ABE, T.FUKUDA, H.IRIYAMA, Y.OGUMI, Z: "Solvated Li-Ion Transfer at Interface Between Graphite and Electrolyte", J. ELECTROCHEM. SOC., vol. 151, no. 8, 2004, pages A1120
|
ABE, T.SAGANE, F.OHTSUKA, M.IRIYAMA, Y.OGUMI, Z: "Lithium-Ion Transfer at the Interface Between Lithium-Ion Conductive Ceramic Electrolyte and Liquid Electrolyte-A Key to Enhancing the Rate Capability of Lithium-Ion Batteries", J. ELECTROCHEM. SOC., vol. 152, no. 11, 2005, pages A2151
|
AETUKURI, N. B.MCCLOSKEY, B. D.GARCIA, J. M.KRUPP, L. E.VISWANATHAN, V.LUNTZ, A. C.: "Solvating additives drive solution-mediated electrochemistry and enhance toroid growth in non-aqueous Li-02 batteries", NAT. CHEM., vol. 7, no. 1, 2015, pages 50 - 56
|
ANANTHARAMULU ET AL.: "A wide-ranging review on Nasicon type materials", J MATER SCI, vol. 46, 2011, pages 2821 - 2837, XP019883243, DOI: 10.1007/s10853-011-5302-5
|
ANDERSSON, A. M.HERSTEDT, M.BISHOP, A. G.EDSTROM, K.: "The influence of lithium salt on the interfacial reactions controlling the thermal stability of graphite anodes", ELECTROCHIM. ACTA, vol. 47, no. 12, 2002, pages 1885 - 1898, XP004349341, DOI: 10.1016/S0013-4686(02)00044-0
|
ANNIS, B. K.BADYAL, Y. S.SIMONSON, J. M.: "Neutron-scattering determination of the Li+ environment in an aqueous poly(ethylene oxide) solution", J. PHYS. CHEM. B, vol. 108, no. 8, 2004, pages 2554 - 2556
|
AURBACH ET AL., ELECTROCHIM. ACTA, vol. 34, no. 2, 1989, pages 141 - 156
|
AURBACH, D, NONAQUEOUS ELECTROCHEMISTRY, 1999
|
BACHMAN, J. C.; MUY, S.; GRIMAUD, A.; CHANG, H. H.; POUR, N.; LUX, S. F.; PASCHOS, O.; MAGLIA, F.; LUPART, S.; LAMP, P.: "Chemical Reviews", vol. 22, 2020, AMERICAN CHEMICAL SOCIETY CERVENEC, article "Approaching Practically Accessible Solid-State Batteries: Stability Issues Related to Solid Electrolytes and Interfaces", pages: 6878 - 6933
|
BAIKOV, Y. M.: "Self-diffusion of lithium, hydrogen, and oxygen ions in crystalline lithium hydroxide", PHYS. SOLID STATE, vol. 52, no. 10, 2010, pages 2044 - 2057
|
BEDROV, D.BORODIN, O.HOOPER, J. B.: "Li+ Transport and Mechanical Properties of Model Solid Electrolyte Interphases (SEI): Insight from Atomistic Molecular Dynamics Simulations", J. PHYS. CHEM. C, vol. 121, no. 30, 2017, pages 16098 - 16109
|
BENITEZ, L.SEMINARIO, J. M.: "Ion Diffusivity through the Solid Electrolyte Interphase in Lithium-Ion Batteries", J. ELECTROCHEM. SOC., vol. 164, no. 11, 2017, pages E3159 - E3170
|
BIEFELD, R. M.JOHNSON, R. T: "Ionic Conductivity of Li2 O - Based Mixed Oxides and the Effects of Moisture and LiOH on Their Electrical and Structural Properties", J. ELECTROCHEM. SOC., vol. 126, no. 1, 1979, pages 1 - 6, XP001251755
|
BORODIN, O.HAN, S.-D.DAUBERT, J. S.SEO, D. M.YUN, S.-H.HENDERSON, W. A.: "Electrolyte Solvation and Ionic Association", J. ELECTROCHEM. SOC., vol. 162, no. 4, 2015, pages A501 - A510
|
