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References (318)
-
E. Peled (1979)
The Electrochemical Behavior of Alkali and Alkaline Earth Metals in Nonaqueous Battery Systems—The Solid Electrolyte Interphase ModelJournal of The Electrochemical Society, 126
-
Zhong Fu, Xiang Chen, Nana Yao, Xin Shen, Xia‐Xia Ma, Shuai Feng, Shuhao Wang, Rui Zhang, Linfeng Zhang, Qiang Zhang (2022)
The chemical origin of temperature-dependent lithium-ion concerted diffusion in sulfide solid electrolyte Li10GeP2S12Journal of Energy Chemistry
-
A. Kuhn, Oliver Gerbig, Changbao Zhu, F. Falkenberg, J. Maier, B. Lotsch (2014)
A new ultrafast superionic Li-conductor: ion dynamics in Li11Si2PS12 and comparison with other tetragonal LGPS-type electrolytes.Physical chemistry chemical physics : PCCP, 16 28
-
H. Gabrisch, R. Yazami, B. Fultz (2003)
A transmission electron microscopy study of cycled LiCoO2Journal of Power Sources, 119
-
Jianwen Liang, Xiaona Li, Shuo Wang, Keegan Adair, Weihan Li, Yang Zhao, Changhong Wang, Yongfeng Hu, Li Zhang, Shangqian Zhao, Shi-gang Lu, Huan Huang, Ruying Li, Yifei Mo, X. Sun (2020)
Site-Occupation-Tuned Superionic LixScCl3+x Halide Solid Electrolytes for All-Solid-State Batteries.Journal of the American Chemical Society
-
S. Muy, J. Voss, Roman Schlem, Raimund Koerver, S. Sedlmaier, F. Maglia, P. Lamp, W. Zeier, Y. Shao-horn (2019)
High-Throughput Screening of Solid-State Li-Ion Conductors Using Lattice-Dynamics DescriptorsiScience, 16
-
P. Bruce, A. West (1983)
The A‐C Conductivity of Polycrystalline LISICON, Li2 + 2x Zn1 − x GeO4, and a Model for Intergranular Constriction ResistancesJournal of The Electrochemical Society, 130
-
Zhenming Xu, Xin Chen, Ronghan Chen, Xin Li, Hong Zhu (2019)
Anion charge-lattice volume dependent Li ion migration in compounds with the face-centered cubic anion frameworksarXiv: Applied Physics
-
Kiarash Gordiz, S. Muy, W. Zeier, Y. Shao-horn, A. Henry (2020)
Enhancement of ion diffusion by targeted phonon excitationCell Reports Physical Science, 2
-
A. Rahman (1964)
Correlations in the Motion of Atoms in Liquid ArgonPhysical Review, 136
-
Lixue Cheng, Nikola Kovachki, Matthew Welborn, Thomas Miller (2019)
Regression-clustering for Improved Accuracy and Training Cost with Molecular-Orbital-Based Machine LearningJournal of chemical theory and computation
-
Y. Kato, Satoshi Hori, T. Saito, Kota Suzuki, M. Hirayama, Akio Mitsui, M. Yonemura, H. Iba, R. Kanno (2016)
High-power all-solid-state batteries using sulfide superionic conductorsNature Energy, 1
-
T. Zaiss, M. Ortner, R. Murugan, W. Weppner (2010)
Fast ionic conduction in cubic hafnium garnet Li7La3Hf2O12Ionics, 16
-
Xingfeng He, Q. Bai, Yunsheng Liu, Adelaide Nolan, C. Ling, Yifei Mo (2019)
Crystal Structural Framework of Lithium Super‐Ionic ConductorsAdvanced Energy Materials, 9
-
Laidong Zhou, K. Park, Xiaoqi Sun, F. Laler̀e, Torben Adermann, P. Hartmann, L. Nazar (2018)
Solvent-Engineered Design of Argyrodite Li6PS5X (X = Cl, Br, I) Solid Electrolytes with High Ionic ConductivityACS Energy Letters
-
S. Shi, Peng Lu, Zhongyi Liu, Y. Qi, L. Hector, Hong Li, S. Harris (2012)
Direct calculation of Li-ion transport in the solid electrolyte interphase.Journal of the American Chemical Society, 134 37
-
E. Gavilán-Arriazu, M. Mercer, D. Barraco, H. Hoster, E. Leiva (2021)
Kinetic Monte Carlo simulations applied to Li-ion and post Li-ion batteries: a key link in the multi-scale chainProgress in Energy, 3
-
J. Langer, V. Epp, P. Heitjans, F. Mautner, M. Wilkening (2013)
Lithium motion in the anode material LiC 6 as seen via time-domain 7 Li NMRPhysical Review B, 88
-
J. Dawson, Tavleen Attari, Hungru Chen, Steffen Emge, K. Johnston, M. Islam (2018)
Elucidating lithium-ion and proton dynamics in anti-perovskite solid electrolytesEnergy and Environmental Science, 11
-
M. Monchak, T. Hupfer, A. Senyshyn, H. Boysen, D. Chernyshov, T. Hansen, K. Schell, E. Bucharsky, Michael Hoffmann, H. Ehrenberg (2016)
Lithium Diffusion Pathway in Li(1.3)Al(0.3)Ti(1.7)(PO4)3 (LATP) Superionic Conductor.Inorganic chemistry, 55 6
-
C. Zener (1950)
Ring diffusion in metalsActa Crystallographica, 3
-
M. Smoluchowski
Zur kinetischen Theorie der Brownschen Molekularbewegung und der SuspensionenAnnalen der Physik, 326
-
Wenlong Cai, Chong Yan, Yu‐Xing Yao, Lei Xu, Rui Xu, Li-li Jiang, Jiaqi Huang, Qiang Zhang (2020)
Rapid Lithium Diffusion in Order@Disorder Pathways for Fast‐Charging Graphite AnodesSmall Structures, 1
-
Wv M (1937)
588Z Tech Phys, 18
-
C. Wen, B. Boukamp, R. Huggins, W. Weppner (1979)
Thermodynamic and Mass Transport Properties of “ LiAl ”Journal of The Electrochemical Society, 126
-
J. Dahn, U. Sacken, M. Juzkow, H. Al‐Janaby (1991)
Rechargeable LiNiO2 / Carbon CellsJournal of The Electrochemical Society, 138
-
Jian-Fang Wu, Enyi Chen, Yaoshan Yu, Lin Liu, Yue Wu, W. Pang, V. Peterson, Xin Guo (2017)
Gallium-Doped Li7La3Zr2O12 Garnet-Type Electrolytes with High Lithium-Ion Conductivity.ACS applied materials & interfaces, 9 2
-
S. Ong, Yifei Mo, W. Richards, Lincoln Miara, H. Lee, G. Ceder (2013)
Phase stability, electrochemical stability and ionic conductivity of the Li10±1MP2X12 (M = Ge, Si, Sn, Al or P, and X = O, S or Se) family of superionic conductorsEnergy and Environmental Science, 6
-
N. Takami, A. Satoh, M. Hara, T. Ohsaki (1995)
Structural and Kinetic Characterization of Lithium Intercalation into Carbon Anodes for Secondary Lithium BatteriesJournal of The Electrochemical Society, 142
-
W. Roberts-Austen
Bakerian Lecture: On the Diffusion of MetalsPhilosophical Transactions of the Royal Society A, 187
-
Frank, Breier, Elsässer, Fähnle (1996)
First-Principles Calculations of Absolute Concentrations and Self-Diffusion Constants of Vacancies in Lithium.Physical review letters, 77 3
-
Mingfu He, Ruiduo Guo, Gustavo Hobold, Haining Gao, Betar Gallant (2019)
The intrinsic behavior of lithium fluoride in solid electrolyte interphases on lithiumProceedings of the National Academy of Sciences, 117
-
Rui Xu, Xin‐Bing Cheng, Chong Yan, Xue‐Qiang Zhang, Ye Xiao, Chen‐Zi Zhao, Jiaqi Huang, Qiang Zhang (2019)
Artificial Interphases for Highly Stable Lithium Metal AnodeMatter
-
U. Alpen, A. Rabenau, G. Talat (1977)
Ionic conductivity in Li3N single crystalsApplied Physics Letters, 30
-
Haifeng Wang, Y. Jang, Biying Huang, D. Sadoway, Y. Chiang (1999)
Electron microscopic characterization of electrochemically cycled LiCoO2 and Li(Al, Co) O2 battery cathodesJournal of Power Sources, 81
-
Schlem R (2020)
9ACS Appl Energy Mater, 3
-
Ming Xu, Min‐Sik Park, Jae-myung Lee, Taeyoung Kim, Y. Park, E. Ma (2012)
Mechanisms of Li + transport in garnet-type cubic Li 3+x La 3 M 2 O 12 (M = Te, Nb, Zr)Physical Review B, 85
-
Qiu He, Bin Yu, Zhaohuai Li, Yan Zhao (2019)
Density Functional Theory for Battery MaterialsEnergy & Environmental Materials, 2
-
Xiang Chen, Hao‐Ran Li, Xin Shen, Qiang Zhang (2018)
The Origin of the Reduced Reductive Stability of Ion-Solvent Complexes on Alkali and Alkaline Earth Metal Anodes.Angewandte Chemie, 57 51
-
A. Hayashi, Shigenori Hama, H. Morimoto, M. Tatsumisago, T. Minami (2004)
Preparation of Li2S–P2S5 Amorphous Solid Electrolytes by Mechanical MillingJournal of the American Ceramic Society, 84
-
X Li, J Liang, N Chen, J Luo, KR Adair, C Wang (2019)
Water‐mediated synthesis of a superionic halide solid electrolyte, 58
-
Shinichiroh Iwamura, H. Nishihara, Y. Ono, H. Morito, H. Yamane, H. Nara, T. Osaka, T. Kyotani (2015)
