggest that well dispersed Li4Ti5O12 nanocrystals shorten the Li-ion diffusion length and enhance the electrochemical kinetics of the samples,which are very crucial to high rate capability. 展开更多
关键词 lithium-ion battery lithium titanate NANoCRYSTALS SURFACTANT sol-gel method
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以竹叶为碳源制备Li_(4)Ti_(5)O_(12)/C复合材料 被引量:3
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作者 刘晶丽 陈上 +3 位作者 吴显明 王芝茹 张枫 龙芮涞 《精细化工》 EI CAS CSCD 北大核心 2021年第2期306-309,322,共5页
以钛酸四丁酯、醋酸锂、柠檬酸和竹炭为原料,采用两步煅烧和溶胶-凝胶法制备了锂离子电池Li_(4)Ti_(5)O_(12)/C负极材料。采用XRD、SEM表征了材料的微观结构和形貌。采用恒流充放电、交流阻抗法和循环伏安法测试了材料的电化学性能。结... 以钛酸四丁酯、醋酸锂、柠檬酸和竹炭为原料,采用两步煅烧和溶胶-凝胶法制备了锂离子电池Li_(4)Ti_(5)O_(12)/C负极材料。采用XRD、SEM表征了材料的微观结构和形貌。采用恒流充放电、交流阻抗法和循环伏安法测试了材料的电化学性能。结果显示,Li_(4)Ti_(5)O_(12)/C具有良好的结晶度,颗粒表面光滑,分散均匀,粒径为200~300 nm。10 C倍率下,Li_(4)Ti_(5)O_(12)/C的首次放电比容量为180.4 mA·h/g,循环300圈后为167.5 mA·h/g,容量保持率为92.8%,远高于Li_(4)Ti_(5)O_(12)的46.9%。在20 C大倍率下,Li_(4)Ti_(5)O_(12)/C和Li_(4)Ti_(5)O_(12)的容量保持率分别为68.9%和41.3%。 展开更多
关键词 锂离子电池 溶胶-凝胶法 碳包覆li_(4)ti_(5)o_(12) 竹炭 功能材料
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Interface charges boosted ultrafast lithiation in Li_4Ti_5O_12 revealed by in-situ electron holography 被引量:5
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作者 Yuren Wen Xiao Chen +1 位作者 Xia Lu Lin Gu 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2018年第5期1397-1401,共5页
It is still a great challenge at present to combine the high rate capability of the electrochemical capacitor with the high electrochemical capacity feature of rechargeable battery in energy storage and transport devi... It is still a great challenge at present to combine the high rate capability of the electrochemical capacitor with the high electrochemical capacity feature of rechargeable battery in energy storage and transport devices. By studying the lithiation mechanism of Li_4Ti_5O_12 (LTO) using in-situ electron holography, we find that double charge layers are formed at the interface of the insulating Li_4Ti_5O_12 (Li_4) phase and the semiconducting Li_7Ti_5O_12 (Li_7) phase, and can greatly boost the lithiation kinetics. The electron wave phase of the LTO particle is found to gradually shrink with the interface movement, leaving a positive electric field from Li_7 to Li_4 phase. Once the capacitive interface charges are formed, the lithiation of the core/shell particle could be established within 10 s. The ultrafast kinetics is attributed to the built-in interface potential and the mixed Ti3+/Ti4+ sites at the interface that could be maximally lowering the thermodynamic barrier for Li ion migration. 展开更多