BORODIN, O.SUO, L.GOBET, M.REN, X.WANG, F.FARAONE, A.PENG, J.OLGUIN, M.SCHROEDER, M.DING, M. S. ET AL.: "Liquid Structure with Nano-Heterogeneity Promotes Cationic Transport in Concentrated Electrolytes", ACS NANO, vol. 11, no. 10, 2017, pages 10462 - 10471
|
BORODIN, O.ZHUANG, G. V.ROSS, P. N.XU, K: "Molecular dynamics simulations and experimental study of lithium ion transport in dilithium ethylene dicarbonate", J. PHYS. CHEM. C, vol. 117, no. 15, 2013, pages 7433 - 7444
|
BRUG ET AL.: "The analysis of electrode impedances complicated by the presence of a constant phase element", J. ELECTROANAL. CHEM, vol. 176, no. 1-2, 1984, pages 275 - 295, XP026534431, DOI: 10.1016/S0022-0728(84)80324-1
|
BURNS, J. C.SINHA, N. N.JAIN, G.YE, H.VANELZEN, C. M.SCOTT, E.XIAO, A.LAMANNA, W. M.DAHN, J. R.: "The Impact of Intentionally Added Water to the Electrolyte of Li-Ion Cells", J. ELECTROCHEM. SOC., vol. 161, no. 3, 2014, pages A247 - A255
|
BURNS, J. C.SINHA, N. N.JAIN, G.YE, H.VANELZEN, C. M.SCOTT, E.XIAO, A.LAMANNA, W. M.DAHN, J. R: "The Impact of Intentionally Added Water to the Electrolyte of Li-ion Cells", J. ELECTROCHEM. SOC., vol. 160, no. 11, 2013, pages A2281 - A2287
|
BUSCHE, M. R.; WEISS, M.; LEICHTWEISS, T.; FIEDLER, C.; DROSSEL, T.; GEISS, M.; KRONENBERGER, A.; WEBER, D. A.; JANEK, J: "The Formation of the Solid/Liquid Electrolyte Interphase (SLEI) on NASICON- Type Glass Ceramics and LiPON", ADV. MATER. INTERFACES, vol. 7, no. 19, 2020, pages 2000380
|
BUSCHE, M. R.DROSSEL, T.LEICHTWEISS, T.WEBER, D. A.FALK, M.SCHNEIDER, M.REICH, M. L.SOMMER, H.ADELHELM, P.JANEK, J.: "Dynamic formation of a solid-liquid electrolyte interphase and its consequences for hybrid-battery concepts", NAT. CHEM., vol. 8, no. 5, 2016, pages 426 - 434
|
CHEN, Y. C.OUYANG, C. Y.SONG, L. J.SUN, Z. L.: "Electrical and lithium ion dynamics in three main components of solid electrolyte interphase from density functional theory study", J. PHYS. CHEM. C, vol. 115, no. 14, 2011, pages 7044 - 7049
|
CHOUDHURY, S.ARCHER, L. A.: "Lithium Fluoride Additives for Stable Cycling of Lithium Batteries at High Current Densities", ADV. ELECTRON. MATER., vol. 2, no. 2, 2016, pages 1500246
|
CIOSEK HOGSTROM, K.MALMGREN, S.HAHLIN, M.RENSMO, H.THEBAULT, F.JOHANSSON, P.EDSTROM, K.: "The influence of PMS-additive on the electrode/electrolyte interfaces in LiFeP04/graphite li-ion batteries", J. PHYS. CHEM. C, vol. 117, no. 45, 2013, pages 23476 - 23486, XP055617867, DOI: 10.1021/jp4045385
|
DEDRYVERE, R.LEROY, S.MARTINEZ, H.BLANCHARD, F.LEMORDANT, D.GONBEAU, D.: "XPS valence characterization of lithium salts as a tool to study electrode/electrolyte interfaces of Li-ion batteries", J. PHYS. CHEM. B, vol. 110, no. 26, 2006, pages 12986 - 12992
|
DING, M. S.XU, K.JOW, T. R.: "Conductivity and Viscosity of PC-DEC and PC-EC Solutions of LiBOB", J. ELECTROCHEM. SOC., vol. 152, no. 1, 2005, pages A132
|
DONOSO, J. PCAVALCANTE, M. G.BONAGAMBA, T. J.NASCIMENTO, O. R.PANEPUCCI, H: "Magnetic resonance study of water absorption in some peo-lithium salt polymer electrolytes", ELECTROCHIM. ACTA, vol. 40, no. 13-14, 1995, pages 2357 - 2360, XP004019714, DOI: 10.1016/0013-4686(95)00193-I
