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References (184)
-
K. Ng, M. Malik, Elizaveta Buch, Tobias Glossmann, A. Hintennach, G. Azimi (2019)
A low-cost rechargeable aluminum/natural graphite battery utilizing urea-based ionic liquid analogElectrochimica Acta, 327
-
C. Vaalma, D. Buchholz, M. Weil, S. Passerini (2018)
A cost and resource analysis of sodium-ion batteriesNature Reviews Materials, 3
-
H. Kumar, E. Detsi, D. Abraham, V. Shenoy (2016)
Fundamental Mechanisms of Solvent Decomposition Involved in Solid-Electrolyte Interphase Formation in Sodium Ion BatteriesChemistry of Materials, 28
-
F. Gebert, J. Knott, Robert Gorkin, S. Chou, S. Dou (2021)
Polymer electrolytes for sodium-ion batteriesEnergy Storage Materials
-
U. Purushotham, N. Takenaka, M. Nagaoka (2016)
Additive effect of fluoroethylene and difluoroethylene carbonates for the solid electrolyte interphase film formation in sodium-ion batteries: a quantum chemical studyRSC Advances, 6
-
D. Tchitchekova, D. Monti, P. Johansson, F. Bardé, Anna Randon‐Vitanova, M. Palacín, A. Ponrouch (2017)
On the Reliability of Half-Cell Tests for Monovalent (Li+, Na+) and Divalent (Mg2+, Ca2+) Cation Based BatteriesJournal of The Electrochemical Society, 164
-
Justine Touja, Vincent Gabaudan, Filippo Farina, S. Cavaliere, Laure Caracciolo, Lénaïc Madec, H. Martínez, Athmane Boulaoued, J. Wallenstein, P. Johansson, L. Stievano, L. Monconduit (2020)
Self-supported carbon nanofibers as negative electrodes for K-ion batteries: Performance and mechanismElectrochimica Acta
-
C. Adamo, V. Barone (1999)
Toward reliable density functional methods without adjustable parameters: The PBE0 modelJournal of Chemical Physics, 110
-
Jiandong Wu, G. Gao, Guang-ming Wu, Bo Liu, Huiyu Yang, Xiaowei Zhou, Jichao Wang (2014)
MgVPO4F as a one-dimensional Mg-ion conductor for Mg ion battery positive electrode: a first principles calculationRSC Advances, 4
-
K. Kravchyk, M. Kovalenko (2020)
Aluminum electrolytes for Al dual-ion batteriesCommunications Chemistry, 3
-
Hee‐Dae Lim, Jae-Ho Park, Hyeon-Ji Shin, Jiwon Jeong, Jun Kim, K. Nam, Hun‐Gi Jung, K. Chung (2020)
A review of challenges and issues concerning interfaces for all-solid-state batteriesEnergy Storage Materials, 25
-
A. Massaro, J. Avila, K. Goloviznina, I. Rivalta, C. Gerbaldi, Michele Pavone, M. Gomes, A. Pádua (2020)
Sodium diffusion in ionic liquid-based electrolytes for Na-ion batteries: the effect of polarizable force fields.Physical chemistry chemical physics : PCCP, 22 35
-
Chen Zheng, Balachandran Radhakrishnan, I. Chu, Zhenbin Wang, S. Ong (2017)
Effects of Transition-Metal Mixing on Na Ordering and Kinetics in Layered P 2 OxidesPhysical review applied, 7
-
Y. Zhan, Wei Zhang, Bing Lei, Hongwei Liu, Weihua Li (2020)
Recent Development of Mg Ion Solid ElectrolyteFrontiers in Chemistry, 8
-
S. Grimme, J. Antony, S. Ehrlich, H. Krieg (2010)
A consistent and accurate ab initio parametrization of density functional dispersion correction (DFT-D) for the 94 elements H-Pu.The Journal of chemical physics, 132 15
-
Simon Dühnen, J. Betz, M. Kolek, R. Schmuch, M. Winter, T. Placke (2020)
Toward Green Battery Cells: Perspective on Materials and Technologies, 4
-
Tomooki Hosaka, K. Kubota, A. Hameed, S. Komaba (2020)
Research Development on K-Ion Batteries.Chemical reviews
-
Toshihiko Mandai, Kaoru Dokko, M. Watanabe (2018)
Solvate Ionic Liquids for Li, Na, K, and Mg Batteries.Chemical record
-
M. Falco, S. Ferrari, G. Appetecchi, C. Gerbaldi (2019)
Managing transport properties in composite electrodes/electrolytes for all-solid-state lithium-based batteriesMolecular Systems Design & Engineering
-
(2010)
European Commission, Critical Raw Materials for the EU -
E. Lizundia, Dipan Kundu (2020)
Advances in Natural Biopolymer‐Based Electrolytes and Separators for Battery ApplicationsAdvanced Functional Materials, 31
-
Matthew Li, Jun Lu, Xiulei Ji, Yanguang Li, Yuyan Shao, Zhongwei Chen, C. Zhong, K. Amine (2020)
Design strategies for nonaqueous multivalent-ion and monovalent-ion battery anodesNature Reviews Materials, 5
-
Hao Jia, Hitoshi Onishi, R. Wagner, M. Winter, I. Cekic‐Laskovic (2018)
Intrinsically Safe Gel Polymer Electrolyte Comprising Flame-Retarding Polymer Matrix for Lithium Ion Battery Application.ACS applied materials & interfaces, 10 49
-
Anja Lautar, J. Bitenc, T. Rejec, R. Dominko, J-S Filhol, M. Doublet (2020)