关键词 li_4ti_5o_12 In-situ transmission electron microscopy (TEM) off-axis electron holography Interface charge
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微波等离子体原子发射光谱测定Li_(4)Ti_(5)O_(12)中的金属杂质元素 被引量:3
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作者 刘宏伟 符靓 《光谱学与光谱分析》 SCIE EI CAS CSCD 北大核心 2021年第10期3021-3025,共5页
尖晶石钛酸锂(Li_(4)Ti_(5)O_(12))作为锂离子电池负极材料在充放电过程中电压高,体积变化可以忽略,具有极好的循环寿命、热稳定性和安全性,Li_(4)Ti_(5)O_(12)中金属杂质元素的迁移以及沉积都是已知的有害降解效应,尤其是磁性金属杂质... 尖晶石钛酸锂(Li_(4)Ti_(5)O_(12))作为锂离子电池负极材料在充放电过程中电压高,体积变化可以忽略,具有极好的循环寿命、热稳定性和安全性,Li_(4)Ti_(5)O_(12)中金属杂质元素的迁移以及沉积都是已知的有害降解效应,尤其是磁性金属杂质元素的存在会导致材料的自放电,同时可能造成电池内部的微短路,进而影响电池的安全性能和循环寿命。该研究提出了采用微波等离子体原子发射光谱(MP-AES)测定Li_(4)Ti_(5)O_(12)中金属杂质元素的新方法。采用王水溶液为消解试剂对Li_(4)Ti_(5)O_(12)样品进行微波消解,样品溶液无需过滤,直接采用MP-AES测定其中的金属杂质元素Mn,Na,Pb,Ni,Cr,Zn,K,Fe,Al,Mg,Cu,Ca,Co和Cd。选择波长Mn 403.076 nm,Na 589.592 nm,Pb 405.781 nm,Ni 352.454 nm,Cr 425.433 nm,Zn 213.857 nm,K 766.491 nm,Fe 371.993 nm,Al 396.152 nm,Mg 285.213 nm,Cu 324.754 nm,Ca 393.366 nm,Co 340.512 nm和Cd 228.802 nm为分析谱线,结合快速线性干扰校正(FLIC)技术,不仅校正了谱线重叠干扰,而且还校正了所有分析元素的背景干扰。加入CsNO 3为电离抑制剂,校正了易电离Li基质产生的电离干扰。选择Y为内标元素,校正了分析信号强度的不稳定和基体效应。方法的检出限(MDL)为0.03~0.77μg·g^(-1),线性相关系数≥0.9993,加标回收率为96.4%~103%,相对标准偏差(RSD)≤3.89%,采用所建立的分析方法对实际样品进行分析,并与国标法(GB/T 30836—2014)进行对比分析,经t检验法统计分析表明,在95%的置信度水平,除元素Zn以外,其余元素的测定结果与国标法无显著性差异,进一步验证了方法的准确性好。使用氮气为等离子体气体的MP-AES与使用氩气为等离子体气体的电感耦合等离子体发射光谱(ICP-OES)相比较,可以显著降低运行成本,与使用可燃气体和氧化性气体的原子吸收光谱(AAS)相比较,安全性更高,稳定性更好。该方法操作简单、分析成本低、准确性高、精密度好,为Li_(4)Ti_(5)O_(12)中多种金属杂质元素的高通量测定提供了新方法。 展开更多
关键词 微波等离子体原子发射光谱 li_(4)ti_(5)o_(12) 金属杂质元素 快速线性干扰校正
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高能球磨对Li_(4)Ti_(5)O_(12)/AB/MWCNT电化学性能的影响 被引量:2
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作者 方巍 董恩杰 +1 位作者 梅泽民 尹鸽平 《电池》 CAS 北大核心 2021年第4期329-333,共5页
采用固相法制备钛酸锂(Li_(4)Ti_(5)O_(12))/乙炔黑(AB)/多壁碳纳米管(MWCNT)复合材料,并通过高能球磨对复合材料进行改性。随着球磨转速的增加,复合材料所产生的剪切力和垂直力不断增强,使AB、MWCNT与Li_(4)Ti_(5)O_(12)的接触更充分,... 采用固相法制备钛酸锂(Li_(4)Ti_(5)O_(12))/乙炔黑(AB)/多壁碳纳米管(MWCNT)复合材料,并通过高能球磨对复合材料进行改性。随着球磨转速的增加,复合材料所产生的剪切力和垂直力不断增强,使AB、MWCNT与Li_(4)Ti_(5)O_(12)的接触更充分,为Li+和电子传输提供更多的位点,提高了Li_(4)Ti_(5)O_(12)粒子界面电子传输能力;200~400 nm粒度的粉体粒子在Li_(4)Ti_(5)O_(12)中的含量由球磨前的32%增加到500 r/min球磨后的82%。以500 r/min球磨的复合材料,以10.0 C在1.0~2.5 V充放电,比容量从球磨前的112 mAh/g提升到130 mAh/g,经过500次循环,容量只损失0.9%。 展开更多
关键词 钛酸锂(li_(4)ti_(5)o_(12)) 乙炔黑(AB) 碳纳米管(CNT) 负极材料 球磨 锂离子电池 电化学性能
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新型锂电池负极Li_(4)Ti_(5)O_(12)/双相TiO_(2)纳米片的合成及性能 被引量:1
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作者 王艳红 葛昊 《有色金属工程》 CAS 北大核心 2022年第10期61-66,共6页
