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Literature DB >> 26269981

Tailored Oxygen Framework of Li4Ti5O12 Nanorods for High-Power Li Ion Battery.

Kyeongse Song¹, Dong-Hwa Seo², Mi Ru Jo¹, Yong-Il Kim³, Kisuk Kang², Yong-Mook Kang¹.

Abstract

Here we designed the kinetically favored Li4Ti5O12 by modifying its crystal structure to improve intrinsic Li diffusivity for high power density. Our first-principles calculations revealed that the substituted Na expanded the oxygen framework of Li4Ti5O12 and facilitated Li ion diffusion in Li4Ti5O12 through 3-D high-rate diffusion pathway secured by Na ions. Accordingly, we synthesized sodium-substituted Li4Ti5O12 nanorods having not only a morphological merit from 1-D nanostructure engineering but also sodium substitution-induced open framework to attain ultrafast Li diffusion. The new material exhibited an outstanding cycling stability and capacity retention even at 200 times higher current density (20 C) compared with the initial condition (0.1 C).

Entities: Chemical

Keywords: Li rechargeable battery; anode; ion exchange; kinetic; lithium titanium oxide

Year: 2014 PMID： 26269981 DOI： 10.1021/jz5002924

Source DB: PubMed Journal: J Phys Chem Lett ISSN： 1948-7185 Impact factor: 6.475

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Cited

6 in total

1. Investigating the Perovskite Ag_1-3xLa_xNbO₃ as a High-Rate Negative Electrode for Li-Ion Batteries.

Authors: Etienne Le Calvez; Julio César Espinosa-Angeles; Grace J Whang; Nicolas Dupré; Bruce S Dunn; Olivier Crosnier; Thierry Brousse
Journal: Front Chem Date: 2022-04-13 Impact factor: 5.545

2. Surface-Amorphous and Oxygen-Deficient Li₃VO_4-δ as a Promising Anode Material for Lithium-Ion Batteries.

Authors: Liang Chen; Xiaolei Jiang; Nana Wang; Jie Yue; Yitai Qian; Jian Yang
Journal: Adv Sci (Weinh) Date: 2015-06-10 Impact factor: 16.806

3. Preparation of Ce- and La-Doped Li₄Ti₅O₁₂ Nanosheets and Their Electrochemical Performance in Li Half Cell and Li₄Ti₅O₁₂/LiFePO₄ Full Cell Batteries.

Authors: Meng Qin; Yueming Li; Xiao-Jun Lv
Journal: Nanomaterials (Basel) Date: 2017-06-20 Impact factor: 5.076

Tailored Oxygen Framework of Li4Ti5O12 Nanorods for High-Power Li Ion Battery.

1. Investigating the Perovskite Ag_1-3xLa_xNbO₃ as a High-Rate Negative Electrode for Li-Ion Batteries.

2. Surface-Amorphous and Oxygen-Deficient Li₃VO_4-δ as a Promising Anode Material for Lithium-Ion Batteries.

3. Preparation of Ce- and La-Doped Li₄Ti₅O₁₂ Nanosheets and Their Electrochemical Performance in Li Half Cell and Li₄Ti₅O₁₂/LiFePO₄ Full Cell Batteries.

4. Hierarchically structured lithium titanate for ultrafast charging in long-life high capacity batteries.

5. Engineering Na-Mo-O/Graphene Oxide Composites with Enhanced Electrochemical Performance for Lithium Ion Batteries.

Review 6. Tin dioxide-based nanomaterials as anodes for lithium-ion batteries.

Tailored Oxygen Framework of Li4Ti5O12 Nanorods for High-Power Li Ion Battery.

1. Investigating the Perovskite Ag1-3xLaxNbO3 as a High-Rate Negative Electrode for Li-Ion Batteries.

2. Surface-Amorphous and Oxygen-Deficient Li3VO4-δ as a Promising Anode Material for Lithium-Ion Batteries.

3. Preparation of Ce- and La-Doped Li₄Ti₅O12 Nanosheets and Their Electrochemical Performance in Li Half Cell and Li₄Ti₅O12/LiFePO₄ Full Cell Batteries.

4. Hierarchically structured lithium titanate for ultrafast charging in long-life high capacity batteries.

5. Engineering Na-Mo-O/Graphene Oxide Composites with Enhanced Electrochemical Performance for Lithium Ion Batteries.

Review 6. Tin dioxide-based nanomaterials as anodes for lithium-ion batteries.

1. Investigating the Perovskite Ag_1-3xLa_xNbO₃ as a High-Rate Negative Electrode for Li-Ion Batteries.

2. Surface-Amorphous and Oxygen-Deficient Li₃VO_4-δ as a Promising Anode Material for Lithium-Ion Batteries.

3. Preparation of Ce- and La-Doped Li₄Ti₅O₁₂ Nanosheets and Their Electrochemical Performance in Li Half Cell and Li₄Ti₅O₁₂/LiFePO₄ Full Cell Batteries.