|
DU, M.LIAO, K.LU, Q.SHAO, Z: "Recent advances in the interface engineering of solid-state Li-ion batteries with artificial buffer layers: Challenges, materials, construction, and characterization", ENERGY ENVIRON. SCI., vol. 12, no. 6, 2019, pages 1780 - 1804
|
DUBOUIS, N.SERVA, A.SALAGER, E.DESCHAMPS, M.SALANNE, M.GRIMAUD, A.: "The Fate of Water at the Electrochemical Interfaces: Electrochemical Behavior of Free Water Versus Coordinating Water", J. PHYS. CHEM. LETT., vol. 9, no. 23, 2018, pages 6683 - 6688, XP055567619, DOI: 10.1021/acs.jpclett.8b03066
|
DUNSTAN, M. T.GRIFFIN, J. M.BLANC, F.LESKES, M.GREY, C. P.: "Ion Dynamics in Li2C03 Studied by Solid-State NMR and First-Principles Calculations", J. PHYS. CHEM. C, vol. 119, no. 43, 2015, pages 24255 - 24264
|
EDSTROM ET AL.: "Journal of Power Sources", vol. 153, 2006, ELSEVIER, pages: 380 - 384
|
FAMPRIKIS, T.CANEPA, P.DAWSON, J. A.ISLAM, M. S.MASQUELIER, C: "Fundamentals of inorganic solid-state electrolytes for batteries", NATURE MATERIALS. NATURE RESEARCH PROSINEC, vol. 1, 2019, pages 1278 - 1291, XP036928392, DOI: 10.1038/s41563-019-0431-3
|
FIEDLER, C.LUERSSEN, B.ROHNKE, M.SANN, J.JANEK, J.: "XPS and SIMS Analysis of Solid Electrolyte Interphases on Lithium Formed by Ether-Based Electrolytes", J. ELECTROCHEM., vol. 164, no. 14, 2017, pages A3742 - A3749
|
FORAN, G.MANKOVSKY, D.VERDIER, N.LEPAGE, D.PREBE, A.AYME-PERROT, D.DOLLE, M: "iScience", vol. 23, 2020, ELSEVIER INC, article "The Impact of Absorbed Solvent on the Performance of Solid Polymer Electrolytes for Use in Solid-State Lithium Batteries", pages: 101597
|
FULLERTON-SHIREY, S. K.GANAPATIBHOTLA, L. V. N. R.SHI, W.MARANAS, J. K.: "Influence of thermal history and humidity on the ionic conductivity of nanoparticle-filled solid polymer electrolytes", J. POLYM. SCI. PART B POLYM. PHYS., vol. 49, no. 21, 2011, pages 1496 - 1505
|
GAO, Z.SUN, H.FU, L.YE, F.ZHANG, Y.LUO, W.HUANG, Y: "Promises, Challenges, and Recent Progress of Inorganic Solid-State Electrolytes for All-Solid-State Lithium Batteries", ADV. MATER., vol. 30, no. 17, 2018, pages 1705702
|
GUO, H.HOU, G.DAI, L.YAO, Y.WEI, C.LIANG, Z.SI, P.CI, L: "Stable Lithium Anode of Li-02 Batteries in a Wet Electrolyte Enabled by a High-Current Treatment", J. PHYS. CHEM. LETT., vol. 11, no. 1, 2020, pages 172 - 178
|
GUO, R.GALLANT, B. M.: "Li20 Solid Electrolyte Interphase: Probing Transport Properties at the Chemical Potential of Lithium", CHEM. MATER., vol. 32, no. 13, 2020, pages 5525 - 5533
|
GUPTA, A.KAZYAK, E.DASGUPTA, N. P.SAKAMOTO, J.: "Electrochemical and Surface Chemistry Analysis of Lithium Lanthanum Zirconium Tantalum Oxide (LLZTO)/Liquid Electrolyte (LE) Interfaces", J. POWER SOURCES, vol. 474, 2020, pages 228598
|