Electrolyte Reactivity in the Double Layer in Mg Batteries: An interface potential-dependent DFT Study.Journal of the American Chemical Society
-
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
-
Yuqi Li, Yaxiang Lu, P. Adelhelm, M. Titirici, Yong‐Sheng Hu (2019)
Intercalation chemistry of graphite: alkali metal ions and beyond.Chemical Society reviews
-
Gavin Harper, R. Sommerville, E. Kendrick, L. Driscoll, P. Slater, R. Stolkin, A. Walton, Paul Christensen, O. Heidrich, S. Lambert, A. Abbott, Karl Ryder, L. Gaines, P. Anderson (2019)
Recycling lithium-ion batteries from electric vehiclesNature, 575
-
K. Abraham (2020)
How Comparable Are Sodium-Ion Batteries to Lithium-Ion Counterparts?ACS energy letters, 5
-
Mehdi Shakourian-Fard, G. Kamath, S. Taimoory, John Trant (2019)
Calcium-Ion Batteries: Identifying Ideal Electrolytes for Next-Generation Energy Storage Using Computational AnalysisThe Journal of Physical Chemistry C
-
L. Duchêne, A. Remhof, H. Hagemann, C. Battaglia (2020)
Status and prospects of hydroborate electrolytes for all-solid-state batteriesEnergy Storage Materials, 25
-
Darren Driscoll, Naveen Dandu, Nathan Hahn, Trevor Seguin, K. Persson, K. Zavadil, L. Curtiss, M. Balasubramanian (2020)
Rationalizing Calcium Electrodeposition Behavior by Quantifying Ethereal Solvation Effects on Ca2+ Coordination in Well-Dissociated ElectrolytesJournal of The Electrochemical Society
-
M. Dompablo, A. Ponrouch, A. Ponrouch, Patrik Johansson, Patrik Johansson, M. Palacín, M. Palacín (2019)
Achievements, Challenges, and Prospects of Calcium Batteries.Chemical reviews
-
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
-
A. Ponrouch, J. Bitenc, R. Dominko, Niklas Lindahl, P. Johansson, M. Palacín (2019)
Multivalent rechargeable batteriesEnergy Storage Materials
-
Qiu He, Bin Yu, Zhaohuai Li, Yan Zhao (2019)
Density Functional Theory for Battery MaterialsEnergy & Environmental Materials, 2
-
A. Muñoz‐García, Bernardino Tirri, I. Capone, A. Matic, Michele Pavone, S. Brutti (2020)
Structural evolution of disordered LiCo1/3Fe1/3Mn1/3PO4 in lithium batteries uncoveredJournal of Materials Chemistry, 8
-
R. Dominko, J. Bitenc, R. Berthelot, M. Gauthier, Gioele Pagot, V. Noto (2020)
Magnesium batteries: Current picture and missing pieces of the puzzleJournal of Power Sources
-
Yigang Yan, J. Grinderslev, M. Jørgensen, Lasse Skov, J. Skibsted, T. Jensen (2020)
Ammine Magnesium Borohydride Nanocomposites for All-Solid-State Magnesium Batteries, 3
-
M. Fiore, Samuel Wheeler, Kevin Hurlbutt, I. Capone, Jack Fawdon, R. Ruffo, M. Pasta (2020)
Paving the Way toward Highly Efficient, High-Energy Potassium-Ion Batteries with Ionic Liquid ElectrolytesChemistry of Materials
-
K. Matsumoto, Jinkwang Hwang, Shubham Kaushik, Chih-Yao Chen, R. Hagiwara (2019)
Advances in sodium secondary batteries utilizing ionic liquid electrolytesEnergy & Environmental Science
-
Yanliang Liang, Hui Dong, D. Aurbach, Yan Yao (2020)
Current status and future directions of multivalent metal-ion batteriesNature Energy, 5
-
T. Gregory, R. Hoffman, R. Winterton (1990)
Nonaqueous Electrochemistry of Magnesium Applications to Energy StorageJournal of The Electrochemical Society, 137
-
Haoyi Yang, Feng Wu, Ying Bai, Chuan Wu (2020)
Toward better electrode/electrolyte interfaces in the ionic-liquid-based rechargeable aluminum batteriesJournal of Energy Chemistry
-
Chueh-Han Wang, Cheng-Hsien Yang, Jeng‐Kuei Chang (2016)
Suitability of ionic liquid electrolytes for room-temperature sodium-ion battery applications.Chemical communications, 52 72
-
Huwei Wang, Dengyun Zhai, F. Kang (2020)
Solid electrolyte interphase (SEI) in potassium ion batteriesEnergy and Environmental Science, 13
-
Jiayue Wang, F. Genier, Hansheng Li, Saeid Biria, I. Hosein (2019)
A Solid Polymer Electrolyte from Cross-Linked Polytetrahydrofuran for Calcium Ion ConductionACS Applied Polymer Materials
-
Anja Lautar, D. Kopač, T. Rejec, Tanja Bančič, R. Dominko (2019)
Morphology evolution of magnesium facets: DFT and KMC simulations.Physical chemistry chemical physics : PCCP, 21 5
-
S. Lapidus, N. Rajput, X. Qu, K. Chapman, K. Persson, P. Chupas (2014)
Solvation structure and energetics of electrolytes for multivalent energy storage.Physical chemistry chemical physics : PCCP, 16 40
-
J. Schnell, Heiko Knörzer, Anna Imbsweiler, G. Reinhart (2020)
Solid versus Liquid—A Bottom‐Up Calculation Model to Analyze the Manufacturing Cost of Future High‐Energy BatteriesEnergy Technology