Li-Rich Li-Si Alloy As A Lithium-Containing Negative Electrode Material Towards High Energy Lithium-Ion BatteriesScientific Reports, 5
-
Jianjun Yang, J. Tse (2011)
Li ion diffusion mechanisms in LiFePO4: an ab initio molecular dynamics study.The journal of physical chemistry. A, 115 45
-
Kyusung Park, Byeong-Chul Yu, Ji-Won Jung, Yutao Li, Weidong Zhou, Hongcai Gao, S. Son, J. Goodenough (2016)
Electrochemical Nature of the Cathode Interface for a Solid-State Lithium-Ion Battery: Interface between LiCoO2 and Garnet-Li7La3Zr2O12Chemistry of Materials, 28
-
T. Asano, A. Sakai, Satoru Ouchi, M. Sakaida, Akinobu Miyazaki, S. Hasegawa (2018)
Solid Halide Electrolytes with High Lithium‐Ion Conductivity for Application in 4 V Class Bulk‐Type All‐Solid‐State BatteriesAdvanced Materials, 30
-
D. Fischer, Peter Duwe, S. Indris, P. Heitjans (2004)
Tracer diffusion measurements in solid lithium: a test case for the comparison between NMR in static and pulsed magnetic field gradients after upgrading a standard solid state NMR spectrometer.Solid state nuclear magnetic resonance, 26 2
-
R. Kanno, M. Murayama (2001)
Lithium Ionic Conductor Thio-LISICON: The Li2 S GeS2 P 2 S 5 SystemJournal of The Electrochemical Society, 148
-
A. Kim, F. Strauss, T. Bartsch, J. Teo, Toru Hatsukade, A. Mazilkin, J. Janek, P. Hartmann, T. Brezesinski (2019)
Stabilizing Effect of a Hybrid Surface Coating on a Ni-Rich NCM Cathode Material in All-Solid-State BatteriesChemistry of Materials
-
Anton Ven, M. Aydinol, G. Ceder, G. Kresse, J. Hafner (1998)
First-principles investigation of phase stability in Li x CoO 2Physical Review B, 58
-
Hong Yuan, Jia Liu, Yang Lu, Chen‐Zi Zhao, Xin‐Bing Cheng, Haoxiong Nan, Quanbing Liu, Jiaqi Huang, Qiang Zhang (2020)
Toward Practical All-solid-state Batteries with Sulfide Electrolyte: A ReviewChemical Research in Chinese Universities, 36
-
Yuming Chen, Ziqiang Wang, Xiaoyan Li, X. Yao, Chao Wang, Yutao Li, Weijiang Xue, Daiwei Yu, So Kim, Fei Yang, A. Kushima, Guoge Zhang, Haitao Huang, Nan Wu, Y. Mai, J. Goodenough, Ju Li (2020)
Li metal deposition and stripping in a solid-state battery via Coble creepNature, 578
-
J. Perdew, Yue Wang (1992)
Accurate and simple analytic representation of the electron-gas correlation energy.Physical review. B, Condensed matter, 45 23
-
S. Lorger, Robert Usiskin, J. Maier (2018)
Transport and Charge Carrier Chemistry in Lithium SulfideAdvanced Functional Materials, 29
-
H. Aono, E. Sugimoto, Y. Sadaoka, N. Imanaka, G. Adachi (1990)
Ionic Conductivity of Solid Electrolytes Based on Lithium Titanium PhosphateJournal of The Electrochemical Society, 137
-
Yunok Kim, Woosung Choi, Ok-Hee Kim, Hyunyoung Park, Soyeong Yun, R. Thangavel, Yong‐Hun Cho, W. Yoon (2021)
Dual lithium storage of Pt electrode: alloying and reversible surface layerJournal of Materials Chemistry A
-
S. Franger, F. Cras, C. Bourbon, H. Rouault (2002)
LiFePO4 Synthesis Routes for Enhanced Electrochemical PerformanceElectrochemical and Solid State Letters, 5
-
Gordiz K (2021)
100431Cell Rep Phys Sci, 2
-
R. Goc (1998)
Calculation of the NMR second moment for materials with different types of internal rotation.Solid state nuclear magnetic resonance, 13 1-2
-
Marius Amereller, M. Whittingham (2004)
Lithium batteries and cathode materials.Chemical reviews, 104 10
-
L. Dhar, J. Rogers, K. Nelson (1994)
Time-resolved vibrational spectroscopy in the impulsive limitChemical Reviews, 94
-
Yang Lu, Chen‐Zi Zhao, Rui Zhang, Hong Yuan, Li-Peng Hou, Zhongwang Fu, Xiang Chen, Jiaqi Huang, Qiang Zhang (2021)
The carrier transition from Li atoms to Li vacancies in solid-state lithium alloy anodesScience Advances, 7
-
Rowena Brugge, R. Chater, J. Kilner, A. Aguadero (2021)
Experimental determination of Li diffusivity in LLZO using isotopic exchange and FIB-SIMSJournal of Physics: Energy, 3
-
J. Tarascon, M. Armand (2001)
Issues and challenges facing rechargeable lithium batteriesNature, 414
-
Zhizhen Zhang, L. Nazar (2022)
Exploiting the paddle-wheel mechanism for the design of fast ion conductorsNature Reviews Materials, 7
-
Ana Martínez-Juárez, C. Pecharromán, J. Iglesias, J. Rojo (1998)
Relationship between Activation Energy and Bottleneck Size for Li+ Ion Conduction in NASICON Materials of Composition LiMM‘(PO4)3; M, M‘ = Ge, Ti, Sn, HfJournal of Physical Chemistry B, 102
-
S. Narayanan, Greg Hitz, E. Wachsman, V. Thangadurai (2015)
Effect of Excess Li on the Structural and Electrical Properties of Garnet-Type Li6La3Ta1.5Y0.5O12Journal of The Electrochemical Society, 162
-
(1937)
Relation between the energy constant and the quantity constant in the conductivity–temperature formula of oxide semiconductors -
Einstein A (1905)
549Ann Phys, 322
-
A. Urban, D. Seo, G. Ceder (2016)
Computational understanding of Li-ion batteries, 2
-
G. Dathar, D. Sheppard, K. Stevenson, G. Henkelman (2011)
Calculations of Li-Ion Diffusion in Olivine PhosphatesChemistry of Materials, 23
-
S. Muy, Roman Schlem, Y. Shao-horn, W. Zeier (2020)
Phonon–Ion Interactions: Designing Ion Mobility Based on Lattice DynamicsAdvanced Energy Materials, 11
-
Austin Sendek, E. Cubuk, Evan Antoniuk, Gowoon Cheon, Yi Cui, E. Reed (2018)
Machine Learning-Assisted Discovery of Solid Li-Ion Conducting MaterialsChemistry of Materials
-
A. Ramasubramanian, Vitaliy Yurkiv, Tara Foroozan, Marco Ragone, R. Shahbazian‐Yassar, F. Mashayek (2019)
Lithium Diffusion Mechanism through Solid–Electrolyte Interphase in Rechargeable Lithium BatteriesThe Journal of Physical Chemistry C
-
B. Morgan (2020)
Mechanistic Origin of Superionic Lithium Diffusion in Anion-Disordered Li6PS5X ArgyroditesChemistry of Materials, 33
-
Guangmin Zhou, Da‐Wei Wang, Feng Li, Lili Zhang, Na Li, Zhong Wu, L. Wen, G. Lu, Hui‐Ming Cheng (2010)
Graphene-Wrapped Fe(3)O(4) Anode Material with Improved Reversible Capacity and Cyclic Stability for Lithium Ion BatteriesChemistry of Materials, 22
-
Xiaogang Han, Yunhui Gong, Kun Fu, Xingfeng He, Greg Hitz, J. Dai, A. Pearse, Boyang Liu, Howard Wang, G. Rubloff, Yifei Mo, V. Thangadurai, E. Wachsman, Liangbing Hu (2017)
Negating interfacial impedance in garnet-based solid-state Li metal batteries.Nature materials, 16 5
-
Thorben Krauskopf, H. Hartmann, W. Zeier, J. Janek (2019)
Toward a Fundamental Understanding of the Lithium Metal Anode in Solid-State Batteries-An Electrochemo-Mechanical Study on the Garnet-Type Solid Electrolyte Li6.25Al0.25La3Zr2O12.ACS applied materials & interfaces, 11 15
-
Xin‐Bing Cheng, Chen‐Zi Zhao, Yu‐Xing Yao, He Liu, Qiang Zhang (2019)
Recent Advances in Energy Chemistry between Solid-State Electrolyte and Safe Lithium-Metal AnodesChem
-
J. Perdew, K. Burke, M. Ernzerhof (1996)
Generalized Gradient Approximation Made Simple.Physical review letters, 77 18
-
Noriaki Kamaya, Kenji Homma, Yuichiro Yamakawa, M. Hirayama, R. Kanno, M. Yonemura, T. Kamiyama, Y. Kato, Shigenori Hama, K. Kawamoto, Akio Mitsui (2011)
A lithium superionic conductor.Nature materials, 10 9
-
Nicolás Flores-González, Nicoló Minafra, Georg Dewald, Hazel Reardon, Ronald Smith, S. Adams, W. Zeier, D. Gregory (2021)
Mechanochemical Synthesis and Structure of Lithium Tetrahaloaluminates, LiAlX4 (X = Cl, Br, I): A Family of Li-Ion Conducting Ternary HalidesACS Materials Letters, 3
-
B. Alder, T. Wainwright (1957)
Phase Transition for a Hard Sphere SystemJournal of Chemical Physics, 27
-
G. Ceder, K. Persson, Y. Hinuma, Y. Meng, Anton Ven (2010)
Thermodynamic and kinetic properties of the Li-graphite system from first-principles calculations -