GUPTA, N.LINSCHITZ, H: "Hydrogen-bonding and protonation effects in electrochemistry of quinones in aprotic solvents", J. AM. CHEM. SOC., vol. 119, no. 27, 1997, pages 6384 - 6391
|
HALL, D. S.SELF, J.DAHN, J. R.: "Dielectric Constants for Quantum Chemistry and Li-Ion Batteries: Solvent Blends of Ethylene Carbonate and Ethyl Methyl Carbonate", J. PHYS. CHEM. C, vol. 119, no. 39, 2015, pages 22322 - 22330
|
HALL, H. K.: "Correlation of the Base Strengths of Amines", J. AM. CHEM. SOC., vol. 79, no. 20, 1957, pages 5441 - 5444
|
HAN, X.GONG, Y.FU, K.HE, X.HITZ, G. T.DAI, J.PEARSE, A.LIU, B.WANG, H.RUBLOFF, G. ET AL.: "Negating interfacial impedance in garnet-based solid-state Li metal batteries", NAT. MATER., vol. 16, no. 5, 2017, pages 572 - 579, XP055634641, DOI: 10.1038/nmat4821
|
HASEGAWA, S.; IMANISHI, N.; ZHANG, T.; XIE, J.; HIRANO, A.; TAKEDA, Y.; YAMAMOTO, O: "Study on lithium/air secondary batteries-Stability of NASICON-type lithium ion conducting glass-ceramics with water", J. POWER SOURCES, vol. 189, no. 1, 2009, pages 371 - 377, XP025982710, DOI: 10.1016/j.jpowsour.2008.08.009
|
HE, Y.LU, C.LIU, S.ZHENG, W.LUO, J.: "Interfacial Incompatibility and Internal Stresses in All- Solid- State Lithium Ion Batteries", ADV. ENERGY MATER., vol. 9, no. 36, 2019, pages 1901810
|
HIRAYAMA, H.; TACHIKAWA, N.; YOSHII, K.; WATANABE, M.; KATAYAMA, Y: "Ionic Conductivity and Viscosity of Solvate Ionic Liquids Composed of Glymes and Excess Lithium Bis(Trifluoromethylsulfonyl)Amide", ELECTROCHEMISTRY, vol. 83, no. 10, 2015, pages 824 - 827
|
IOANNITI, M. M.TENHAEFF, W. E.: "Enhancing the stability of lithium ion Lii+x+yAlxTi2-xSiyP3-yOi2 glass - ceramic conductors in aqueous electrolytes", J. POWER SOURCES, vol. 371, 2017, pages 209 - 216
|
JANEK, J.ZEIER, W. G: "A solid future for battery development", NATURE ENERGY. NATURE PUBLISHING GROUP ZARI, vol. 8, 2016, pages 1 - 4
|
JENA, A.MEESALA, Y.HU, S. F.CHANG, H.LIU, R. S.: "ACS Energy Letters", vol. 9, 2018, AMERICAN CHEMICAL SOCIETY, article "Ameliorating interfacial ionic transportation in all-solid-state li-ion batteries with interlayer modifications", pages: 2775 - 2795
|
JOHANSSON, A.LAUENSTEIN, A.TEGENFELDT, J: "Effect of water on diffusion and ionic conductivity in PEG and LiCF3S03PEG10", J. PHYS. CHEM., vol. 99, no. 16, 1995, pages 6163 - 6166
|
KALIDAS, C.HEFTER, G.MARCUS, Y: "Gibbs Energies of Transfer of Cations from Water to Mixed Aqueous Organic Solvents", CHEM. REV., vol. 100, no. 3, 2000
|
KAMPHAUS, E. P.; ANGARITA-GOMEZ, S.; QIN, X.; SHAO, M.; ENGELHARD, M.; MUELLER, K. T.; MURUGESAN, V.; BALBUENA, P. B.: "Role of Inorganic Surface Layer on Solid Electrolyte Interphase Evolution at Li-Metal Anodes", ACS APPL. MATER. INTERFACES, vol. 11, no. 34, 2019, pages 31467 - 31476
|
KASEMCHAINAN, J.ZEKOLL, S.SPENCER JOLLY, D.NING, Z.HARTLEY, G. O.MARROW, J.BRUCE, P. G.: "Critical stripping current leads to dendrite formation on plating in lithium anode solid electrolyte cells", NAT. MATER., vol. 18, no. 10, 2019, pages 1105 - 1111, XP036888517, DOI: 10.1038/s41563-019-0438-9