-
(2017)
Toyota set to sell long-range -
A. Franco, A. Rucci, D. Brandell, C. Frayret, M. Gaberšček, P. Jankowski, P. Johansson (2019)
Boosting Rechargeable Batteries R&D by Multiscale Modeling: Myth or Reality?Chemical Reviews, 119
-
R. Asakura, D. Reber, L. Duchêne, S. Payandeh, A. Remhof, H. Hagemann, C. Battaglia (2020)
4 V room-temperature all-solid-state sodium battery enabled by a passivating cathode/hydroborate solid electrolyte interfaceEnergy & Environmental Science
-
(2021)
Department of the Interior, U.S Geological Survey: Mineral Commodity Summaries 2021 -
Adam Greer, J. Jacquemin, C. Hardacre (2020)
Industrial Applications of Ionic LiquidsMolecules, 25
-
Douglas Nevers, F. Brushett, D. Wheeler (2017)
Engineering radical polymer electrodes for electrochemical energy storageJournal of Power Sources, 352
-
J. Heyd, G. Scuseria, M. Ernzerhof (2006)
Erratum: “Hybrid functionals based on a screened Coulomb potential” [J. Chem. Phys. 118, 8207 (2003)]Journal of Chemical Physics, 124
-
M. Kar, O. Tutusaus, D. Macfarlane, R. Mohtadi (2019)
Novel and versatile room temperature ionic liquids for energy storageEnergy & Environmental Science
-
Jimin Park, J. Lee, M. Alfaruqi, Won‐Jin Kwak, Jaekook Kim, Jang‐Yeon Hwang (2020)
Initial investigation and evaluation of potassium metal as an anode for rechargeable potassium batteriesJournal of Materials Chemistry, 8
-
Muratahan Aykol, Patrick Herring, Abraham Anapolsky (2020)
Machine learning for continuous innovation in battery technologiesNature Reviews Materials
-
M. Wentker, M. Greenwood, Marius Asaba, J. Leker (2019)
A raw material criticality and environmental impact assessment of state-of-the-art and post-lithium-ion cathode technologiesJournal of energy storage, 26
-
T. Leisegang, Falk Meutzner, M. Zschornak, W. Münchgesang, R. Schmid, T. Nestler, R. Eremin, A. Kabanov, V. Blatov, D. Meyer (2019)
The Aluminum-Ion Battery: A Sustainable and Seminal Concept?Frontiers in Chemistry, 7
-
S. Nowak, M. Winter (2017)
The Role of Sub- and Supercritical CO2 as “Processing Solvent” for the Recycling and Sample Preparation of Lithium Ion Battery ElectrolytesMolecules : A Journal of Synthetic Chemistry and Natural Product Chemistry, 22
-
Jeongjae Lee, B. Monserrat, I. Seymour, Zigeng Liu, S. Dutton, C. Grey (2018)
An ab initio investigation on the electronic structure, defect energetics, and magnesium kinetics in Mg3Bi2Journal of Materials Chemistry, 6
-
Yuyan Shao, N. Rajput, J. Hu, Mary Hu, T. Liu, Zhehao Wei, M. Gu, Xuchu Deng, Suochang Xu, K. Han, Jiulin Wang, Z. Nie, Guosheng Li, K. Zavadil, Jie Xiao, Chongmin Wang, W. Henderson, J. Zhang, Yong Wang, K. Mueller, K. Persson, Jun Liu (2015)
Nanocomposite polymer electrolyte for rechargeable magnesium batteriesNano Energy, 12
-
E. Quartarone, P. Mustarelli (2011)
Electrolytes for solid-state lithium rechargeable batteries: recent advances and perspectives.Chemical Society reviews, 40 5
-
J. Betz, Georg Bieker, P. Meister, T. Placke, M. Winter, R. Schmuch (2018)
Theoretical versus Practical Energy: A Plea for More Transparency in the Energy Calculation of Different Rechargeable Battery SystemsAdvanced Energy Materials, 9
-
T. Placke, Richard Kloepsch, Simon Dühnen, M. Winter (2017)
Lithium ion, lithium metal, and alternative rechargeable battery technologies: the odyssey for high energy densityJournal of Solid State Electrochemistry, 21
-
C. Martinez-Cisneros, Á. Fernández, C. Antonelli, B. Levenfeld, A. Várez, K. Vezzù, V. Noto, J. Sanchez (2020)
Opening the door to liquid-free polymer electrolytes for calcium batteriesElectrochimica Acta, 353
-
(2021)
SEEO Final Reporthttps://www.energy.gov/sites/ prod/f i les/2016/10/f34/Seeo_Sol idStateBatter ies_FTR_ DE-OE0000223_0_April_2015.pdf (accessed: April 2021) -
Meng‐Chang Lin, Ming Gong, Bingan Lu, Yingpeng Wu, Di-Yan Wang, Mingyun Guan, M. Angell, Changxin Chen, Jiang Yang, B. Hwang, H. Dai (2015)
An ultrafast rechargeable aluminium-ion batteryNature, 520
-
Duo Chen, Mengjie Lu, Dong Cai, Hang Yang, W. Han (2021)
Recent advances in energy storage mechanism of aqueous zinc-ion batteriesJournal of Energy Chemistry
-
S. Son, T. Gao, S. Harvey, K. Steirer, A. Stokes, A. Stokes, A. Norman, Chunsheng Wang, A. Cresce, K. Xu, C. Ban (2018)
An artificial interphase enables reversible magnesium chemistry in carbonate electrolytesNature Chemistry, 10
-