Yunbing Ran, Zheyi Zou, Bo Liu, Da Wang, Bowei Pu, Penghui Mi, Wei Shi, Yajie Li, Bing He, Ziheng Lu, Xia Lu, Baihai Li, S. Shi (2021)
Towards prediction of ordered phases in rechargeable battery chemistry via group–subgroup transformationnpj Computational Materials, 7
-
Roman Schlem, S. Muy, N. Prinz, A. Banik, Y. Shao-horn, M. Zobel, W. Zeier (2019)
Mechanochemical Synthesis: A Tool to Tune Cation Site Disorder and Ionic Transport Properties of Li3MCl6 (M = Y, Er) Superionic ConductorsAdvanced Energy Materials, 10
-
J. Tarascon (2010)
Key challenges in future Li-battery researchPhilosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 368
-
Rong Xu, Fang Liu, Y. Ye, Hao Chen, Rachel Yang, Yinxing Ma, Wenxiao Huang, J. Wan, Yi Cui (2021)
A Morphologically Stable Li/Electrolyte Interface for All‐Solid‐State Batteries Enabled by 3D‐Micropatterned GarnetAdvanced Materials, 33
-
M. Weiß, R. Ruess, J. Kasnatscheew, Yehonatan Levartovsky, Natasha Levy, Philip Minnmann, L. Stolz, T. Waldmann, M. Wohlfahrt‐Mehrens, D. Aurbach, M. Winter, Y. Ein‐Eli, J. Janek (2021)
Fast Charging of Lithium‐Ion Batteries: A Review of Materials AspectsAdvanced Energy Materials, 11
-
W. Weppner, R. Huggins (1977)
Ionic Conductivity of Solid and Liquid LiAlCl4Journal of The Electrochemical Society, 124
-
Ying Zhang, Xingfeng He, Zhiqian Chen, Q. Bai, Adelaide Nolan, Charles Roberts, D. Banerjee, T. Matsunaga, Yifei Mo, Chen Ling (2019)
Unsupervised discovery of solid-state lithium ion conductorsNature Communications, 10
-
L. Huynh, C. Ha, V. Nguyen, Dinh Nguyen, M. Le, Van Tran (2019)
Structure and Electrochemical Properties of Li4Ti5O12 Prepared via Low-Temperature PrecipitationJournal of Chemistry
-
S. Ganapathy, A. Vasileiadis, J. Heringa, M. Wagemaker (2017)
The Fine Line between a Two‐Phase and Solid‐Solution Phase Transformation and Highly Mobile Phase Interfaces in Spinel Li4+xTi5O12Advanced Energy Materials, 7
-
C. Kuss, G. Liang, S. Schougaard (2012)
Atomistic modeling of site exchange defects in lithium iron phosphate and iron phosphateJournal of Materials Chemistry, 22
-
A. Lodding, J. Mundy, A. Ott (1970)
Isotope Inter-Diffusion and Self-Diffusion in Solid Lithium MetalPhysica Status Solidi B-basic Solid State Physics, 38
-
Jianwen Kou, Lai Chen, Yuefeng Su, Li-ying Bao, Jing Wang, Ning Li, Weikang Li, Meng Wang, Shi Chen, Feng Wu (2015)
Role of Cobalt Content in Improving the Low-Temperature Performance of Layered Lithium-Rich Cathode Materials for Lithium-Ion Batteries.ACS applied materials & interfaces, 7 32
-
Wenjiao Zhao, Jin Yi, P. He, Haoshen Zhou (2019)
Solid-State Electrolytes for Lithium-Ion Batteries: Fundamentals, Challenges and PerspectivesElectrochemical Energy Reviews, 2
-
Michel Trudeau (1999)
Advanced Materials for Energy StorageMRS Bulletin, 24
-
A. Padhi, K. Nanjundaswamy, J. Goodenough (1997)
Phospho‐olivines as Positive‐Electrode Materials for Rechargeable Lithium BatteriesJournal of The Electrochemical Society, 144
-
Ping Yu, B. Popov, J. Ritter, R. White (1999)
Determination of the Lithium Ion Diffusion Coefficient in GraphiteJournal of The Electrochemical Society, 146
-
KyuJung Jun, Yingzhi Sun, Yihan Xiao, Yan Zeng, Ryounghee Kim, Haegyeom Kim, Lincoln Miara, D. Im, Yan Wang, G. Ceder (2022)
Lithium superionic conductors with corner-sharing frameworksNature Materials, 21
-
Y. Hwa, J. Sung, Bin Wang, Cheol‐Min Park, H. Sohn (2012)
Nanostructured Zn-based composite anodes for rechargeable Li-ion batteriesJournal of Materials Chemistry, 22
-
J. Behler (2021)
Four Generations of High-Dimensional Neural Network Potentials.Chemical reviews
-
V. Thangadurai, W. Weppner (2005)
Li6ALa2Ta2O12 (A = Sr, Ba): Novel Garnet‐Like Oxides for Fast Lithium Ion ConductionAdvanced Functional Materials, 15
-
S. Lorger, Robert Usiskin, J. Maier (2019)
Transport and Charge Carrier Chemistry in Lithium OxideJournal of The Electrochemical Society
-
J. Tersoff (1989)
Modeling solid-state chemistry: Interatomic potentials for multicomponent systems.Physical review. B, Condensed matter, 39 8
-
J. 高, Yu-Sheng 赵, S. 施, H. 李 (2015)
Lithium-ion transport in inorganic solid state electrolyteChinese Physics B, 25
-
J. Behler (2016)
Perspective: Machine learning potentials for atomistic simulations.The Journal of chemical physics, 145 17
-
Ying Jin, P. McGinn (2011)
Al-doped Li7La3Zr2O12 synthesized by a polymerized complex methodJournal of Power Sources, 196
-
M. Murayama, R. Kanno, Michihiko Irie, S. Ito, Takayuki Hata, N. Sonoyama, Y. Kawamoto (2002)
Synthesis of new lithium ionic conductor thio-LISICON-lithium silicon sulfides systemIEEE Journal of Solid-state Circuits, 168
-
Davide Stefano, A. Miglio, K. Robeyns, Y. Filinchuk, Marine Lechartier, A. Senyshyn, Hiroyuki Ishida, Stefan Spannenberger, Bernhard Roling, D. Prutsch, D. Rettenwander, Martin Wilkening, Yuki Katoh, G. Hautier (2017)
Superionic Diffusion through Frustrated Energy LandscapeChem
-
J. Sugiyama, H. Nozaki, I. Umegaki, K. Mukai, K. Miwa, S. Shiraki, T. Hitosugi, A. Suter, T. Prokscha, Z. Salman, J. Lord, M. Månsson (2015)
Li-ion diffusion in Li 4 Ti 5 O 12 and LiTi 2 O 4 battery materials detected by muon spin spectroscopyPhysical Review B, 92
-
Yi Wei, Jiaxin Zheng, Suihan Cui, Xiaohe Song, Yantao Su, Wenjun Deng, Zhongzhen Wu, Xinwei Wang, Weidong Wang, M. Rao, Yuan Lin, Chongmin Wang, K. Amine, F. Pan (2015)
Kinetics Tuning of Li-Ion Diffusion in Layered Li(NixMnyCoz)O2.Journal of the American Chemical Society, 137 26
-
G. Taillades, J. Sarradin (2004)
Silver : High performance anode for thin film lithium ion batteriesJournal of Power Sources, 125
-
M. Palacín (2009)
Recent advances in rechargeable battery materials: a chemist's perspective.Chemical Society reviews, 38 9
-
Kyusung Park, A. Benayad, D. Kang, S. Doo (2008)
Nitridation-driven conductive Li4Ti5O12 for lithium ion batteries.Journal of the American Chemical Society, 130 45
-
Marvin Kraft, Sean Culver, Mario Calderon, Felix Böcher, Thorben Krauskopf, A. Senyshyn, C. Dietrich, A. Zevalkink, J. Janek, W. Zeier (2017)
Influence of Lattice Polarizability on the Ionic Conductivity in the Lithium Superionic Argyrodites Li6PS5X (X = Cl, Br, I).Journal of the American Chemical Society, 139 31
-
Siyuan Wu, Ruijuan Xiao, Hong Li, Liquan Chen (2022)
New insights in the mechanism of cation migration induced by cation-anion dynamic coupling in superionic conductorsJournal of Materials Chemistry A
-
A. Kuhn, V. Duppel, B. Lotsch (2013)
Tetragonal Li10GeP2S12 and Li7GePS8 – exploring the Li ion dynamics in LGPS Li electrolytesEnergy and Environmental Science, 6
-
A. Banerjee, Hanmei Tang, Xuefeng Wang, Ju-Hsiang Cheng, Han Nguyen, Minghao Zhang, Darren Tan, T. Wynn, Erik Wu, Jean-Marie Doux, Tianpin Wu, Lu Ma, G. Sterbinsky, Macwin D’Souza, S. Ong, Y. Meng (2019)
Revealing Nanoscale Solid-Solid Interfacial Phenomena for Long-Life and High-Energy All-Solid-State Batteries.ACS applied materials & interfaces
-
Chen‐Zi Zhao, H. Duan, Jiaqi Huang, Juan Zhang, Qiang Zhang, Yu‐Guo Guo, L. Wan (2019)
Designing solid-state interfaces on lithium-metal anodes: a reviewScience China Chemistry, 62
-
Shinichiro Minami, Kouichi Miura, Mitsuaki Ishioka, Naoki Morimoto, N. Isoda, H. Yamamoto, K. Iijima (2018)
Homocysteine supplementation ameliorates steatohepatitis induced by a choline‐deficient diet in miceHepatology Research, 49
-
P. Bron, Sebastian Johansson, K. Zick, J. Günne, S. Dehnen, B. Roling (2013)