锂离子电池负极材料Li_(4)Ti_(5)O_(12)由于具有独特的结构稳定性和突出的安全性而被广泛研究。然而,较差的高倍率性能严重限制了其在动力锂离子电池中的应用。为了进一步提升Li_(4)Ti_(5)O_(12)负极材料的倍率性能,采用一种便捷的水热... 锂离子电池负极材料Li_(4)Ti_(5)O_(12)由于具有独特的结构稳定性和突出的安全性而被广泛研究。然而,较差的高倍率性能严重限制了其在动力锂离子电池中的应用。为了进一步提升Li_(4)Ti_(5)O_(12)负极材料的倍率性能,采用一种便捷的水热法成功制备了新型Li_(4)Ti_(5)O_(12)/双相TiO_(2)纳米片,为显著提高Li_(4)Ti_(5)O_(12)基复合材料的电化学性能提供了一种简便而有效的方法。所合成的Li_(4)Ti_(5)O_(12)/双相TiO_(2)纳米片表现出优良的电化学性能:0.5C时,具有174 mAh/g的超高可逆容量;当倍率高达30C时,可逆容量超过140 mAh/g。新型锂电池负极Li_(4)Ti_(5)O_(12)/双相TiO_(2)纳米片的研究将为设计开发满足日益增长的高功率储能需求的新型无碳负极材料提供新思路。 展开更多
关键词 li_(4)ti_(5)o_(12) tio_(2) 纳米片 锂离子电池
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Effects of Cr doping on structural and electrochemical properties of Li_(4)Ti_(5)O_(12) nanostructure for sodium-ion battery anode 被引量:1
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作者 Sang Hyuk Gong Ji Hyeon Lee +5 位作者 Dong Won Chun Jee-Hwan Bae Sung-Chul Kim Seungho Yu Sahn Nahm Hyung-Seok Kim 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2021年第8期465-472,I0010,共9页
Sodium-ion batteries are considered as promising alternatives to lithium-ion batteries,owing to their low cost and abundant raw materials.Among the several candidate materials for the anode,spinel-type Li_(4)Ti_(5)O_(... Sodium-ion batteries are considered as promising alternatives to lithium-ion batteries,owing to their low cost and abundant raw materials.Among the several candidate materials for the anode,spinel-type Li_(4)Ti_(5)O_(12)has potential owing to its superior safety originating from an appropriate operating voltage and the reversible Na^(+)intercalation properties.However,a low diffusion coefficient for Na^(+)and the insulating nature of LTO remains challenging for practical sodium-ion battery systems.Herein,we present a strategy for integrating physical and chemical approaches to achieve superior electrochemical properties in LTO.We demonstrate that carefully controlling the amount of Cr doping is crucial to enhance the electrochemical properties of nanostructured LTO.Optimized Cr doped LTO shows a superior reversible capacity of 110 m Ah g^(-1) after 400 cycles at 1 C,with a three-fold higher capacity(75 m Ah g^(-1))at 10 C compared with undoped LTO material.This suggests that appropriately Cr doped nanostructured LTO is a promising anode material for sodium-ion batteries. 展开更多
关键词 Sodium-ion batteries Spinel type li_(4)ti_(5)o_(12) Anode materials NANoSTRUCTURING Cr-doping
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Li/Ti摩尔比对Li_(4)Ti_(5)O_(12)负极材料组成、结构和电化学性能的影响
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作者 潘冰冰 胡朴 +3 位作者 赵周桥 窦林涛 邹义琪 张占辉 《武汉工程大学学报》 CAS 2021年第3期283-287,共5页