J. Schnell, Till Günther, T. Knoche, Christoph Vieider, Larissa Köhler, Alexander Just, M. Keller, S. Passerini, G. Reinhart (2018)
All-solid-state lithium-ion and lithium metal batteries – paving the way to large-scale productionJournal of Power Sources, 382
-
G. Elia, G. Greco, P. Kamm, F. García‐Moreno, S. Raoux, R. Hahn (2020)
Simultaneous X‐Ray Diffraction and Tomography Operando Investigation of Aluminum/Graphite BatteriesAdvanced Functional Materials, 30
-
Shuya Wang, Ya-Xian Chen, Bin Cui, Bo Li, Shuxuan Wang, Yanhua Cui, Zhicheng Ju, Q. Zhuang (2020)
The combined first principles and experimental study of O-doped KMnF3 as a cathode for potassium-ion batteriesApplied Surface Science
-
Zhenpeng Yao, V. Hegde, Alán Aspuru-Guzik, C. Wolverton (2018)
Discovery of Calcium‐Metal Alloy Anodes for Reversible Ca‐Ion BatteriesAdvanced Energy Materials, 9
-
Guobao Li, Xin Yue, G. Luo, Jijun Zhao (2015)
Electrode potential and activation energy of sodium transition-metal oxides as cathode materials for sodium batteries: A first-principles investigationComputational Materials Science, 106
-
R. Jalem, Yoshihiro Yamamoto, Hiromasa Shiiba, M. Nakayama, H. Munakata, T. Kasuga, K. Kanamura (2013)
Concerted Migration Mechanism in the Li Ion Dynamics of Garnet-Type Li7La3Zr2O12Chemistry of Materials, 25
-
D. Aurbach, Z. Lu, A. Schechter, Y. Gofer, Haim Gizbar, R. Turgeman, Y. Cohen, M. Moshkovich, E. Levi (2000)
Prototype systems for rechargeable magnesium batteriesNature, 407
-
Fabian Duffner, Niklas Kronemeyer, J. Tübke, J. Leker, M. Winter, R. Schmuch (2021)
Post-lithium-ion battery cell production and its compatibility with lithium-ion cell production infrastructureNature Energy, 6
-
J. Perdew, K. Burke, M. Ernzerhof (1996)
Generalized Gradient Approximation Made Simple.Physical review letters, 77 18
-
Hongyang Zhao, Jun Xu, Dandan Yin, Yaping Du (2018)
Electrolytes for Batteries with Earth-Abundant Metal Anodes.Chemistry, 24 69
-
T. Stettner, R. Dugas, A. Ponrouch, A. Balducci (2020)
Ionic Liquid-Based Electrolytes for Calcium-Based Energy Storage SystemsJournal of The Electrochemical Society
-
Aobing Du, Huanrui Zhang, Zhonghua Zhang, Jingwen Zhao, Z. Cui, Yimin Zhao, Shanmu Dong, Longlong Wang, Xin-hong Zhou, G. Cui (2019)
A Crosslinked Polytetrahydrofuran‐Borate‐Based Polymer Electrolyte Enabling Wide‐Working‐Temperature‐Range Rechargeable Magnesium BatteriesAdvanced Materials, 31
-
Renaud Coulomb, Simon Dietz, M. Godunova, T. Nielsen (2015)
Critical Minerals Today and in 2030: An Analysis for OECD Countries -
Dipan Kundu, S. Vajargah, L. Wan, Brian Adams, D. Prendergast, L. Nazar (2018)
Aqueous vs. nonaqueous Zn-ion batteries: consequences of the desolvation penalty at the interfaceEnergy and Environmental Science, 11
-
Kevin Huang, G. Ceder, E. Olivetti (2021)
Manufacturing scalability implications of materials choice in inorganic solid-state batteriesJoule
-
Simon Schneider, C. Bauer, P. Novák, Erik Berg (2019)
A modeling framework to assess specific energy, costs and environmental impacts of Li-ion and Na-ion batteriesSustainable Energy & Fuels
-
Zhenyou Li, O. Fuhr, M. Fichtner, Z. Zhao‐Karger (2019)
Towards stable and efficient electrolytes for room-temperature rechargeable calcium batteriesEnergy & Environmental Science
-
Hongming Yuan, He Li, Tingsong Zhang, Guanghua Li, T. He, Fei Du, S. Feng (2018)
A K2Fe4O7 superionic conductor for all-solid-state potassium metal batteriesJournal of Materials Chemistry, 6
-
Jiandong Wu, G. Gao, Guang-ming Wu, Bo Liu, Huiyu Yang, Xiaowei Zhou, Jichao Wang (2014)
Tavorite-FeSO4F as a potential cathode material for Mg ion batteries: a first principles calculation.Physical chemistry chemical physics : PCCP, 16 42
-
E. Carter (2008)
Challenges in Modeling Materials Properties Without Experimental InputScience, 321
-
L. Blanc, Dipan Kundu, L. Nazar (2020)
Scientific Challenges for the Implementation of Zn-Ion BatteriesJoule, 4
-
Jiaqiang Huang, Xiuyi Lin, H. Tan, Biao Zhang (2018)
Bismuth Microparticles as Advanced Anodes for Potassium‐Ion BatteryAdvanced Energy Materials, 8
-
K. Park, Q. Bai, Dong Kim, Dae Oh, Yizhou Zhu, Yifei Mo, Y. Jung (2018)
Design Strategies, Practical Considerations, and New Solution Processes of Sulfide Solid Electrolytes for All‐Solid‐State BatteriesAdvanced Energy Materials, 8
-
Haoyu Yu, Shaohong Li, D. Truhlar (2016)
Perspective: Kohn-Sham density functional theory descending a staircase.The Journal of chemical physics, 145 13
-