Li10SnP2S12: an affordable lithium superionic conductor.Journal of the American Chemical Society, 135 42
-
Fudong Han, J. Yue, Xiangyang Zhu, Chunsheng Wang (2018)
Suppressing Li Dendrite Formation in Li2S‐P2S5 Solid Electrolyte by LiI IncorporationAdvanced Energy Materials, 8
-
(2015)
Chapter 5 – Computational Chemistry -
Xiaomei He, Hongtao Sun, Xiangdong Ding, K. Zhao (2021)
Grain Boundaries and Their Impact on Li Kinetics in Layered-Oxide Cathodes for Li-Ion BatteriesJournal of Physical Chemistry C, 125
-
Zhizhen Zhang, Hui Li, K. Kaup, Laidong Zhou, P. Roy, L. Nazar (2020)
Targeting Superionic Conductivity by Turning on Anion Rotation at Room Temperature in Fast Ion ConductorsMatter
-
Volker Deringer, A. Bartók, N. Bernstein, D. Wilkins, M. Ceriotti, Gábor Csányi (2021)
Gaussian Process Regression for Materials and MoleculesChemical Reviews, 121
-
Y. Rho, K. Kanamura (2004)
Li+ ion diffusion in Li4Ti5O12 thin film electrode prepared by PVP sol–gel methodJournal of Solid State Chemistry, 177
-
Y. Haven (2010)
The ionic conductivity of Li‐halide crystalsRecueil des Travaux Chimiques des Pays-Bas, 69
-
A. Belsky, M. Hellenbrandt, V. Karen, P. Luksch (2002)
New developments in the Inorganic Crystal Structure Database (ICSD): accessibility in support of materials research and design.Acta crystallographica. Section B, Structural science, 58 Pt 3 Pt 1
-
Jean-Marie Doux, Han Nguyen, Darren Tan, A. Banerjee, Xuefeng Wang, Erik Wu, Chiho Jo, Hedi Yang, Y. Meng (2019)
Stack Pressure Considerations for Room‐Temperature All‐Solid‐State Lithium Metal BatteriesAdvanced Energy Materials, 10
-
Shuo Sun, Chen‐Zi Zhao, Hong Yuan, Yang Lu, Jiangkui Hu, Jiaqi Huang, Qiang Zhang (2021)
Multiscale understanding of high-energy cathodes in solid-state batteries: from atomic scale to macroscopic scaleMaterials Futures, 1
-
J. Bachman, S. Muy, A. Grimaud, Hao-Hsun Chang, N. Pour, S. Lux, O. Paschos, F. Maglia, Saskia Lupart, P. Lamp, L. Giordano, Y. Shao-horn (2015)
Inorganic Solid-State Electrolytes for Lithium Batteries: Mechanisms and Properties Governing Ion Conduction.Chemical reviews, 116 1
-
J. Awaka, N. Kijima, Yasuhiko Takahashi, H. Hayakawa, J. Akimoto (2009)
Synthesis and crystallographic studies of garnet-related lithium-ion conductors Li6CaLa2Ta2O12 and Li6BaLa2Ta2O12Solid State Ionics, 180
-
S. Dudarev, G. Botton, S. Savrasov, C. Humphreys, A. Sutton (1998)
Electron-energy-loss spectra and the structural stability of nickel oxide: An LSDA+U studyPhysical Review B, 57
-
Rongxin Huang, I. Chavez, K. Taute, B. Lukić, S. Jeney, M. Raizen, E. Florin (2011)
Direct observation of the full transition from ballistic to diffusive Brownian motion in a liquidNature Physics, 7
-
Roman Schlem, Tim Bernges, Cheng Li, Marvin Kraft, Nicoló Minafra, W. Zeier (2020)
Lattice Dynamical Approach for Finding the Lithium Superionic Conductor Li3ErI6ACS Applied Energy Materials
-
Yan Wang, W. Richards, S. Ong, Lincoln Miara, Jae Kim, Yifei Mo, G. Ceder (2015)
Design principles for solid-state lithium superionic conductors.Nature materials, 14 10
-
Chengteh Lee, Weitao Yang, R. Parr (1988)
Development of the Colle-Salvetti correlation-energy formula into a functional of the electron density.Physical review. B, Condensed matter, 37 2
-
M. Inaba, T. Uno, A. Tasaka (2005)
Irreversible capacity of electrodeposited Sn thin film anodeJournal of Power Sources, 146
-
Reif B (2021)
2Nat Rev Dis Primers, 1
-
R. Malik, Damian Burch, M. Bazant, G. Ceder (2010)
Particle size dependence of the ionic diffusivity.Nano letters, 10 10
-
Zhiyu Wang, D. Luan, S. Madhavi, Chang Li, X. Lou (2011)
α-Fe2O3 nanotubes with superior lithium storage capability.Chemical communications, 47 28
-
S. Ganapathy, M. Wagemaker (2012)
Nanosize storage properties in spinel Li4Ti5O12 explained by anisotropic surface lithium insertion.ACS nano, 6 10
-
Hongjian Peng, Liuliu Feng, L. Li, Yunqiang Zhang, Y. Zou (2017)
Synthesis of Li5+xLa3HfxNb2-xO12 (x = 0.2–1) ceramics with cubic garnet-type structureMaterials Letters, 194
-
Yoshikatsu Seino, T. Ota, K. Takada, A. Hayashi, M. Tatsumisago (2014)
A sulphide lithium super ion conductor is superior to liquid ion conductors for use in rechargeable batteriesEnergy and Environmental Science, 7
-
Shuo Wang, Q. Bai, Adelaide Nolan, Yunsheng Liu, Sheng Gong, Qiang Sun, Yifei Mo (2019)
Lithium Chlorides and Bromides as Promising Solid-State Chemistries for Fast Ion Conductors with Good Electrochemical Stability.Angewandte Chemie, 58 24
-
Qing Zhao, S. Stalin, Chen‐Zi Zhao, L. Archer (2020)
Designing solid-state electrolytes for safe, energy-dense batteriesNature Reviews Materials, 5
-
J. Sugiyama, K. Mukai, Y. Ikedo, H. Nozaki, M. Månsson, I. Watanabe (2009)
Li diffusion in LixCoO2 probed by muon-spin spectroscopy.Physical review letters, 103 14
-
R. Chitra, S. Yashonath (1997)
ESTIMATION OF ERROR IN THE DIFFUSION COEFFICIENT FROM MOLECULAR DYNAMICS SIMULATIONSJournal of Physical Chemistry B, 101
-
D. Sheppard, R. Terrell, G. Henkelman (2008)
Optimization methods for finding minimum energy paths.The Journal of chemical physics, 128 13
-
W. Schmidt, P. Bottke, M. Sternad, Peter Gollob, V. Hennige, M. Wilkening (2015)
Small Change—Great Effect: Steep Increase of Li Ion Dynamics in Li4Ti5O12 at the Early Stages of Chemical Li InsertionChemistry of Materials, 27
-
Li-li Jiang, Chong Yan, Yu‐Xing Yao, Wenlong Cai, Jiaqi Huang, Qiang Zhang (2020)
Inhibiting Solvent Co-Intercalation in Graphite Anode by Localized High-Concentration Electrolyte in Fast-Charging Batteries.Angewandte Chemie
-
Haifeng Wang, Y. Jang, Biying Huang, D. Sadoway, Y. Chiang (1999)
TEM Study of Electrochemical Cycling‐Induced Damage and Disorder in LiCoO2 Cathodes for Rechargeable Lithium BatteriesJournal of The Electrochemical Society, 146
-
W. Kob, C. Donati, S. Plimpton, P. Poole, S. Glotzer (1997)
DYNAMICAL HETEROGENEITIES IN A SUPERCOOLED LENNARD-JONES LIQUIDPhysical Review Letters, 79
-
Saneyuki Ohno, A. Banik, Georg Dewald, Marvin Kraft, Thorben Krauskopf, Nicoló Minafra, Paul Till, M. Weiß, W. Zeier (2020)
Materials design of ionic conductors for solid state batteriesProgress in Energy, 2
-
J. Perdew, S. Kurth, A. Zupan, P. Blaha (1999)
Accurate Density Functional with Correct Formal Properties: A Step Beyond the Generalized Gradient ApproximationPhysical Review Letters, 82
-
Wenlong Cai, Yu‐Xing Yao, Gao‐Long Zhu, Chong Yan, Li-li Jiang, Chuanxin He, Jiaqi Huang, Qiang Zhang (2020)
A review on energy chemistry of fast-charging anodes.Chemical Society reviews
-
Feng Zhu, M. Islam, Lin Zhou, Z. Gu, Ting Liu, Xinchao Wang, Jun Luo, C. Nan, Yifei Mo, Cheng Ma (2020)
Single-atom-layer traps in a solid electrolyte for lithium batteriesNature Communications, 11
-
Nongnuch Artrith, T. Morawietz, J. Behler (2011)
High-dimensional neural-network potentials for multicomponent systems: Applications to zinc oxidePhysical Review B, 83
-
Peter Hall, E. Bain (2008)
Energy-storage technologies and electricity generationEnergy Policy, 36
-
Sean Culver, Alexander Squires, Nicoló Minafra, C. Armstrong, Thorben Krauskopf, Felix Böcher, Cheng Li, B. Morgan, W. Zeier (2020)
Evidence for a Solid-Electrolyte Inductive Effect in the Superionic Conductor Li10Ge1–xSnxP2S12Journal of the American Chemical Society, 142
-
A. Einstein (2005)
Über die von der molekularkinetischen Theorie der Wärme geforderte Bewegung von in ruhenden Flüssigkeiten suspendierten Teilchen [AdP 17, 549 (1905)]Annalen der Physik, 517
-
K. Kganyago, P. Ngoepe (2003)