采用高温固相法制备不同锂钛摩尔比条件下的样品,探究锂钛摩尔比对钛酸锂的组成、结构和电化学性能的影响。通过X-射线衍射仪和扫描电子显微镜测定材料的组成、结构和形貌。结果表明:锂钛摩尔比在0.78~0.82之间可得到纯相的Li_(4)Ti_(5)... 采用高温固相法制备不同锂钛摩尔比条件下的样品,探究锂钛摩尔比对钛酸锂的组成、结构和电化学性能的影响。通过X-射线衍射仪和扫描电子显微镜测定材料的组成、结构和形貌。结果表明:锂钛摩尔比在0.78~0.82之间可得到纯相的Li_(4)Ti_(5)O_(12);低锂钛摩尔比(0.74、0.76)存在TiO2杂相,其晶胞参数要高于Li_(4)Ti_(5)O_(12);然而高锂钛摩尔比(0.84~0.88)会产生Li2TiO3杂相。不同锂钛摩尔比(0.78~0.84)制备的样品形貌接近无明显差异,晶粒尺寸在1~6μm之间。电学性能结果表明:锂钛摩尔比在0.78~0.84之间时,适量提高锂含量有助于提升材料的比容量,过量提高会使材料的循环稳定性和倍率性能变差。锂钛摩尔比为0.82得到的Li_(4)Ti_(5)O_(12)比容量[198(mA·h)/g,0.5C]、循环性能和倍率性能最优。 展开更多
关键词 锂离子电池 钛酸锂 锂钛摩尔比 电化学性能
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In situ self-nucleophilic synthesis of nano-Li_(4)Ti_(5)O_(12)/reduced graphite oxide composite with mesopore-oriented porous structure for high-rate lithium ion batteries
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作者 PAN Feng-ling MING Hai +3 位作者 CAO Gao-ping ZHANG Ting-ting ZHANG Wen-feng XIANG Yu 《Journal of Central South University》 SCIE EI CAS CSCD 2022年第9期2911-2929,共19页
It is the core to improve the electron/ion transfer features of Li_(4)Ti_(5)O_(12) for achieving high-rate anode in lithium ion batteries.By directly using graphite oxide powder,nano-Li_(4)Ti_(5)O_(12)/reduced graphit... It is the core to improve the electron/ion transfer features of Li_(4)Ti_(5)O_(12) for achieving high-rate anode in lithium ion batteries.By directly using graphite oxide powder,nano-Li_(4)Ti_(5)O_(12)/reduced graphite oxide composite with mesopore-oriented porosity is prepared through one-pot facile ball-milling method in this work.Synthesis mechanism underlying the self-nucleophilic effect of oxygen-containing functional groups in graphite oxide is substantiated.Reactants can intercalate into graphite oxide bulk and in-situ generate nanoparticles.Subsequently,graphite oxide with nanoparticles generated inside can obtain a mesopore-oriented porous structure under ball-milling.Furthermore,the synergistic effects of Li_(4)Ti_(5)O_(12) nanoparticles and mesopore-oriented porosity strengthen composites with rapid Li^(+)diffusion and electron conductive frameworks.The obtained optimal LTO/GO-1.75 composite displays excellent high-rate capability(136 mA·h/g at 7000 mA/g)and good cycling stability(a capacity retention of 72%after 1000 cycles at 7000 mA/g).Additionally,the reactants concentration in this demonstrated strategy is as high as 30 wt%−40 wt%,which is over 6 times that of traditional methods with GO suspensions.It means that the strategy can significantly increase the yield,showing big potential for large-scale production. 展开更多