|
KATOH, T.INDA, Y.BABA, M.YE, R: "Lithium-ion conductive glass-ceramics with composition ratio control and their electrochemical characteristics", J. CERAM. SOC. JAPAN, vol. 118, no. 1384, 2010, pages 1159 - 1162
|
KATOH, T.INDA, Y.NAKAJIMA, K.YE, R.BABA, M: "Lithium/water battery with lithium ion conducting glass-ceramics electrolyte", J. POWER SOURCES, vol. 196, no. 16, 2011
|
KELLER, M.VARZI, A.PASSERINI, S: "Hybrid electrolytes for lithium metal batteries", J. POWER SOURCES, vol. 392, 2018, pages 206 - 225
|
KERMAN, K.LUNTZ, A.VISWANATHAN, V.CHIANG, Y.-M.CHEN, Z.: "Review—Practical Challenges Hindering the Development of Solid State Li Ion Batteries", J. ELECTROCHEM. SOC., vol. 164, no. 14, 2017, pages A1731 - A1744
|
KOERVER, R.ZHANG, W.DE BIASI, L.SCHWEIDLER, S.KONDRAKOV, A. O.KOLLING, S.BREZESINSKI, T.HARTMANN, P.ZEIER, W. G.JANEK, J.: "Chemo-mechanical expansion of lithium electrode materials-on the route to mechanically optimized all-solid-state batteries", ENERGY ENVIRON. SCI., vol. 11, no. 8, 2018, pages 2142 - 2158
|
KOSHIKAWA, H.MATSUDA, S.KAMIYA, K.KUBO, Y.UOSAKI, K.HASHIMOTO, K.NAKANISHI, S: "Effects of contaminant water on coulombic efficiency of lithium deposition/ dissolution reactions in tetraglyme-based electrolytes", J. POWER SOURCES, vol. 350, 2017, pages 73 - 79, XP029960858, DOI: 10.1016/j.jpowsour.2017.03.041
|
KOVAC, M.GABERSCEK, M.PEJOVNIK, S: "Influence of humidity on microstructure and electrical characteristics of (PEO-plasticizer)nLiAl(S03Cl)4 polymer electrolytes", SOLID STATE IONICS, vol. 131, no. 3, 2000, pages 323 - 327, XP004210069, DOI: 10.1016/S0167-2738(00)00686-X
|
KWABI, D. G.; BRYANTSEV, V. S.; BATCHO, T. P.; ITKIS, D. M.; THOMPSON, C. V.; SHAO-HORN, Y: " Experimental and Computational Analysis of the Solvent-Dependent 02Li+-02 - Redox Couple: Standard Potentials, Coupling Strength, and Implications for Lithium-Oxygen Batteries", ANGEW. CHEMIE INT. ED, vol. 55, no. 9, 2016, pages 3129 - 3134
|
LAUENSTEIN, A.JOHANSSON, A.TEGENFELDT, J: "Water Absorption of the Polymer Electrolyte Systems Pb ( CF 3 SO 3 ) 2 PEO n and Zn ( CF 3 SO 3 ) 2 PEO n", J. ELECTROCHEM. SOC., vol. 141, no. 7, 1994, pages 1819 - 1823
|
LEROY, S.MARTINEZ, H.DEDRYVERE, R.LEMORDANT, D.GONBEAU, D.: "Influence of the lithium salt nature over the surface film formation on a graphite electrode in Li-ion batteries: An XPS study", APPL. SURF. SCI., vol. 253, no. 11, 2007, pages 4895 - 4905, XP055738444, DOI: 10.1016/j.apsusc.2006.10.071
|
LIM, H. D.PARK, J. H.SHIN, H. J.JEONG, J.KIM, J. T.NAM, K. W.JUNG, H. G.CHUNG, K. Y.: "Energy Storage Materials", vol. 1, 2019, ELSEVIER B.V., article "Liquid phase therapy to solid electrolyte-electrode interface in solid-state Li metal batteries: A review", pages: 308 - 334
|
LIU, J.GAO, X.HARTLEY, G. O.REES, G. J.GONG, C.RICHTER, F. H.JANEK, J.XIA, Y.ROBERTSON, A. W.JOHNSON, L. R. ET AL.: "The Interface between L16.5La3Zrl.5TaO.5012 and Liquid Electrolyte", JOULE, vol. 4, no. 1, 2020, pages 101 - 108