Structural and electronic properties of lithium intercalated graphite LiC 6Physical Review B, 68
-
Seungho Yu, Donald Siegel (2017)
Grain Boundary Contributions to Li-Ion Transport in the Solid Electrolyte Li7La3Zr2O12 (LLZO)Chemistry of Materials, 29
-
R. Murugan, W. Weppner, P. Schmid-Beurmann, V. Thangadurai (2007)
Structure and lithium ion conductivity of bismuth containing lithium garnets Li5La3Bi2O12 and Li6SrLa2Bi2O12Materials Science and Engineering B-advanced Functional Solid-state Materials, 143
-
Xueying Zheng, Zhenyi Gu, Jing Fu, Haotian Wang, Xiaolu Ye, Liqiang Huang, Xuyang Liu, Xing-long Wu, W. Luo, Yunhui Huang (2021)
Knocking down the kinetic barriers towards fast-charging and low-temperature sodium metal batteriesEnergy & Environmental Science
-
M. Daw, S. Foiles, M. Baskes (1993)
The embedded-atom method: a review of theory and applicationsMaterials Science Reports, 9
-
Xin Shen, Rui Zhang, Peng Shi, Xiang Chen, Qiang Zhang (2021)
How Does External Pressure Shape Li Dendrites in Li Metal Batteries?Advanced Energy Materials, 11
-
Yutao Li, Chang-An Wang, H. Xie, Jinguang Cheng, J. Goodenough (2011)
High lithium ion conduction in garnet-type Li6La3ZrTaO12Electrochemistry Communications, 13
-
S. Nishimura, G. Kobayashi, K. Ohoyama, R. Kanno, M. Yashima, A. Yamada (2008)
Experimental visualization of lithium diffusion in LixFePO4.Nature materials, 7 9
-
J. Irvine, D. Sinclair, A. West (1990)
Electroceramics: Characterization by Impedance SpectroscopyAdvanced Materials, 2
-
W. Weppner, R. Huggins (1977)
Determination of the Kinetic Parameters of Mixed‐Conducting Electrodes and Application to the System Li3SbJournal of The Electrochemical Society, 124
-
Yutao Li, Jiantao Han, Chang-An Wang, H. Xie, J. Goodenough (2012)
Optimizing Li+ conductivity in a garnet frameworkJournal of Materials Chemistry, 22
-
A. Banerjee, Xuefeng Wang, C. Fang, Erik Wu, Y. Meng (2020)
Interfaces and Interphases in All-Solid-State Batteries with Inorganic Solid Electrolytes.Chemical reviews
-
Hui Yang, H. Bang, J. Prakash (2004)
Evaluation of Electrochemical Interface Area and Lithium Diffusion Coefficient for a Composite Graphite AnodeJournal of The Electrochemical Society, 151
-
Jeffrey Smith, Donald Siegel (2020)
Low-temperature paddlewheel effect in glassy solid electrolytesNature Communications, 11
-
Lin Chen, K. Chen, Xinjie Chen, G. Ramirez, Zhennan Huang, Natalie Geise, Hans‐Georg Steinrück, B. Fisher, R. Shahbazian‐Yassar, M. Toney, M. Hersam, J. Elam (2018)
Novel ALD Chemistry Enabled Low-Temperature Synthesis of Lithium Fluoride Coatings for Durable Lithium Anodes.ACS applied materials & interfaces, 10 32
-
D. Andre, Kim Sung-jin, P. Lamp, S. Lux, F. Maglia, O. Paschos, Barbara Stiaszny (2015)
Future generations of cathode materials: an automotive industry perspectiveJournal of Materials Chemistry, 3
-
Xiaona Li, Jianwen Liang, Jing Luo, Mohammad Banis, Changhong Wang, Weihan Li, Sixu Deng, Chuang Yu, Feipeng Zhao, Yongfeng Hu, T. Sham, Li Zhang, Shangqian Zhao, Shi-gang Lu, Huan Huang, Ruying Li, Keegan Adair, X. Sun (2019)
Air-stable Li3InCl6 electrolyte with high voltage compatibility for all-solid-state batteriesEnergy & Environmental Science
-
Theodosios Famprikis, Theodosios Famprikis, Theodosios Famprikis, P. Canepa, P. Canepa, P. Canepa, J. Dawson, J. Dawson, M. Islam, M. Islam, C. Masquelier, C. Masquelier (2019)
Fundamentals of inorganic solid-state electrolytes for batteriesNature Materials
-
T. Gao, Yunzhao Han, D. Fraggedakis, Supratim Das, Tingtao Zhou, Che-Ning Yeh, Shengming Xu, W. Chueh, Ju Li, M. Bazant (2021)
Interplay of Lithium Intercalation and Plating on a Single Graphite ParticleJoule
-
I. Umegaki, S. Kawauchi, H. Sawada, H. Nozaki, Y. Higuchi, K. Miwa, Y. Kondo, M. Månsson, M. Telling, F. Coomer, S. Cottrell, T. Sasaki, Tetsuro Kobayashi, J. Sugiyama (2017)
Li-ion diffusion in Li intercalated graphite C6Li and C12Li probed by μ+SR.Physical chemistry chemical physics : PCCP, 19 29
-
T. Ohzuku, A. Ueda, N. Yamamoto (1995)
Zero‐Strain Insertion Material of Li [ Li1 / 3Ti5 / 3 ] O 4 for Rechargeable Lithium CellsJournal of The Electrochemical Society, 142
-
Motoshi Suyama, A. Kato, A. Sakuda, A. Hayashi, M. Tatsumisago (2018)
Lithium dissolution/deposition behavior with Li3PS4-LiI electrolyte for all-solid-state batteries operating at high temperaturesElectrochimica Acta
-
Liu C (2010)
E28Adv Mater, 22
-
Hansu Kim, Byungwoo Park, H. Sohn, T. Kang (2000)
Electrochemical characteristics of Mg–Ni alloys as anode materials for secondary Li batteriesJournal of Power Sources, 90
-
R. Zubatyuk, Justin Smith, J. Leszczynski, O. Isayev (2018)
Accurate and transferable multitask prediction of chemical properties with an atoms-in-molecules neural networkScience Advances, 5
-
Pengjian Guan, Lin Liu, Xianke Lin (2015)
Simulation and Experiment on Solid Electrolyte Interphase (SEI) Morphology Evolution and Lithium-Ion DiffusionJournal of The Electrochemical Society, 162
-
J. Sugiyama (2013)
Ion Diffusion in Solids Probed by Muon-Spin SpectroscopyJournal of the Physical Society of Japan, 82
-
J. Behler, M. Parrinello (2007)
Generalized neural-network representation of high-dimensional potential-energy surfaces.Physical review letters, 98 14
-
U. Marconi, A. Puglisi, L. Rondoni, A. Vulpiani (2008)
Fluctuation-dissipation: Response theory in statistical physicsPhysics Reports, 461
-
Jie Pan, Yang-Tse Cheng, Y. Qi (2015)
General method to predict voltage-dependent ionic conduction in a solid electrolyte coating on electrodesPhysical Review B, 91
-
Bingbing Chen, Chaoqun Xu, Jianqiu Zhou (2018)
Insights into Grain Boundary in Lithium-Rich Anti-Perovskite as Solid ElectrolytesJournal of The Electrochemical Society, 165
-
Jiale Qu, Jiewen Xiao, Tianshuai Wang, D. Legut, Qianfan Zhang (2020)
High Rate Transfer Mechanism of Lithium Ions in Lithium–Tin and Lithium–Indium Alloys for Lithium BatteriesJournal of Physical Chemistry C, 124
-
Yihan Xiao, Yan Wang, Shou‐Hang Bo, Jae Kim, Lincoln Miara, G. Ceder (2019)
Understanding interface stability in solid-state batteriesNature Reviews Materials, 5
-
Yifei Mo, S. Ong, G. Ceder (2012)
First Principles Study of the Li10GeP2S12 Lithium Super Ionic Conductor MaterialChemistry of Materials, 24
-
E. Bechtold-Schweickert, M. Mali, J. Roos, D. Brinkmann (1984)
Li7diffusion constant in the superionic conductorLi3N measured by NMRPhysical Review B, 30
-
Ming Liu, Chao Wang, Chenglong Zhao, Eveline Maas, Kui Lin, V. Arszelewska, Baohua Li, S. Ganapathy, M. Wagemaker (2021)
Quantification of the Li-ion diffusion over an interface coating in all-solid-state batteries via NMR measurementsNature Communications, 12
-
Wei Zhang, D. Seo, Tina Chen, Lijun Wu, M. Topsakal, Yimei Zhu, D. Lu, G. Ceder, Feng Wang (2020)
Kinetic pathways of ionic transport in fast-charging lithium titanateScience, 367
-
B. Dunn, H. Kamath, J. Tarascon (2011)
Electrical Energy Storage for the Grid: A Battery of ChoicesScience, 334
-
A. Becke (1988)
Density-functional exchange-energy approximation with correct asymptotic behavior.Physical review. A, General physics, 38 6
-
B. Babu, K. Babu, G. Aregai, L. Devi, B. Latha, M. Reddi, K. Samatha, V. Veeraiah (2018)
Structural and electrical properties of Li4Ti5O12 anode material for lithium-ion batteriesResults in Physics
-
C. Donati, J. Douglas, W. Kob, S. Plimpton, P. Poole, S. Glotzer (1997)
STRINGLIKE COOPERATIVE MOTION IN A SUPERCOOLED LIQUIDPhysical Review Letters, 80
-
Han Wang, Linfeng Zhang, Jiequn Han, E. Weinan (2017)