关键词 graphite oxide nucleophilic catalysis li_(4)ti_(5)o_(12) high rate anode
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Zr^(4+)掺杂对Li_(4)Ti_(5)O_(12)负极材料性能影响研究
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作者 王能为 万书权 孙艳 《化工新型材料》 CAS CSCD 北大核心 2022年第11期74-77,共4页
采用分阶段固相烧结法进行钛酸锂负极材料Li_(4)Ti_(5)O_(12)的制备,实验结果表明,少量Zr^(4+)掺杂后并未改变Li_(4)Ti_(5)O_(12)的尖晶石结构类型,但引起晶格常数的变化,掺杂前后颗粒都呈圆球形,且都比较均匀细小。循环充放电实验表明,... 采用分阶段固相烧结法进行钛酸锂负极材料Li_(4)Ti_(5)O_(12)的制备,实验结果表明,少量Zr^(4+)掺杂后并未改变Li_(4)Ti_(5)O_(12)的尖晶石结构类型,但引起晶格常数的变化,掺杂前后颗粒都呈圆球形,且都比较均匀细小。循环充放电实验表明,当Zr^(4+)掺杂量在0~0.2变化时,随着Zr^(4+)掺杂量的增多,充放电比容量明显增大,且充放电平台更平稳。这主要是由于Zr^(4+)掺杂引起晶格的畸变,降低了Li+嵌入与脱嵌的阻力,进一步证实Zr^(4+)掺杂能够改善Li_(4)Ti_(5)O_(12)负极材料的充放电效果。 展开更多
关键词 li_(4)ti_(5)o_(12) 固相烧结 掺杂 充放电
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不同方法制备Si/Li_(4)Ti_(5)O_(12)负极复合材料的研究
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作者 班月琴 王泉崴 周恒为 《化工新型材料》 CAS CSCD 北大核心 2022年第3期200-205,共6页
硅在充放电过程中体积膨胀较为严重,阻碍了硅在锂离子电池负极材料领域的应用,利用Li_(4)Ti_(5)O_(12)材料自身结构具有“零应变性”的最大优点,采用球磨法、静电纺丝法和水热法制备了Li_(4)Ti_(5)O_(12)复合材料作为锂离子电池负极材... 硅在充放电过程中体积膨胀较为严重,阻碍了硅在锂离子电池负极材料领域的应用,利用Li_(4)Ti_(5)O_(12)材料自身结构具有“零应变性”的最大优点,采用球磨法、静电纺丝法和水热法制备了Li_(4)Ti_(5)O_(12)复合材料作为锂离子电池负极材料。使用X射线衍射分析、扫描电镜和能谱仪等测试手段分别对复合材料进行了表征,并主要研究了不同方法制备的Li_(4)Ti_(5)O_(12)对纳米硅粉包覆状态对硅在充放电过程中体积改变的影响。结果表明:水热法制备的复合材料扩散系数最大,为2.17078×10^(-12)cm^(2)/s,阻抗最小,为300Ω。水热法制备的复合材料的电化学性能最佳,充放电曲线电压平台最长,首次充放电比容量分别为550mAh/g和530mAh/g,30次循环后比容量在310mAh/g,相应的库仑效应和比容量保留能力为96%和55%。 展开更多
关键词 负极材料 Si/li_(4)ti_(5)o_(12)复合材料 化学性能
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Variation of Ti Valence with Lithium Content in Lithiated/Delithiated Li_(4)Ti_(5)O_(12) Studied by X-Ray Absorption near the Edge Structure
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作者 YU Peng-Fei CUI Zhong-Hui +1 位作者 MENG Jian-Wei GUO Xiang-Xin 《Chinese Physics Letters》 SCIE CAS CSCD 2013年第3期108-111,共4页
Synchrotron-based x-ray absorption near-edge structure(XANES)spectroscopy is applied to investigate the variation of Ti valence in the discharge and charge processes of Li_(4)Ti_(5)O_(12).Through analysis of the XANES... Synchrotron-based x-ray absorption near-edge structure(XANES)spectroscopy is applied to investigate the variation of Ti valence in the discharge and charge processes of Li_(4)Ti_(5)O_(12).Through analysis of the XANES data,the average valence of Ti can be calculated,which allows quantitative determination of the ratios of Ti^(3+)/Ti^(4+) as a function of Li content in the electrodes.It is found that the ratios in the composites of Li_(4)Ti_(5)O_(12)/acetylene black(AB)-carbon