Mehdi Chouchane, Emiliano Primo, A. Franco (2020)
Mesoscale Effects in the Extraction of the Solid-State Lithium Diffusion Coefficient Values of Battery Active Materials: Physical Insights from 3D ModelingThe Journal of Physical Chemistry Letters, 11
-
(2021)
First-Principles Study of Na Intercalation and Diffusion Mechanisms at 2D MoS 2 /Graphene Interfaces. -
R. Gummow, G. Vamvounis, M. Kannan, Yinghe He (2018)
Calcium‐Ion Batteries: Current State‐of‐the‐Art and Future PerspectivesAdvanced Materials, 30
-
Xinpei Gao, Xu Liu, A. Mariani, G. Elia, M. Lechner, C. Streb, S. Passerini (2020)
Alkoxy-functionalized ionic liquid electrolytes: understanding ionic coordination of calcium ion speciation for the rational design of calcium electrolytesEnergy and Environmental Science, 13
-
Byungju Lee, Youngmin Ko, Giyun Kwon, Sechan Lee, Kyojin Ku, J.-W. Kim, K. Kang (2017)
Exploiting Biological Systems: Toward Eco-Friendly and High-Efficiency Rechargeable BatteriesJoule, 2
-
Kyu-Nam Jung, Hyun-Seop Shin, Min‐Sik Park, Jong‐Won Lee (2019)
Solid‐State Lithium Batteries: Bipolar Design, Fabrication, and ElectrochemistryChemElectroChem
-
T. Nestler, Falk Meutzner, A. Kabanov, M. Zschornak, T. Leisegang, D. Meyer (2019)
Combined Theoretical Approach for Identifying Battery Materials: Al3+ Mobility in OxidesChemistry of Materials
-
Yu Cao, Fusheng Pan, Huili Wang, Zhanxu Yang, Jie Sun (2020)
Density Functional Theory Calculations for the Evaluation of FePS3 as a Promising Anode for Mg Ion BatteriesTransactions of Tianjin University, 26
-
Junhua Song, Kuan Wang, Jianming Zheng, M. Engelhard, B. Xiao, E. Hu, Zihua Zhu, Chongmin Wang, Manling Sui, Yuehe Lin, David Reed, V. Sprenkle, P. Yan, Xiaolin Li (2020)
Controlling Surface Phase Transition and Chemical Reactivity of O3-Layered Metal Oxide Cathodes for High-Performance Na-Ion BatteriesACS energy letters, 5
-
Zhen Meng, Dominique Foix, N. Brun, R. Dedryvère, L. Stievano, M. Morcrette, R. Berthelot (2019)
Alloys to Replace Mg Anodes in Efficient and Practical Mg-Ion/Sulfur BatteriesACS Energy Letters
-
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
-
Mikhail Miroshnikov, K. Divya, G. Babu, A. Meiyazhagan, L. Arava, P. Ajayan, G. John (2016)
Power from nature: designing green battery materials from electroactive quinone derivatives and organic polymersJournal of Materials Chemistry, 4
-
F. Bella, A. Muñoz‐García, G. Meligrana, A. Lamberti, M. Destro, Michele Pavone, C. Gerbaldi (2017)
Unveiling the controversial mechanism of reversible Na storage in TiO2 nanotube arrays: Amorphous versus anatase TiO2Nano Research, 10
-
Hao-bo Sun, Peng Liang, Guanzhou Zhu, W. Hung, Yuan-Yao Li, Hung-Chun Tai, Cheng-Liang Huang, Jiachen Li, Yongtao Meng, M. Angell, Chang-an Wang, H. Dai (2020)
A high-performance potassium metal battery using safe ionic liquid electrolyteProceedings of the National Academy of Sciences, 117
-
Zhaolong Li, S. Ganapathy, Yaolin Xu, Zhouming Zhou, M. Sarilar, M. Wagemaker (2019)
Mechanistic Insight into the Electrochemical Performance of Zn/VO2 Batteries with an Aqueous ZnSO4 ElectrolyteAdvanced Energy Materials, 9
-
Dixing Ni, Jing Shi, Wan Xiong, Shuying Zhong, Bo Xu, C. Ouyang (2019)
The effect of protons on the Mg2+ migration in an α-V2O5 cathode for magnesium batteries: a first-principles investigation.Physical chemistry chemical physics : PCCP, 21 14
-
C. Monroe, J. Newman (2005)
The Impact of Elastic Deformation on Deposition Kinetics at Lithium/Polymer InterfacesJournal of The Electrochemical Society, 152
-
Kim Ta, K. See, A. Gewirth (2018)
Elucidating Zn, Mg, and Ca Electrodeposition Mechanisms in Nonaqueous Electrolytes for Next-Generation Metal BatteriesECS Meeting Abstracts
-
A. Ponrouch, M. Palacín (2018)
On the road toward calcium-based batteriesCurrent Opinion in Electrochemistry
-
Xu Liu, H. Euchner, M. Zarrabeitia, Xinpei Gao, G. Elia, A. Gross, S. Passerini (2020)
Operando pH Measurements Decipher H+/Zn2+ Intercalation Chemistry in High-Performance Aqueous Zn/δ-V2O5 BatteriesACS Energy Letters, 5
-
Tina Chen, G. Ceder, G. Gautam, P. Canepa (2019)
Evaluation of Mg Compounds as Coating Materials in Mg BatteriesFrontiers in Chemistry, 7
-
Darren Tan, Panpan Xu, Hedi Yang, Min‐cheol Kim, Han Nguyen, Erik Wu, Jean-Marie Doux, A. Banerjee, Y. Meng, Zheng Chen (2020)
Sustainable design of fully recyclable all solid-state batteriesMRS Energy & Sustainability, 7
-