DeePMD-kit: A deep learning package for many-body potential energy representation and molecular dynamicsArXiv, abs/1712.03641
-
T. Ohzuku, A. Ueda (1994)
Solid‐State Redox Reactions of LiCoO2 (R3̅m) for 4 Volt Secondary Lithium CellsJournal of The Electrochemical Society, 141
-
Matthew Welborn, Lixue Cheng, Thomas Miller (2018)
Transferability in Machine Learning for Electronic Structure via the Molecular Orbital Basis.Journal of chemical theory and computation, 14 9
-
M. Hulme, N. Obermeister, S. Randalls, M. Borie (2018)
Framing the challenge of climate change in Nature and Science editorialsNature Climate Change, 8
-
V. Thangadurai, Heiko Kaack, W. Weppner (2003)
Novel Fast Lithium Ion Conduction in Garnet‐Type Li5La3M2O12 (M = Nb, Ta)Journal of the American Ceramic Society, 86
-
Long Chen, Xiaomin Qiu, Z. Bai, Li-zhen Fan (2021)
Enhancing interfacial stability in solid-state lithium batteries with polymer/garnet solid electrolyte and composite cathode frameworkJournal of Energy Chemistry
-
Jia Liu, Hong Yuan, He Liu, Chen‐Zi Zhao, Yang Lu, Xin‐Bing Cheng, Jiaqi Huang, Qiang Zhang (2021)
Unlocking the Failure Mechanism of Solid State Lithium Metal BatteriesAdvanced Energy Materials, 12
-
Naoto Tanibata, Shuta Takimoto, Koki Nakano, Hayami Takeda, M. Nakayama, H. Sumi (2020)
Metastable Chloride Solid Electrolyte with High Formability for Rechargeable All-Solid-State Lithium Metal Batteries, 2
-
S. Boulineau, M. Courty, J. Tarascon, V. Viallet (2012)
Mechanochemical synthesis of Li-argyrodite Li6PS5X (X = Cl, Br, I) as sulfur-based solid electrolytes for all solid state batteries applicationSolid State Ionics, 221
-
Saneyuki Ohno, Bianca Helm, Till Fuchs, Georg Dewald, Marvin Kraft, Sean Culver, A. Senyshyn, W. Zeier (2019)
Further Evidence for Energy Landscape Flattening in the Superionic Argyrodites Li6+xP1–xMxS5I (M = Si, Ge, Sn)Chemistry of Materials
-
Shingo Ohta, Tetsuro Kobayashi, T. Asaoka (2011)
High lithium ionic conductivity in the garnet-type oxide Li7−X La3(Zr2−X, NbX)O12 (X = 0–2)Journal of Power Sources, 196
-
Anton Ven, G. Ceder (1999)
Lithium Diffusion in Layered Li x CoO2Electrochemical and Solid State Letters, 3
-
Lixue Cheng, Matthew Welborn, Thomas Miller (2019)
A Universal Density Matrix Functional from Molecular Orbital-Based Machine Learning: Transferability across Organic MoleculesThe Journal of chemical physics, 150 13
-
H. Yildirim, A. Kinaci, M. Chan, J. Greeley (2015)
First-Principles Analysis of Defect Thermodynamics and Ion Transport in Inorganic SEI Compounds: LiF and NaF.ACS applied materials & interfaces, 7 34
-
Anton Ven, John Thomas, Q. Xu, B. Swoboda, D. Morgan (2008)
Nondilute diffusion from first principles: Li diffusion in Li x TiS 2Physical Review B, 78
-
(2015)
Understanding the basics of QSAR for applications in pharmaceutical sciences and risk assessment -
K. Mizushima, P. Jones, P. Wiseman, J. Goodenough (1981)
LixCoO2 (0Solid State Ionics
-
Xin Shen, Xue‐Qiang Zhang, F. Ding, Jiaqi Huang, Rui Xu, Xiang Chen, Chong Yan, F. Su, Chengmeng Chen, Xingjiang Liu, Qiang Zhang (2021)
Advanced Electrode Materials in Lithium Batteries: Retrospect and Prospect, 2021
-
L. Gasparotto, L. Gasparotto, N. Borisenko, N. Bocchi, S. Abedin, F. Endres (2009)
In situ STM investigation of the lithium underpotential deposition on Au(111) in the air- and water-stable ionic liquid 1-butyl-1-methylpyrrolidinium bis(trifluoromethylsulfonyl)amide.Physical chemistry chemical physics : PCCP, 11 47
-
K. Kang, G. Ceder (2006)
Factors that affect Li mobility in layered lithium transition metal oxidesPhysical Review B, 74
-
A. Cherp, Vadim Vinichenko, J. Tosun, Joel Gordon, J. Jewell (2021)
National growth dynamics of wind and solar power compared to the growth required for global climate targetsNature Energy, 6
-
K. Homma, M. Yonemura, Takeshi Kobayashi, Miki Nagao, M. Hirayama, R. Kanno (2011)
Crystal structure and phase transitions of the lithium ionic conductor Li3PS4Solid State Ionics, 182
-
T. Jow, C. Liang (1982)
Lithium‐Aluminum Electrodes at Ambient TemperaturesJournal of The Electrochemical Society, 129
-
N. Adelstein (2018)
Alloying Effects on Superionic Conductivity in Lithium Indium Halides for All-Solid-State Batteries -
R. Murugan, V. Thangadurai, W. Weppner (2007)
Fast Lithium Ion Conduction in Garnet‐Type Li7La3Zr2O12Angewandte Chemie, 46
-
J. Bates, N. Dudney, G. Gruzalski, R. Zuhr, A. Choudhury, C. Luck, J. Robertson (1992)
Electrical properties of amorphous lithium electrolyte thin filmsSolid State Ionics
-
W. Johnston, R. Heikes, D. Sestrich (1958)
The preparation, crystallography, and magnetic properties of the LixCo(1−x)O systemJournal of Physics and Chemistry of Solids, 7
-
K. Nakamura (2000)
On the diffusion of Li+ defects in LiCoO2 and LiNiO2Solid State Ionics, 135
-
Wen Li, Guotao Wu, C. Araujo, R. Scheicher, A. Blomqvist, R. Ahuja, Zhitao Xiong, Y. Feng, Ping Chen (2010)
Li+ ion conductivity and diffusion mechanism in α-Li3N and β-Li3NEnergy and Environmental Science, 3
-
B. Ziebarth, Markus Klinsmann, T. Eckl, C. Elsässer (2014)
Lithium diffusion in the spinel phase Li4Ti5O12 and in the rocksalt phase Li7Ti5O12 of lithium titanate from first principlesPhysical Review B, 89
-
J. Heyd, G. Scuseria, M. Ernzerhof (2003)
Hybrid functionals based on a screened Coulomb potentialJournal of Chemical Physics, 118
-
Xin‐Bing Cheng, He Liu, Hong Yuan, Hong‐Jie Peng, Cheng Tang, Jiaqi Huang, Qiang Zhang (2021)
A perspective on sustainable energy materials for lithium batteriesSusMat, 1
-
I. Hanghofer, B. Gadermaier, H. Wilkening (2019)
Fast Rotational Dynamics in Argyrodite-Type Li6PS5X (X: Cl, Br, I) as Seen by 31P Nuclear Magnetic Relaxation—On Cation–Anion Coupled Transport in ThiophosphatesChemistry of Materials
-
Jian Xie, N. Imanishi, Tao Zhang, A. Hirano, Y. Takeda, O. Yamamoto (2009)
Li-ion diffusion kinetics in LiFePO4 thin film prepared by radio frequency magnetron sputteringElectrochimica Acta, 54
-
W. Roberts-Austen
Bakerian lecture.—On the diffusion of metalsProceedings of the Royal Society of London, 59
-
Ke Pan, Feng Zou, M. Canova, Yu Zhu, Jung-Hyun Kim (2019)
Systematic electrochemical characterizations of Si and SiO anodes for high-capacity Li-Ion batteriesJournal of Power Sources
-
R. Murugan, S. Ramakumar, N. Janani (2011)
High conductive yttrium doped Li7La3Zr2O12 cubic lithium garnetElectrochemistry Communications, 13
-
M. Mali, J. Roos, M. Sonderegger, D. Brinkmann, P. Heitjans (1988)
6Li and 7Li diffusion coefficients in solid lithium measured by the NMR pulsed field gradient techniqueJournal of Physics F: Metal Physics, 18
-
K. Mizushima, P. Jones, P. Wiseman, J. Goodenough (1980)
LixCoO2 (0Materials Research Bulletin, 15
-
S. Muy, J. Bachman, L. Giordano, Hao-Hsun Chang, D. Abernathy, D. Bansal, O. Delaire, Satoshi Hori, R. Kanno, F. Maglia, Saskia Lupart, P. Lamp, Y. Shao-horn (2018)
Tuning mobility and stability of lithium ion conductors based on lattice dynamicsEnergy and Environmental Science, 11
-
E. Ferg, R. Gummow, A. Kock, M. Thackeray (1994)
Spinel Anodes for Lithium‐Ion BatteriesJournal of The Electrochemical Society, 141
-
Anubhav Jain, S. Ong, G. Hautier, Wei Chen, W. Richards, S. Dacek, S. Cholia, D. Gunter, D. Skinner, G. Ceder, K. Persson (2013)
Commentary: The Materials Project: A materials genome approach to accelerating materials innovationAPL Materials, 1
-
Naoki Nitta, Feixiang Wu, Jung Lee, G. Yushin (2015)
Li-ion battery materials: present and futureMaterials Today, 18