|
LIU, T.FRITH, J. T.KIM, G.KERBER, R. N.DUBOUIS, N.SHAO, Y.LIU, Z.MAGUSIN, P. C. M. M.CASFORD, M. T. L.GARCIA-ARAEZ, N. ET AL.: "The Effect of Water on Quinone Redox Mediators in Nonaqueous Li-O 2 Batteries", J. AM. CHEM. SOC., vol. 140, no. 4, 2018, pages 1428 - 1437
|
LIU, T.LESKES, M.YU, W.MOORE, A. J.ZHOU, L.BAYLEY, P. M.KIM, GGREY, C. P.: "Cycling Li-02 batteries via LiOH formation and decomposition", SCIENCE, vol. 350, no. 6260, 2015, pages 530 - 533, XP055325236, DOI: 10.1126/science.aac7730
|
LOGAN, E. R.HEBECKER, H.ELDESOKY, A.LUSCOMBE, A.JOHNSON, M. B.DAHN, J. R.: "Performance and Degradation of LiFePO 4 /Graphite Cells: The Impact of Water Contamination and an Evaluation of Common Electrolyte Additives", J. ELECTROCHEM. SOC., vol. 167, no. 13, 2020, pages 130543
|
LORGER, S.USISKIN, R.MAIER, J.: "Transport and Charge Carrier Chemistry in Lithium Oxide", J. ELECTROCHEM. SOC., vol. 166, no. 10, 2019, pages A2215 - A2220
|
LOU, S.ZHANG, F.FU, C.CHEN, M.MA, Y.YIN, G.WANG, J.: "Interface Issues and Challenges in All- Solid- State Batteries: Lithium, Sodium, and Beyond", ADV. MATER., 2020, pages 2000721
|
LU, Y.TU, Z.ARCHER, L. A.: "Stable lithium electrodeposition in liquid and nanoporous solid electrolytes", NAT. MATER., vol. 13, no. 10, 2014, pages 961 - 969
|
LU, Y.TU, Z.SHU, J.ARCHER, L. A.: "Stable lithium electrodeposition in salt-reinforced electrolytes", J. POWER SOURCES, vol. 279, 2015, pages 413 - 418, XP029220740, DOI: 10.1016/j.jpowsour.2015.01.030
|
LU, Y.XU, S.SHU, J.ALADAT, W. I. A.ARCHER, L. A.: "High voltage LIB cathodes enabled by salt-reinforced liquid electrolytes", ELECTROCHEM. COMMUN., vol. 51, 2015, pages 23 - 26, XP029191280, DOI: 10.1016/j.elecom.2014.11.010
|
MALMGREN, S.CIOSEK, K.HAHLIN, M.GUSTAFSSON, T.GORGOI, M.RENSMO, H.EDSTROM, K: "Comparing anode and cathode electrode/electrolyte interface composition and morphology using soft and hard X-ray photoelectron spectroscopy", ELECTROCHIM. ACTA, vol. 97, 2013, pages 23 - 32, XP028545909, DOI: 10.1016/j.electacta.2013.03.010
|
MANKOVSKY, D.; LEPAGE, D.; LACHAL, M.; CARADANT, L.; AYME-PERROT, D.; DOLLE, M: "Water content in solid polymer electrolytes: The lost knowledge", CHEM. COMMUN., vol. 56, no. 70, 2020, pages 10167 - 10170
|
MANTHIRAM, A.YU, X.WANG, S: "Nature Reviews Materials", vol. 14, 2017, NATURE PUBLISHING GROUP UNOR, article "Lithium battery chemistries enabled by solid-state electrolytes", pages: 1 - 16
|
MARCUS, Y: "The properties of organic liquids that are relevant to their use as solvating solvents. Chemical Society Reviews", THE ROYAL SOCIETY OF CHEMISTRY LEDEN, vol. 1, 1993, pages 409 - 416
|
MEHROTRA, A.ROSS, P. N.SRINIVASAN, V: "Quantifying Polarization Losses in an Organic Liquid Electrolyte/Single Ion Conductor Interface", J. ELECTROCHEM. SOC., vol. 161, no. 10, 2014, pages A1681 - A1690