Tengsheng Zhang, Yan Tang, Shan Guo, Xinxin Cao, Anqiang Pan, Guozhao Fang, Jiang Zhou, S. Liang (2020)
Fundamentals and perspectives in developing zinc-ion battery electrolytes: a comprehensive reviewEnergy and Environmental Science, 13
-
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
-
Zhaoxin Yu, S. Shang, J. Seo, Daiwei Wang, Xiangyi Luo, Qingquan Huang, Shuru Chen, Jun Lu, Xiaolin Li, Zi‐Kui Liu, Donghai Wang (2017)
Exceptionally High Ionic Conductivity in Na3P0.62As0.38S4 with Improved Moisture Stability for Solid‐State Sodium‐Ion BatteriesAdvanced Materials, 29
-
Lei Xu, Yang Lu, Chen‐Zi Zhao, Hong Yuan, Gao‐Long Zhu, Li-Peng Hou, Qiang Zhang, Jiaqi Huang (2020)
Toward the Scale‐Up of Solid‐State Lithium Metal Batteries: The Gaps between Lab‐Level Cells and Practical Large‐Format BatteriesAdvanced Energy Materials, 11
-
P. Canepa, G. Gautam, Daniel Hannah, R. Malik, Miao Liu, K. Gallagher, K. Persson, G. Ceder (2017)
Odyssey of Multivalent Cathode Materials: Open Questions and Future Challenges.Chemical reviews, 117 5
-
J. Perdew, K. Burke, Yue Wang (1996)
Generalized gradient approximation for the exchange-correlation hole of a many-electron system.Physical review. B, Condensed matter, 54 23
-
A. Ponrouch, C. Frontera, F. Bardé, M. Palacín (2016)
Towards a calcium-based rechargeable battery.Nature materials, 15 2
-
S. Prabakar, K. Sohn, M. Pyo (2020)
Ca2+-Based Dual-Carbon Batteries in Ternary Ionic Liquid Electrolytes.ACS applied materials & interfaces
-
Wenchao Zhang, Yajie Liu, Zaiping Guo (2019)
Approaching high-performance potassium-ion batteries via advanced design strategies and engineeringScience Advances, 5
-
M. Fehse, A. Iadecola, M. Sougrati, P. Conti, M. Giorgetti, L. Stievano (2019)
Applying chemometrics to study battery materials: Towards the comprehensive analysis of complex operando datasetsEnergy Storage Materials
-
Kai Wu, Jianhang Huang, Jin Yi, Xiaoyu Liu, Yuyu Liu, Yonggang Wang, Jiujun Zhang, Yongyao Xia (2020)
Recent Advances in Polymer Electrolytes for Zinc Ion Batteries: Mechanisms, Properties, and PerspectivesAdvanced Energy Materials, 10
-
Hongcai Gao, Leigang Xue, Sen Xin, J. Goodenough (2018)
A High-Energy-Density Potassium Battery with a Polymer-Gel Electrolyte and a Polyaniline Cathode.Angewandte Chemie, 57 19
-
(2017)
Boon-Brett, JRC-EU Science for Policy Report Competitiveness in Advanced Li-ion Batteries for E-Mobility and Stationary Storage Applications – Opportunities and Actions –EUR 28837 -
C. Ling, D. Banerjee, Wei-Hao Song, Minjuan Zhang, M. Matsui (2012)
First-principles study of the magnesiation of olivines: redox reaction mechanism, electrochemical and thermodynamic propertiesJournal of Materials Chemistry, 22
-
Christofer Sångeland, R. Younesi, Jonas Mindemark, D. Brandell (2019)
Towards room temperature operation of all-solid-state Na-ion batteries through polyester–polycarbonate-based polymer electrolytesEnergy Storage Materials
-
Shoshi Terada, Hiroko Susa, S. Tsuzuki, Toshihiko Mandai, K. Ueno, Kaoru Dokko, M. Watanabe (2018)
Glyme–Sodium Bis(fluorosulfonyl)amide Complex Electrolytes for Sodium Ion BatteriesThe Journal of Physical Chemistry C
-
Ziqin Rong, R. Malik, P. Canepa, G. Gautam, Mengxing Liu, Anubhav Jain, K. Persson, G. Ceder (2015)
Materials Design Rules for Multivalent Ion Mobility in Intercalation StructuresChemistry of Materials, 27
-
Wathanyu Kao-ian, R. Pornprasertsuk, P. Thamyongkit, T. Maiyalagan, S. Kheawhom (2019)
Rechargeable Zinc-Ion Battery Based on Choline Chloride-Urea Deep Eutectic SolventJournal of The Electrochemical Society
-
Xiaoqi Sun, Patrick Bonnick, V. Duffort, Miao Liu, Ziqin Rong, K. Persson, G. Ceder, L. Nazar (2016)
A high capacity thiospinel cathode for Mg batteriesEnergy and Environmental Science, 9
-
M. Winter, B. Barnett, K. Xu (2018)
Before Li Ion Batteries.Chemical reviews, 118 23
-
Brandon Bukowski, N. Deskins (2015)
The interactions between TiO2 and graphene with surface inhomogeneity determined using density functional theory.Physical chemistry chemical physics : PCCP, 17 44
-
Yuchuan Zhang, Xiaogang Niu, Lulu Tan, L. Deng, Shifeng Jin, L. Zeng, Hong Xu, Yujie Zhu (2020)
K0.83V2O5:A New Layered Compound as a Stable Cathode Material for Potassium Ion Batteries.ACS applied materials & interfaces
-
Zeyu Wang, Arkamita Bandyopadhyay, H. Kumar, Manni Li, A. Venkatakrishnan, V. Shenoy, E. Detsi (2019)
Degradation of magnesium-ion battery anodes by galvanic replacement reaction in all-phenyl complex electrolyteJournal of Energy Storage