-
A. Bartók, M. Payne, R. Kondor, Gábor Csányi (2009)
Gaussian approximation potentials: the accuracy of quantum mechanics, without the electrons.Physical review letters, 104 13
-
W. Kohn, L. Sham (1965)
Self-Consistent Equations Including Exchange and Correlation EffectsPhysical Review, 140
-
Ji Qi, Swastika Banerjee, Yunxing Zuo, Chi Chen, Zhuoying Zhu, H. Likhit, Xiang-Guo Li, S. Ong (2021)
Bridging the gap between simulated and experimental ionic conductivities in lithium superionic conductorsMaterials Today Physics, 21
-
F Schipper, EM Erickson, C Erk, J‐Y Shin, FF Chesneau, D Aurbach (2016)
Review—recent advances and remaining challenges for lithium ion battery cathodes, 164
-
Yusheng Zhao, L. Daemen (2012)
Superionic conductivity in lithium-rich anti-perovskites.Journal of the American Chemical Society, 134 36
-
R. Messer, F. Noack (1975)
Nuclear magnetic relaxation by self-diffusion in solid lithium:T1-frequency dependenceApplied physics, 6
-
M. Forst, C. Manzoni, S. Kaiser, Y. Tomioka, Y. Tokura, R. Merlin, A. Cavalleri (2011)
Nonlinear phononics as an ultrafast route to lattice controlNature Physics, 7
-
P. Olivi, E. Pereira, E. Longo, J. Varella, L. Bulhões (1993)
Preparation and Characterization of a Dip‐Coated SnO2 Film for Transparent Electrodes for Transmissive Electrochromic DevicesJournal of The Electrochemical Society, 140
-
G. Henkelman, B. Uberuaga, H. Jónsson (2000)
A climbing image nudged elastic band method for finding saddle points and minimum energy pathsJournal of Chemical Physics, 113
-
P. Hodgkinson, S. Wimperis (2009)
Solid-state NMR spectroscopy.Physical chemistry chemical physics : PCCP, 11 32
-
Tarascon J‐M (1923)
3227Philos Trans Royal Soc A, 2010
-
Y. Inaguma, Liquan Chen, M. Itoh, Tetsuro Nakamura, T. Uchida, H. Ikuta, M. Wakihara (1993)
High ionic conductivity in lithium lanthanum titanateSolid State Communications, 86
-
H. Xia, Li Lu, G. Ceder (2006)
Li diffusion in LiCoO2 thin films prepared by pulsed laser depositionJournal of Power Sources, 159
-
M. Karlsson (2015)
Proton dynamics in oxides: insight into the mechanics of proton conduction from quasielastic neutron scattering.Physical chemistry chemical physics : PCCP, 17 1
-
D. Morgan, Anton Ven, G. Ceder (2004)
Li Conductivity in Li x MPO 4 ( M = Mn , Fe , Co , Ni ) Olivine MaterialsElectrochemical and Solid State Letters, 7
-
Shan Yang, B. Yan, Jiaxiong Wu, Li Lu, K. Zeng (2017)
Temperature-Dependent Lithium-Ion Diffusion and Activation Energy of Li1.2Co0.13Ni0.13Mn0.54O2 Thin-Film Cathode at Nanoscale by Using Electrochemical Strain Microscopy.ACS applied materials & interfaces, 9 16
-
Gao‐Long Zhu, Chenying Zhao, Hong‐Jie Peng, Hong Yuan, Jiangkui Hu, Haoxiong Nan, Yang Lu, Xinyan Liu, Jiaqi Huang, Chuanxin He, Jian Zhang, Qiang Zhang (2021)
A Self‐Limited Free‐Standing Sulfide Electrolyte Thin Film for All‐Solid‐State Lithium Metal BatteriesAdvanced Functional Materials, 31
-
B. Gao, R. Jalem, Hongru Tian, Y. Tateyama (2021)
Revealing Atomic‐Scale Ionic Stability and Transport around Grain Boundaries of Garnet Li7La3Zr2O12 Solid ElectrolyteAdvanced Energy Materials, 12
-
D. Aurbach, B. Markovsky, I. Weissman, E. Levi, Y. Ein‐Eli (1999)
On the correlation between surface chemistry and performance of graphite negative electrodes for Li ion batteriesElectrochimica Acta, 45
-
D. Park, Haesun Park, Yongheum Lee, Sang‐Ok Kim, Hun‐Gi Jung, K. Chung, J. Shim, Seungho Yu (2020)
Theoretical Design of Lithium Chloride Superionic Conductors for All-Solid-State High Voltage Lithium-Ion Batteries.ACS applied materials & interfaces
-
Yue Deng, C. Eames, J. Chotard, F. Laler̀e, V. Seznec, Steffen Emge, Oliver Pecher, Clare Grey, C. Masquelier, M. Islam (2015)
Structural and Mechanistic Insights into Fast Lithium-Ion Conduction in Li4SiO4-Li3PO4 Solid Electrolytes.Journal of the American Chemical Society, 137 28
-
D. Weber, A. Senyshyn, Kai Weldert, Sebastian Wenzel, Wenbo Zhang, Rene Kaiser, S. Berendts, J. Janek, W. Zeier (2016)
Structural Insights and 3D Diffusion Pathways within the Lithium Superionic Conductor Li10GeP2S12Chemistry of Materials, 28
-
Linfeng Zhang, Jiequn Han, Han Wang, R. Car, E. Weinan (2017)
Deep Potential Molecular Dynamics: a scalable model with the accuracy of quantum mechanicsPhysical review letters, 120 14
-
Thorben Krauskopf, B. Mogwitz, Carolin Rosenbach, W. Zeier, J. Janek (2019)
Diffusion Limitation of Lithium Metal and Li–Mg Alloy Anodes on LLZO Type Solid Electrolytes as a Function of Temperature and PressureAdvanced Energy Materials, 9
-
Liansheng Li, Yuanfu Deng, Guohua Chen (2020)
Status and prospect of garnet/polymer solid composite electrolytes for all-solid-state lithium batteriesJournal of Energy Chemistry
-
J. Perdew, A. Zunger (1981)
Self-interaction correction to density-functional approximations for many-electron systemsPhysical Review B, 23
-
K. Arbi, Monica Lazarraga, D. Chehimi, ‡. Ayadi-Trabelsi, A. Rojo, J. Sanz (2004)
Lithium Mobility in Li1.2Ti1.8R0.2(PO4)3 Compounds (R = Al, Ga, Sc, In) as Followed by NMR and Impedance SpectroscopyChemistry of Materials, 16
-
Z Xu, X Chen, R Chen, X Li, H Zhu (2020)
Anion charge and lattice volume dependent lithium ion migration in compounds with fcc anion sublattices, 6
-
Cheng X‐B (2021)
38Sustain Mater, 1
-
C. Chudley, R. Elliott (1961)
Neutron Scattering from a Liquid on a Jump Diffusion Model, 77
-
Donald Siegel, L. Nazar, Y. Chiang, Chaojun Fang, N. Balsara (2021)
Establishing a unified framework for ion solvation and transport in liquid and solid electrolytes -
Nongnuch Artrith, A. Urban (2016)
An implementation of artificial neural-network potentials for atomistic materials simulations: Performance for TiO2Computational Materials Science, 114
-
S. Muy, J. Bachman, Hao-Hsun Chang, L. Giordano, F. Maglia, Saskia Lupart, P. Lamp, W. Zeier, Y. Shao-horn (2018)
Lithium Conductivity and Meyer-Neldel Rule in Li3PO4–Li3VO4–Li4GeO4 Lithium Superionic ConductorsChemistry of Materials
-
P. Heitjans, A. Körblein, H. Ackermann, D. Dubbers, F. Fujara, H. Stöckmann (1985)
Self-diffusion in solid lithium probed by spin-lattice relaxation of 8Li nucleiJournal of Physics F: Metal Physics, 15
-
Xue‐Qiang Zhang, Xin‐Bing Cheng, Xiang Chen, Chong Yan, Qiang Zhang (2017)
Fluoroethylene Carbonate Additives to Render Uniform Li Deposits in Lithium Metal BatteriesAdvanced Functional Materials, 27
-
Aiping Wang, S. Kadam, Hong Li, S. Shi, Y. Qi (2018)
Review on modeling of the anode solid electrolyte interphase (SEI) for lithium-ion batteriesnpj Computational Materials, 4
-
Kuok Seng, Mi-hee Park, Zaiping Guo, H. Liu, Jaephil Cho (2012)
Self-assembled germanium/carbon nanostructures as high-power anode material for the lithium-ion battery.Angewandte Chemie, 51 23
-
Zeeshan Ahmad, Victor Venturi, H. Hafiz, V. Viswanathan (2020)
Interfaces in Solid Electrolyte Interphase: Implications for Lithium-Ion BatteriesarXiv: Chemical Physics
-
H. Deiseroth, S. Kong, H. Eckert, Julia Vannahme, C. Reiner, T. Zaiss, M. Schlosser (2008)
Li6PS5X: a class of crystalline Li-rich solids with an unusually high Li+ mobility.Angewandte Chemie, 47 4
-
F. Schipper, Evan Erickson, C. Erk, Ji‐Yong Shin, F. Chesneau, D. Aurbach (2017)
Review—Recent Advances and Remaining Challenges for Lithium Ion Battery Cathodes I. Nickel-Rich, LiNixCoyMnzO2Journal of The Electrochemical Society, 164
-
Zhongwang Fu, Xiang Chen, Chen‐Zi Zhao, Hong Yuan, Rui Zhang, Xin Shen, Xia‐Xia Ma, Yang Lu, Quanbing Liu, Li-zhen Fan, Qiang Zhang (2021)