|
MEINI, S.PIANA, M.TSIOUVARAS, N.GARSUCH, A.GASTEIGER, H. A.: "The Effect of Water on the Discharge Capacity of a Non-Catalyzed Carbon Cathode for Li-02 Batteries", ELECTROCHEM. SOLID-STATE LETT., vol. 15, no. 4, 2012, pages A45
|
MEYER, W. H.: "Polymer Electrolytes for Lithium-Ion Batteries", ADV. MATER., vol. 10, no. 6, 1998, pages 439 - 448, XP002246382, Retrieved from the Internet <URL:https://doi.org/10.1002/(SICI)1521-4095(199804)10:6<439::AID-ADMA439>3.0.CO;2-I> DOI: 10.1002/(SICI)1521-4095(199804)10:6<439::AID-ADMA439>3.0.CO;2-I
|
MIZUNO, F.ARTHUR, T. S.TAKECHI, K.: "Water in Ionic Liquid for Electrochemical Li Cycling", ACS ENERGY LETT, vol. 1, no. 3, 2016, pages 542 - 547
|
NORDH, T.YOUNESI, R.BRANDELL, D.EDSTROM, K.: "Depth profiling the solid electrolyte interphase on lithium titanate (Li4Ti5012) using synchrotron-based photoelectron spectroscopy", J. POWER SOURCES, vol. 294, 2015, pages 173 - 179
|
PAL, U.CHEN, F.GYABANG, D.PATHIRANA, T.ROY, B.KERR, R.MACFARLANE, D. R.ARMAND, M.HOWLETT, P. C.FORSYTH, M: "Enhanced ion transport in an ether aided super concentrated ionic liquid electrolyte for long-life practical lithium metal battery applications", J. MATER. CHEM. A, vol. 8, no. 36, 2020, pages 18826 - 18839
|
PASGRETA, E.PUCHTA, R.GALLE, M.VAN EIKEMA HOMMES, N.ZAHL, A.VAN ELDIK, R.: "Ligand-exchange processes on solvated lithium cations: DMSO and water/DMSO mixtures", CHEMPHYSCHEM, vol. 8, no. 9, 2007, pages 1315 - 1320
|
PASGRETA, E.PUCHTA, R.ZAHL, A.VAN ELDIK, R: "Ligand-Exchange Processes on Solvated Lithium Cations: Acetonitrile and Hydrogen Cyanide", EUR. J. INORG. CHEM., vol. 2007, no. 13, 2007, pages 1815 - 1822
|
QIAN, J.XU, W.BHATTACHARYA, P.ENGELHARD, M.HENDERSON, W. A.ZHANG, Y.ZHANG, J. G.: "Dendrite-free Li deposition using trace-amounts of water as an electrolyte additive", NANO ENERGY, vol. 15, 2015, pages 135 - 144
|
QIAO, Y.WU, S.YI, J.SUN, Y.GUO, S.YANG, S.HE, P.ZHOU, H.: "From 02-to H02-: Reducing By-Products and Overpotential in Li-0 2 Batteries by Water Addition", ANGEW. CHEMIE INT. ED., vol. 56, no. 18, 2017, pages 4960 - 4964
|
RAMASUBRAMANIAN, A.YURKIV, V.FOROOZAN, T.RAGONE, M.SHAHBAZIAN-YASSAR, R.MASHAYEK, F: "Lithium Diffusion Mechanism through Solid-Electrolyte Interphase in Rechargeable Lithium Batteries", J. PHYS. CHEM. C, vol. 123, no. 16, 2019, pages 10237 - 10245
|
RANDAU, S.WEBER, D. A.KOTZ, O.KOERVER, R.BRAUN, P.WEBER, A.IVERS-TIFFEE, E.ADERMANN, T.KULISCH, J.ZEIER, W. G. ET AL.: "Benchmarking the performance of all-solid-state lithium batteries", NAT. ENERGY, vol. 5, no. 3, 2020, pages 259 - 270, XP037069874, DOI: 10.1038/s41560-020-0565-1
|
REIMERS, J. R.HALL, L. E.: "The solvation of acetonitrile", J. AM. CHEM. SOC., vol. 121, no. 15, 1999, pages 3730 - 3744
|
RICHARDS, W. D.MIARA, L. J.WANG, Y.KIM, J. C.CEDER, G: "Interface Stability in Solid-State Batteries", CHEM. MATER., vol. 28, no. 1, 2016, pages 266 - 273
|