-
Hui Dong, Yanliang Liang, O. Tutusaus, R. Mohtadi, Ye Zhang, Fang Hao, Yan Yao (2019)
Directing Mg-Storage Chemistry in Organic Polymers toward High-Energy Mg BatteriesJoule
-
Ruqian Lian, Dashuai Wang, Xing Ming, Rongyu Zhang, Yingjin Wei, Jianrui Feng, Xing Meng, Gang Chen (2018)
Phase transformation, ionic diffusion, and charge transfer mechanisms of KVOPO4 in potassium ion batteries: first-principles calculationsJournal of Materials Chemistry, 6
-
T. Graedel, T. Graedel, E. Harper, N. Nassar, P. Nuss, B. Reck (2015)
Criticality of metals and metalloidsProceedings of the National Academy of Sciences, 112
-
Jonas Mindemark, M. Lacey, T. Bowden, D. Brandell (2018)
Beyond PEO—Alternative host materials for Li + -conducting solid polymer electrolytesProgress in Polymer Science
-
A. Scafuri, R. Berthelot, Klemen Pirnat, Alen Vižintin, J. Bitenc, G. Aquilanti, Dominique Foix, R. Dedryvère, I. Arčon, R. Dominko, L. Stievano (2020)
Spectroscopic Insights into the Electrochemical Mechanism of Rechargeable Calcium/Sulfur BatteriesChemistry of Materials, 32
-
K. Kravchyk, Shutao Wang, L. Piveteau, M. Kovalenko (2017)
Efficient Aluminum Chloride–Natural Graphite BatteryChemistry of Materials, 29
-
R. Tripathi, S. Wood, M. Islam, L. Nazar (2013)
Na-ion mobility in layered Na2FePO4F and olivine Na[Fe,Mn]PO4Energy and Environmental Science, 6
-
L. Trahey, F. Brushett, N. Balsara, G. Ceder, Lei Cheng, Y. Chiang, Nathan Hahn, B. Ingram, S. Minteer, Jeffrey Moore, K. Mueller, L. Nazar, K. Persson, Donald Siegel, Kang Xu, K. Zavadil, V. Srinivasan, G. Crabtree (2020)
Energy storage emerging: A perspective from the Joint Center for Energy Storage ResearchProceedings of the National Academy of Sciences, 117
-
Yezhen Zheng, Peng Zhang, Shunqing Wu, Y. Wen, Zi-zhong Zhu, Yong Yang (2013)
First-Principles Investigations on the Na2MnPO4F as a Cathode Material for Na-Ion BatteriesJournal of The Electrochemical Society, 160
-
Xingchao Wang, Zhenfeng Shang, Aikai Yang, Qiu Zhang, F. Cheng, Dianzeng Jia, Jun Chen (2019)
Combining Quinone Cathode and Ionic Liquid Electrolyte for Organic Sodium-Ion BatteriesChem
-
Célestine Singer, J. Schnell, G. Reinhart (2020)
Scalable Processing Routes for the Production of All‐Solid‐State Batteries—Modeling Interdependencies of Product and ProcessEnergy technology
-
Qingguang Pan, Decai Gong, Yongbing Tang (2020)
Recent progress and perspective on electrolytes for sodium/potassium-based devicesEnergy Storage Materials, 31
-
B. Swain (2017)
Recovery and recycling of lithium: A reviewSeparation and Purification Technology, 172
-
A. Massaro, A. Muñoz‐García, Pasqualino Maddalena, F. Bella, G. Meligrana, C. Gerbaldi, Michele Pavone (2020)
First-principles study of Na insertion at TiO2 anatase surfaces: new hints for Na-ion battery designNanoscale Advances, 2
-
Joshua Young, Manuel Smeu (2018)
Ethylene Carbonate-Based Electrolyte Decomposition and Solid-Electrolyte Interphase Formation on Ca Metal Anodes.The journal of physical chemistry letters, 9 12
-
J. Weaving, A. Lim, J. Millichamp, T. Neville, D. Ledwoch, E. Kendrick, P. McMillan, P. Shearing, C. Howard, D. Brett (2020)
Elucidating the Sodiation Mechanism in Hard Carbon by Operando Raman SpectroscopyACS Applied Energy Materials
-
D. Mecerreyes, Luca Porcarelli, N. Casado (2020)
Innovative Polymers for Next‐Generation BatteriesMacromolecular Chemistry and Physics, 221
-
Ziheng Lu, F. Ciucci (2017)
Metal Borohydrides as Electrolytes for Solid-State Li, Na, Mg, and Ca Batteries: A First-Principles StudyChemistry of Materials, 29
-
Ka-Cheong Lau, Trevor Seguin, Emily Carino, Nathan Hahn, J. Connell, B. Ingram, K. Persson, K. Zavadil, Chen Liao (2019)
Widening Electrochemical Window of Mg Salt by Weakly Coordinating Perfluoroalkoxyaluminate Anion for Mg Battery ElectrolyteJournal of The Electrochemical Society
-
Zhijing Yu, S. Jiao, Shijie Li, Xiaodong Chen, Weili Song, Teng Teng, Jiguo Tu, Haosen Chen, Guohua Zhang, D. Fang (2018)
Flexible Stable Solid‐State Al‐Ion BatteriesAdvanced Functional Materials, 29
-
X. Qu, A. Jain, N. Rajput, Lei Cheng, Yong Zhang, S. Ong, Miriam Brafman, E. Maginn, L. Curtiss, K. Persson (2015)
The Electrolyte Genome project: A big data approach in battery materials discoveryComputational Materials Science, 103
-
R. Verrelli, A. Black, C. Pattanathummasid, Deyana, S. Tchitchekova, A. Ponrouch, J. Oró-Solé, C. Frontera, F. Bardé, P. Rozier, R. Palacín (2018)
