Three-Dimensional Branched TiO2 Architectures in Controllable Bloom for Advanced Lithium-Ion Batteries
Three-dimensional branched TiO2 architectures (3D BTA) with controllable morphologies were synthesized via a facile template-free one-pot solvothermal route. The volume ratio of deionized water (DI water) and diethylene glycol in solvothermal process is key to the formation of 3D BTA assembled by na...
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| Veröffentlicht in: | ACS applied materials & interfaces 2016-08, Vol.8 (31), p.20040-20047 |
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| container_issue | 31 |
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| container_title | ACS applied materials & interfaces |
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| creator | Wang, Shaofu Qu, Dandan Jiang, Yun Xiong, Wan-Sheng Sang, Hong-Qian He, Rong-Xiang Tai, Qidong Chen, Bolei Liu, Yumin Zhao, Xing-Zhong |
| description | Three-dimensional branched TiO2 architectures (3D BTA) with controllable morphologies were synthesized via a facile template-free one-pot solvothermal route. The volume ratio of deionized water (DI water) and diethylene glycol in solvothermal process is key to the formation of 3D BTA assembled by nanowire-coated TiO2 dendrites, which combines the advantages of 3D hierarchical structure and 1D nanoscale building blocks. Benefiting from such unique structural features, the BTA in full bloom achieved significantly increased specific surface areas and shortened Li+ ion/electrons diffusion pathway. The lithium-ion batteries based on BTA in full bloom exhibited remarkably enhanced reversible specific capacity and rate performance, attributing to the high contact area with the electrolyte and the short solid state diffusion pathway for Li+ ion/electrons promoting lithium insertion and extraction. |
| doi_str_mv | 10.1021/acsami.6b05559 |
| format | Article |
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| title | Three-Dimensional Branched TiO2 Architectures in Controllable Bloom for Advanced Lithium-Ion Batteries |
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