are larger than those in Li_(4)Ti_(5)O_(12)/Ag/AB-carbon after the discharge to 1.1 V,indicating a larger amount of Li inserted into the former than that into the latter.This finding provides a good explanation for the fact that the Li_(4)Ti_(5)O_(12)/AB-carbon samples exhibit larger storage capacities than the Li_(4)Ti_(5)O_(12)/Ag/AB-carbon ones prepared in this work,concerning the larger Ti^(3+)/Ti^(4+) ratio and the larger amount of Li^(+) inserted in the electrode for satisfying the charge neutralization requirement. 展开更多
关键词 li_(4)ti_(5)o_(12) composites XANES
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Li_(4)Ti_(5)O_(12)-TiO_(2)异质结构负极材料助力高性能锂离子电池
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作者 欧容秀 林诺灵 林志雅 《山西化工》 2022年第8期1-3,共3页
采用溶热法制备了超薄纳米片组成的花状Li_(4)Ti_(5)O_(12)-TiO_(2)(LTO-TO_(2))空心微球。与纯LTO相比,LTO-TO异质结具有更好的储锂性能。作为锂离子电池负极材料,LTO-TO_(2)500次循环5 A/g的大电流密度下表现为高达180.9 mAh/g的可逆... 采用溶热法制备了超薄纳米片组成的花状Li_(4)Ti_(5)O_(12)-TiO_(2)(LTO-TO_(2))空心微球。与纯LTO相比,LTO-TO异质结具有更好的储锂性能。作为锂离子电池负极材料,LTO-TO_(2)500次循环5 A/g的大电流密度下表现为高达180.9 mAh/g的可逆容量,而纯LTO的放电容量只有118.4 mAh/g。其优异的电化学性能得益于其独特的分级的花状结构以及LTO与TiO_(2)互补的内在优势。LTO-TO_(2)的电化学性能得以改善主要归因于快速的Li+扩散速率、较小的电荷转移电阻和较好的电极动力学。 展开更多
关键词 li_(4)ti_(5)o_(12)-tio_(2) 异质结构 负极材料 电极动力学
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ZnO-B_(2)O_(3)玻璃对Li_(2)Zn_(3)Ti_(4)O_(12)-CaTiO_(3)复合陶瓷低温烧结及性能的影响
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作者 舒国劲 袁世逢 +4 位作者 庞锦标 窦占明 杨俊 刘凯 韩光学 《硅酸盐通报》 CAS 北大核心 2021年第10期3305-3310,共6页
采用传统固相反应法制备0.94Li_(2)Zn_(3)Ti_(4)O_(12)-0.06CaTiO_(3)(LZT-CT)复合陶瓷,采用高温熔融法制备ZnO-B_(2)O_(3)(ZB)玻璃;以ZB玻璃为烧结助剂,研究了添加不同质量分数(x=0.5%、1.0%、1.5%、2.0%和2.5%)的ZB玻璃对LZT-CT复合... 采用传统固相反应法制备0.94Li_(2)Zn_(3)Ti_(4)O_(12)-0.06CaTiO_(3)(LZT-CT)复合陶瓷,采用高温熔融法制备ZnO-B_(2)O_(3)(ZB)玻璃;以ZB玻璃为烧结助剂,研究了添加不同质量分数(x=0.5%、1.0%、1.5%、2.0%和2.5%)的ZB玻璃对LZT-CT复合陶瓷的烧结特性、物相组成、微观结构以及微波介电性能的影响。结果表明:ZB玻璃能有效地将LZT-CT复合陶瓷的烧结温度从1 175℃降低到875℃,并促进了LZT-CT复合陶瓷的致密化。当ZB玻璃掺量x≤2.5%时,LZT-CT复合陶瓷中除了LZT、CT相,没有出现其他新相。随着ZB玻璃添加量增加,复合陶瓷的体积密度、介电常数(εr)、品质因数(Q×f)均先增加后减小,谐振频率温度系数(τf)变化不大,在(-2.25~4.51)×10^(-6)/℃波动。当ZB玻璃掺量为2.0%时,LZT-CT复合陶瓷在875℃烧结2 h,获得最大体积密度(4.22 g/cm^(3))以及优异的微波介电性能,εr=23.9,Q×f=58 595 GHz,τf=-0.14×10^(-6)/℃。 展开更多
关键词 Zno-B_(2)o_(3)玻璃 0.94li_(2)Zn_(3)ti_(4)o_(12)-0.06Catio_(3)复合陶瓷 低温烧结 微波介电性能
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固相合成锂电池Li_(4)Ti_(5)O_(12)负极组织及充放电分析 被引量:1
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作者 王一格 《工程机械文摘》 2024年第3期43-45,共3页