On the strange case of divalent ions intercalation in V2O5Journal of Power Sources
-
X. Casas, M. Niederberger, E. Lizundia (2020)
A Sodium Ion Battery Separator with Reversible Voltage Response Based on Water-Soluble Cellulose Derivatives.ACS applied materials & interfaces
-
Mengya Li, Z. Du, M. Khaleel, I. Belharouak (2020)
Materials and engineering endeavors towards practical sodium-ion batteriesEnergy Storage Materials, 25
-
Yi Sun, Pengcheng Shi, H. Xiang, Xin Liang, Yan Yu (2019)
High-Safety Nonaqueous Electrolytes and Interphases for Sodium-Ion Batteries.Small, 15 14
-
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
-
R. Deivanayagam, B. Ingram, R. Shahbazian‐Yassar (2019)
Progress in development of electrolytes for magnesium batteriesEnergy Storage Materials
-
Hongming Yi, Moxiang Ling, Wenbin Xu, Xianfeng Li, Qiong Zheng, Huamin Zhang (2018)
VSC-doping and VSU-doping of Na3V2-xTix(PO4)2F3 compounds for sodium ion battery cathodes: Analysis of electrochemical performance and kinetic propertiesNano Energy, 47
-
P. Nuss, M. Eckelman (2014)
Life Cycle Assessment of Metals: A Scientific SynthesisPLoS ONE, 9
-
Wenzao Li, Diana Lutz, Lei Wang, K. Takeuchi, A. Marschilok, E. Takeuchi (2020)
Peering into Batteries: Electrochemical Insight through in Situ and Operando Methods over Multiple Length ScalesECS Meeting Abstracts
-
H. Fei, Yining Liu, Y. An, Xiaoyan Xu, Guifang Zeng, Yuan Tian, L. Ci, Baojuan Xi, S. Xiong, Jinkui Feng (2018)
Stable all-solid-state potassium battery operating at room temperature with a composite polymer electrolyte and a sustainable organic cathodeJournal of Power Sources
-
J. Muldoon, Claudiu Bucur, T. Gregory (2014)
Quest for nonaqueous multivalent secondary batteries: magnesium and beyond.Chemical reviews, 114 23
-
B. Jache, P. Adelhelm (2014)
Use of graphite as a highly reversible electrode with superior cycle life for sodium-ion batteries by making use of co-intercalation phenomena.Angewandte Chemie, 53 38
-
Gustav Åvall, Jonas Mindemark, D. Brandell, P. Johansson (2018)
Sodium‐Ion Battery Electrolytes: Modeling and SimulationsAdvanced Energy Materials, 8
-
Lei Cheng, R. Assary, X. Qu, Anubhav Jain, S. Ong, N. Rajput, K. Persson, L. Curtiss (2015)
Accelerating Electrolyte Discovery for Energy Storage with High-Throughput Screening.The journal of physical chemistry letters, 6 2
-
Jun Liu, Zhenan Bao, Yi Cui, Eric Dufek, J. Goodenough, P. Khalifah, Qiuyan Li, B. Liaw, Ping Liu, A. Manthiram, Y. Meng, V. Subramanian, M. Toney, V. Viswanathan, M. Whittingham, Jie Xiao, Wu Xu, Jihui Yang, Xiao‐Qing Yang, Ji‐Guang Zhang (2019)
Pathways for practical high-energy long-cycling lithium metal batteriesNature Energy, 4
-
M. Fehse, Aurélien Henry, A. Zitolo, B. Boury, Nicolas Louvain, L. Stievano (2020)
Revisiting the Sodiation Mechanism of TiO2 via Operando X-ray Absorption SpectroscopyApplied Sciences
-
M. Nakayama, Shohei Yamada, R. Jalem, T. Kasuga (2016)
Density functional studies of olivine-type LiFePO4 and NaFePO4 as positive electrode materials for rechargeable lithium and sodium ion batteriesSolid State Ionics, 286
-
Lixin Qiao, X. Judez, T. Rojo, M. Armand, Heng Zhang (2020)
Review—Polymer Electrolytes for Sodium BatteriesJournal of The Electrochemical Society
-
Qing Zhao, S. Stalin, Chen‐Zi Zhao, L. Archer (2020)
Designing solid-state electrolytes for safe, energy-dense batteriesNature Reviews Materials, 5
-
A. Muñoz‐García, Michele Pavone, Andrew Ritzmann, E. Carter (2013)
Oxide ion transport in Sr2Fe1.5Mo0.5O(6-δ), a mixed ion-electron conductor: new insights from first principles modeling.Physical chemistry chemical physics : PCCP, 15 17
-
F. Genier, Cameron Burdin, Saeid Biria, I. Hosein (2019)
A novel calcium-ion solid polymer electrolyte based on crosslinked poly(ethylene glycol) diacrylateJournal of Power Sources
-
M. Huijbregts, S. Hellweg, R. Frischknecht, H. Hendriks, K. Hungerbühler, A. Hendriks (2010)
Cumulative energy demand as predictor for the environmental burden of commodity production.Environmental science & technology, 44 6
- Publisher
- Wiley
- Copyright
- © 2021 Wiley‐VCH GmbH
- ISSN
- 1614-6832
- eISSN
- 1614-6840
- DOI
- 10.1002/aenm.202100785
- Publisher site
- See Article on Publisher Site
Abstract
Journal
Advanced Energy Materials – Wiley
Published: Nov 1, 2021
Keywords: electrochemical energy storage; metal anodes; post‐lithium batteries; solid electrolytes; sustainability