Stress Regulation on Atomic Bonding and Ionic Diffusivity: Mechanochemical Effects in Sulfide Solid ElectrolytesEnergy & Fuels
-
Atsushi Funabiki, M. Inaba, Z. Ogumi, Shinichi Yuasa, J. Otsuji, A. Tasaka (1998)
Impedance Study on the Electrochemical Lithium Intercalation into Natural Graphite PowderJournal of The Electrochemical Society, 145
-
Jianxing Huang, Linfeng Zhang, Han Wang, Jinbao Zhao, Jun Cheng, E. Weinan (2021)
Deep potential generation scheme and simulation protocol for the Li10GeP2S12-type superionic conductors.The Journal of chemical physics, 154 9
-
A. Khorshidi, A. Peterson (2016)
Amp: A modular approach to machine learning in atomistic simulationsComput. Phys. Commun., 207
-
Roman Schlem, M. Ghidiu, Sean Culver, Anna‐Lena Hansen, W. Zeier (2019)
Correction to Changing the Static and Dynamic Lattice Effects for the Improvement of the Ionic Transport Properties within the Argyrodite Li6PS5–xSexIACS Applied Energy Materials
-
Yixiao Chen, Linfeng Zhang, Han Wang, E. Weinan (2020)
Ground State Energy Functional with Hartree-Fock Efficiency and Chemical Accuracy.The journal of physical chemistry. A
-
F. Bianchini, H. Fjellvåg, P. Vajeeston (2018)
A first-principle investigation of the Li diffusion mechanism in the super-ionic conductor lithium orthothioborate Li3BS3 structureMaterials Letters, 219
-
Hoje Chun, Kyungju Nam, S. Hong, Joonhee Kang, Byungchan Han (2021)
Design of a unique anion framework in halospinels for outstanding performance of all solid-state Li-ion batteries: first-principles approachJournal of Materials Chemistry A
-
Yirong Gao, Adelaide Nolan, Peng Du, Yifan Wu, Chao Yang, Qianli Chen, Yifei Mo, Shou‐Hang Bo (2020)
Classical and Emerging Characterization Techniques for Investigation of Ion Transport Mechanisms in Crystalline Fast Ionic Conductors.Chemical reviews
-
Xingfeng He, Yizhou Zhu, Yifei Mo (2017)
Origin of fast ion diffusion in super-ionic conductorsNature Communications, 8
-
Xin Shen, Rui Zhang, Xiang Chen, Xin‐Bing Cheng, Xiaoyan Li, Qiang Zhang (2020)
The Failure of Solid Electrolyte Interphase on Li Metal Anode: Structural Uniformity or Mechanical Strength?Advanced Energy Materials, 10
-
Schlem R (2020)
3684ACS Appl Energy Mater, 3
-
R. Yazami, P. Touzain (1983)
A reversible graphite-lithium negative electrode for electrochemical generatorsJournal of Power Sources, 9
-
R. Iwasaki, Satoshi Hori, R. Kanno, T. Yajima, D. Hirai, Y. Kato, Z. Hiroi (2019)
Weak Anisotropic Lithium-Ion Conductivity in Single Crystals of Li10GeP2S12Chemistry of Materials
-
Anton Ven, G. Ceder (2001)
Lithium diffusion mechanisms in layered intercalation compoundsJournal of Power Sources, 97
-
T. Blank, Steven Brown, August Calhoun, D. Doren (1995)
Neural network models of potential energy surfacesJournal of Chemical Physics, 103
-
C. Deviannapoorani, L. Dhivya, S. Ramakumar, R. Murugan (2013)
Lithium ion transport properties of high conductive tellurium substituted Li7La3Zr2O12 cubic lithium garnetsJournal of Power Sources, 240
-
Jiqiang Wang, P. King, R. Huggins (1986)
Investigations of binary lithium-zinc, lithium-cadmium and lithium-lead alloys as negative electrodes in organic solvent-based electrolyteSolid State Ionics, 20
-
Wei-Jun Zhang (2011)
A review of the electrochemical performance of alloy anodes for lithium-ion batteriesJournal of Power Sources, 196
-
M. Jansen (1991)
Volume Effect or Paddle‐Wheel Mechanism—Fast Alkali‐Metal Ionic Conduction in Solids with Rotationally Disordered Complex AnionsAngewandte Chemie, 30
-
Dingchang Lin, Yayuan Liu, Wei Chen, Guangmin Zhou, Kai Liu, B. Dunn, Yi Cui (2017)
Conformal Lithium Fluoride Protection Layer on Three-Dimensional Lithium by Nonhazardous Gaseous Reagent Freon.Nano letters, 17 6
-
H. Nemori, Y. Matsuda, M. Matsui, O. Yamamoto, Y. Takeda, N. Imanishi (2014)
Relationship between lithium content and ionic conductivity in the Li5 + 2xLa3Nb2 − xScxO12 systemSolid State Ionics, 266
-
Hagit Zabrodsky, Shmuel Peleg, D. Avnir (1992)
Continuous symmetry measuresJournal of the American Chemical Society, 114
-
Fuminori Mizuno, A. Hayashi, K. Tadanaga, M. Tatsumisago (2005)
New, Highly Ion‐Conductive Crystals Precipitated from Li2S–P2S5 GlassesAdvanced Materials, 17
-
Tim Bernges, R. Hanus, Bjöern Wankmiller, Kazuki Imasato, Siqi Lin, M. Ghidiu, Marius Gerlitz, M. Peterlechner, S. Graham, G. Hautier, Y. Pei, Michael Hansen, G. Wilde, G. Snyder, Janine George, M. Agne, W. Zeier (2021)
Diffuson-mediated thermal and ionic transport in superionic conductorsChemRxiv
-
Yinqiao Liu, Xue Jiang, Jijun Zhao, Ming Hu (2021)
Electronic charge density as a fast approach for predicting Li-ion migration pathways in superionic conductors with first-principles level precisionComputational Materials Science, 192
-
H. Xie, Yutao Li, Jiantao Han, Youzhong Dong, M. Paranthaman, Longde Wang, Mao-wen Xu, Asha Gupta, Zhonghe Bi, C. Bridges, M. Nakanishi, A. Sokolov, J. Goodenough (2012)
Li6La3SnMO12 (M = Sb, Nb, Ta), a Family of Lithium Garnets with High Li-Ion ConductivityJournal of The Electrochemical Society, 159
-
Xinmiao Liang, Li Yang, Youyi Lei, Luyao Qu, Liying Wang, Wuyao Cai, Ke Xu, Yangming Jiang, Biaolan Liu, Jiwen Feng (2021)
Selective Blockage of Li-Ion Diffusion Pathways in Li10SnP2S12: Insights from Nuclear Magnetic ResonanceThe Journal of Physical Chemistry C
-
Xiaona Li, Jianwen Liang, N. Chen, Jing Luo, Keegan Adair, Changhong Wang, M. Banis, T. Sham, Li Zhang, Shangqian Zhao, Shi-gang Lu, Huan Huang, Ruying Li, X. Sun (2019)
H2O-Mediated Synthesis of Superionic Halide Solid Electrolyte.Angewandte Chemie
-
O. Kwon, M. Hirayama, Kota Suzuki, Y. Kato, T. Saito, M. Yonemura, T. Kamiyama, R. Kanno (2015)
Synthesis, structure, and conduction mechanism of the lithium superionic conductor Li10+δGe1+δP2−δS12Journal of Materials Chemistry, 3
-
Xin‐Bing Cheng, Rui Zhang, Chen‐Zi Zhao, Qiang Zhang (2017)
Toward Safe Lithium Metal Anode in Rechargeable Batteries: A Review.Chemical reviews, 117 15
- Publisher
- Wiley
- Copyright
- © 2023 Wiley Periodicals, LLC.
- ISSN
- 1759-0876
- eISSN
- 1759-0884
- DOI
- 10.1002/wcms.1621
- Publisher site
- See Article on Publisher Site
Abstract
The growing demands to mitigate climate change and environmental degradation stimulate the rapid developments of rechargeable lithium (Li) battery technologies. Fast Li transports in battery materials are of essential significance to ensure superior Li dynamical stability and rate performance of batteries. Herein, the Li transport mechanisms in solid‐state battery materials (SSBMs) are comprehensively summarized. The collective diffusion mechanisms in solid electrolytes are elaborated, which are further understood from multiple perspectives including lattice dynamics, crystalline structure, and electronic structure. With the exponentially improving performance of computers, atomistic simulations have been playing an increasingly important role in revealing and understanding the Li transport in SSBMs, bridging the gap between experimental phenomena and theoretical models. Theoretical and experimental characterization methods for Li transports are discussed. The design strategies toward fast Li transports are classified. Finally, a perspective on the achievements and challenges of probing Li transports is provided.
Journal
Wiley Interdisciplinary Reviews: Computational Molecular Science – Wiley
Published: Jan 1, 2023
Keywords: lithium transport mechanism; solid‐state battery; solid electrolytes