将Li_(4)Ti_(5)O_(12)的前驱体在不同温度煅烧,用固相合成法制备Li_(4)Ti_(5)O_(12)负极材料,并对其样品进行TG-DSC、XRD和S EM表征和电化学性能测试。结果表明:在900℃煅烧前驱体,锐钛矿与Ti_(2)O_(5)反应的主要产物为LiTi_(3)O_(2)。L... 将Li_(4)Ti_(5)O_(12)的前驱体在不同温度煅烧,用固相合成法制备Li_(4)Ti_(5)O_(12)负极材料,并对其样品进行TG-DSC、XRD和S EM表征和电化学性能测试。结果表明:在900℃煅烧前驱体,锐钛矿与Ti_(2)O_(5)反应的主要产物为LiTi_(3)O_(2)。LiTi_(3)O_(2)与金红石反应生成了Li_(4)Ti_(5)O_(12),生成纯单斜相Li_(4)Ti_(5)O_(12)的最佳条件为在1100℃煅烧6 h。在0.2 C电流密度时,Li_(4)Ti_(5)O_(12)负极材料的初始容量为278.4 mAh·g^(-1),初始库伦效率为82.9%。Li_(4)Ti_(5)O_(12)具有良好的倍率容量,在1 C循环100次后,容量保持率为89%。 展开更多
关键词 锂离子电池 固相法 li_(4)ti_(5)o_(12) 电化学性能
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Novel 3D grid porous Li_(4)Ti_(5)O_(12) thick electrodes fabricated by 3D printing for high performance lithium-ion batteries 被引量:4
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作者 Changyong LIU Yin QIU +5 位作者 Yanliang LIU Kun XU Ning ZHAO Changshi LAO Jun SHEN Zhangwei CHEN 《Journal of Advanced Ceramics》 SCIE EI CAS CSCD 2022年第2期295-307,共13页
Three-dimensional(3D)grid porous electrodes introduce vertically aligned pores as a convenient path for the transport of lithium-ions(Li-ions),thereby reducing the total transport distance of Li-ions and improving the... Three-dimensional(3D)grid porous electrodes introduce vertically aligned pores as a convenient path for the transport of lithium-ions(Li-ions),thereby reducing the total transport distance of Li-ions and improving the reaction kinetics.Although there have been other studies focusing on 3D electrodes fabricated by 3D printing,there still exists a gap between electrode design and their electrochemical performance.In this study,we try to bridge this gap through a comprehensive investigation on the effects of various electrode parameters including the electrode porosity,active material particle diameter,electrode electronic conductivity,electrode thickness,line width,and pore size on the electrochemical performance.Both numerical simulations and experimental investigations are conducted to systematically examine these effects.3D grid porous Li_(4)Ti_(5)O_(12)(LTO)thick electrodes are fabricated by low temperature direct writing technology and the electrodes with the thickness of 1085μm and areal mass loading of 39.44 mg·cm^(−2) are obtained.The electrodes display impressive electrochemical performance with the areal capacity of 5.88 mAh·cm^(−2)@1.0 C,areal energy density of 28.95 J·cm^(−2)@1.0 C,and areal power density of 8.04 mW·cm^(−2)@1.0 C.This study can provide design guidelines for obtaining 3D grid porous electrodes with superior electrochemical performance. 展开更多
关键词 three-dimensional(3D)porous thick electrodes li_(4)ti_(5)o_(12)(lto) 3D printing lithium-ion(li-ion)battery
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