Electrochemical Properties of Lithium Titanate Synthesized by Reassembly of Nanosheets

机译：用纳米片重新组装合成钛酸锂的电化学性质

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The electrochemical properties of titanate nanosheets and layer-structured lithium titanate obtained by restacking of titanate nanosheets were investigated in comparison with those of layer-structured lithium titanate obtained by ion-exchange. Restacked lithium titanate was synthesized by reassembling titanate nanosheets with LiOH aqueous solution. The nanosheets were 50-200 nm wide and 1.7 nm thick. The crystal structure inside the nanosheets was the same as that the of parent material. The oxidation current peaks observed in cyclic voltammograms of titanate nanosheets and restacked material were 1.6 V (Li/Li{sup}+), which was lower than that of ion-exchanged material by 0.3 V. The discharge capacity of restacked material was 96 mAh g{sup}(-1), indicating that 32% of the titanium ions were reduced.

机译：与通过离子交换获得的层结构化锂钛合金的钛酸钛酸钛进行研究，研究了钛酸纳米片和层结构锂钛酸钛的电化学性质。通过将钛酸盐纳米片与LiOH水溶液重新组装来合成替补钛酸锂。纳米片宽50-200米，厚1.7纳米。纳米片内的晶体结构与母材的晶体结构相同。在钛酸盐纳米液和恢复材料的循环伏安图中观察到的氧化电流峰为1.6V（Li / Li {Sup} +），其低于离子交换材料的0.3 V.重新包装材料的放电容量为96mAh G {sup}（ - 1），表明将32％的钛离子降低。

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《ELectronics Division Meeting of the Ceramic Society of Japan》|2007年||共4页
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作者
Keigo Sato; Shinya Suzuki; Masaru Miyayama;
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中图分类 TB3-53;
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Titanate; Nanosheets; Reassembly; Layer structure; Lithium intercalation; Lithium ion battery;

机译：钛酸钛;纳米液;重新组装;层结构;锂嵌入式;锂离子电池;

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1. Electrochemical Properties of Lithium Titanate Synthesized by Reassembly of Nanosheets [J] . Keigo Sato, Shinya Suzuki, Masaru Miyayama Key Engineering Materials . 2007,第期

机译：纳米片的重组合成钛酸锂的电化学性质
2. Electrochemical performance of low concentration Al doped-lithium titanate anode synthesized via sol-gel for lithium ion capacitor applications [J] . Sohib Ahmad, Priyono Slamet, Widayatno Wahyu Bambang, Journal of Energy Storage . 2020,第Juna期

机译：低浓度Al掺杂钛酸锂阳极的电化学性能通过溶胶 - 凝胶合成锂离子电容器应用
3. High-rate Electrode Properties of Li-Mn-oxide Synthesized by Reassembly of MnO_2 Nanosheets for Li-Ion Battery [J] . Shinya Suzuki, Seijiro Takahashi, Keigo Sato, Key Engineering Materials . 2006,第期

机译：锂离子电池用MnO_2纳米片的重新组装合成的Li-Mn-氧化物的高速电极性能
4. Electrochemical Properties of Lithium Titanate Synthesized by Reassembly of Nanosheets [C] . Keigo Sato, Shinya Suzuki, Masaru Miyayama ELectronics Division Meeting of the Ceramic Society of Japan . 2007

机译：用纳米片重新组装合成钛酸锂的电化学性质
5. Analysis and performance of electrochemically synthesized barium titanate films and electrolytic capacitors. [D] . Venigalla, Sridhar. 1995

机译：电化学合成钛酸钡薄膜和电解电容器的分析和性能。
6. Anatase TiO2 ultrathin nanobelts derived from room-temperature-synthesized titanates for fast and safe lithium storage [O] . Wei Wen, Jin-ming Wu, Yin-zhu Jiang, -1

机译：室温合成钛酸酯衍生的锐钛矿型TiO2超薄纳米带可快速安全地存储锂
7. Synthesis and Electrochemical Properties of Ramsdellite Type Lithium Titanate Anode Materials by Spray Pyrolysis [O] . 荻原隆, 大村卓也, 小寺喬之, 2013

机译：喷雾热解法研究了Ramsdellite型钛酸锂阳极材料的合成及电化学性能
8. Exfoliation and Reassembly of Cobalt Oxide Nanosheets into a Reversible Lithium-Ion Battery Cathode. [R] . Compton, O. C., Abouimrane, A., An, Z., 2012

机译：氧化钴纳米片的剥离和重组成可逆锂离子电池正极。

Electrochemical Properties of Lithium Titanate Synthesized by Reassembly of Nanosheets

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