Journal of Radiation Research and Radiation Processing, Volume. 42, Issue 1, 010206(2024)
Effect of electron beam irradiation on the structure of Ta-doped lithium-lanthanum-zirconium-oxygen (Li6.5La3Zr1.5Ta0.5O12) solid electrolytes
References(17)
[1] Kim K J, Balaish M, Wadaguchi M et al. Solid‐state Li-metal batteries: challenges and horizons of oxide and sulfide solid electrolytes and their interfaces[J]. Advanced Energy Materials, 11, 2002689(2021).
[2] Tuo K Y, Sun C W, Liu S Q. Recent progress in and perspectives on emerging halide superionic conductors for all-solid-state batteries[J]. Electrochemical Energy Reviews, 6, 17(2023).
[3] Hu Y L, Xie X X, Li W et al. Recent progress of polymer electrolytes for solid-state lithium batteries[J]. ACS Sustainable Chemistry & Engineering, 11, 1253-1277(2023).
Hu Y, Xie X, Li W et al. Recent progress of polymer electrolytes for solid-state lithium batteries[J]. ACS Sustainable Chemistry & Engineering, 11, 1253-1277(2023).
[4] HUANG Li. Preparation of doped lithium-lanthanum-zirconium-oxygen electrolytes and their air stability studies[D](2022).
[5] ZHANG Yang. Modification studies of garnet-type solid-state electrolyte/negative electrode interface in solid-state lithium metal batteries[D](2020).
[6] Shi H T, Zhang X Y, Min C Y et al. A photolithography tailored undulating configuration to confine nanostructures on microtubes via a "stress-induced" effect for boosting sodium ion storage[J]. Journal of Materials Chemistry C, 10, 13242-13253(2022).
[7] Li N, Wang Y, Liu L S et al. “Self-doping” defect engineering in SnP3@gamma-irradiated hard carbon anode for rechargeable sodium storage[J]. Journal of Colloid and Interface Science, 592, 279-290(2021).
[8] Krauskopf T, Dippel R, Hartmann H et al. Lithium-metal growth kinetics on LLZO garnet-type solid electrolytes[J]. Joule, 3, 2030-2049(2019).
[9] Xie X W, Xing J J, Hu D L et al. Lithium expulsion from the solid-state electrolyte Li6.4La3Zr1.4Ta0.6O12 by controlled electron injection in a SEM[J]. ACS Applied Materials & Interfaces, 10, 5978-5983(2018).
[10] Liang C, Zhang X, Xia S X et al. Unravelling the room-temperature atomic structure and growth kinetics of lithium metal[J]. Nature Communications, 11, 5367(2020).
[11] Peng X X, Tu Q S, Zhang Y Q et al. Unraveling Li growth kinetics in solid electrolytes due to electron beam charging[J]. Science Advances, 9, eabq3285(2023).
[12] Kresse G, Joubert D. From ultrasoft pseudopotentials to the projector augmented-wave method[J]. Physical Review B, 59, 1758-1775(1999).
[13] SHEN Liwei. Synthesis and modification of garnet-type solid electrolytes[D](2020).
[14] David I N, Thompson T, Wolfenstine J et al. Microstructure and Li-ion conductivity of hot-pressed cubic Li7La3Zr2O12[J]. Journal of the American Ceramic Society, 98, 1209-1214(2015).
[15] Tietz F, Wegener T, Gerhards M T et al. Synthesis and Raman micro-spectroscopy investigation of Li7La3Zr2O12[J]. Solid State Ionics, 230, 77-82(2013).
[16] Han F D, Westover A S, Yue J E et al. High electronic conductivity as the origin of lithium dendrite formation within solid electrolytes[J]. Nature Energy, 4, 187-196(2019).
Tools
Get Citation
Copy Citation Text
Daoxi WANG, Haiting SHI, Shengkai LIU, Ruiqi SHAO, Shuo WANG, Ming ZENG, Zhiwei XU. Effect of electron beam irradiation on the structure of Ta-doped lithium-lanthanum-zirconium-oxygen (Li6.5La3Zr1.5Ta0.5O12) solid electrolytes[J]. Journal of Radiation Research and Radiation Processing, 2024, 42(1): 010206
Paper Information
Category: Research Articles
Received: Sep. 13, 2023
Accepted: Oct. 24, 2023
Published Online: Mar. 27, 2024
The Author Email: Zhiwei XU (徐志伟)
© Copyright 2018-2021 | Chinese Laser Press.
All Rights Reserved 沪ICP备15018463号-20