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Characterization and Electrochemical Properties of Nanostructured Zr-Doped Anatase TiO_2 Tubes Synthesized by Sol–Gel Template Route 被引量:1
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作者 denis p.opra Sergey V.Gnedenkov +6 位作者 Sergey L.Sinebryukhov Elena I.Voit Alexander A.Sokolov Evgeny B.Modin Anatoly B.Podgorbunsky Yury V.Sushkov Veniamin V.Zheleznov 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2017年第6期527-534,共8页
A series of nanostructured Zr-doped anatase TiO_2 tubes with the Zr/Ti molar ratio of 0.01, 0.02, 0.03, and0.09 were prepared by a sol–gel technology on a carbon fiber template. The electrochemical performance of Zr-... A series of nanostructured Zr-doped anatase TiO_2 tubes with the Zr/Ti molar ratio of 0.01, 0.02, 0.03, and0.09 were prepared by a sol–gel technology on a carbon fiber template. The electrochemical performance of Zr-doped anatase TiO_2 as anodes for rechargeable lithium batteries was investigated and compared with undoped titania. Tests represented that after 35-fold charge/discharge cycling at C/10 the reversible capacity of Zr-doped titania(Zr/Ti = 0.03) reaches 135 m A h g^(-1), while the capacity of undoped titania(Zr/Ti = 0) yielded only 50 m A h g^(-1). Based on the results of the physicochemical investigation, three reasons of improving electrochemical performance of Zr-doped titania were suggested. According to the scanning electron microscopy and transmission electron microscopy, Zr^(4+) doping induces a decrease in nanoparticle size, which facilitates the Li+diffusion. The Raman investigations show the more open structure of Zr-doped TiO_2 as compared to undoped titania due to changing of the unit cell parameters, that significantly affects on the reversibility of the insertion/extraction process. The electrochemical impedance spectroscopy results indicate that substitution of Zr^(4+) for Ti^(4+) into anatase TiO_2 has favorable effects on the conductivity. 展开更多
关键词 Li-ion batteries Anatase titania Nanostructured materials Sol–gel template process Doping Electrochemical performance
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