ROBITAILLE, C. D.FAUTEUX, D: "Phase Diagrams and Conductivity Characterization of Some PEO - LiX Electrolytes", J. ELECTROCHEM. SOC., vol. 133, no. 2, 1986, pages 315 - 325
|
SAGANE, F.ABE, T.IRIYAMA, Y.OGUMI, Z: "In Journal of Power Sources", vol. 146, 2005, ELSEVIER, article "Li+ and Na+ transfer through interfaces between inorganic solid electrolytes and polymer or liquid electrolytes", pages: 749 - 752
|
SAGANE, F.ABE, T.OGUMI, Z: "Electrochemical Analysis of Lithium-Ion Transfer Reaction through the Interface between Ceramic Electrolyte and Ionic Liquids", J. ELECTROCHEM. SOC., vol. 159, no. 11, 2012, pages A1766 - A1769
|
SAGANE, F.ABE, T.OGUMI, Z: "LI+-ion transfer through the interface between Li +-ion conductive ceramic electrolyte and LI+-ion- concentrated propylene carbonate solution", J. PHYS. CHEM. C, vol. 113, no. 46, 2009, pages 20135 - 20138
|
SANGELAND, C.MINDEMARK, J.YOUNESI, R.BRANDELL, D: "Solid State Ionics", vol. 15, 2019, ELSEVIER B.V., article "Probing the interfacial chemistry of solid-state lithium batteries", pages: 115068
|
SCHAFZAHL, L.; EHMANN, H.; KRIECHBAUM, M.; SATTELKOW, J.; GANNER, T.; PLANK, H.;WILKENING, M.; FREUNBERGER, S. A. LONG-CHAIN LI AN: "Carbonates as Solid Electrolyte Interphase Components: Structure, Ion Transport, and Mechanical Propeties", CHEM. MATER., vol. 30, no. 10, 2018, pages 3338 - 3345
|
SCHLEUTKER, M.BAHNER, J.TSAI, C. L.STOLTEN, D.KORTE, C: "On the interfacial charge transfer between solid and liquid Li+ electrolytes", PHYS. CHEM. CHEM. PHYS., vol. 19, no. 39, 2017, pages 26596 - 26605
|
SCHWENKE, K. U.METZGER, M.RESTLE, T.PIANA, M.GASTEIGER, H. A.: "The Influence of Water and Protons on Li 2 O 2 Crystal Growth in Aprotic Li-O 2 Cells", J. ELECTROCHEM. SOC., vol. 162, no. 4, 2015, pages A573 - A584
|
SEO, D. M.BORODIN, O.BALOGH, D.O'CONNELL, M.LY, Q.HAN, S.-D.PASSERINI, S.HENDERSON, W. A.: "Electrolyte Solvation and Ionic Association III. Acetonitrile-Lithium Salt Mixtures-Transport Properties", J. ELECTROCHEM. SOC., vol. 160, no. 8, 2013, pages A1061 - A1070
|
SHI, S.LU, P.LIU, Z.QI, Y.HECTOR, L. G.LI, H.HARRIS, S. J.: "Direct calculation of Li-ion transport in the solid electrolyte interphase", J. AM. CHEM. SOC., vol. 134, no. 37, 2012, pages 15476 - 15487
|
SHI, S.QI, Y.LI, H.HECTOR, L. G: "Defect thermodynamics and diffusion mechanisms in LizC0 and implications for the solid electrolyte interphase in Li-ion batteries", J. PHYS. CHEM. C, vol. 117, no. 17, 2013, pages 8579 - 8593
|
SHIMONISHI, Y.ZHANG, T.JOHNSON, P.IMANISHI, N.HIRANO, A.TAKEDA, Y.;YAMAMOTO, O.SAMMES, N: "A study on lithium/air secondary batteries-Stability of NASICON-type glass ceramics in acid solutions", J. POWER SOURCES, vol. 195, no. 18, 2010, pages 6187 - 6191, XP027148164
|
SINGH, S.NANDA, R.DORAI, K: "Structural and dynamical aspects of PEG/LiCIO 4 in solvent mixtures via NMR spectroscopy", MAGN. RESON. CHEM., vol. 57, no. 7, 2019, pages 412 - 422
|
STASZAK-JIRKOVSKY, J.SUBBARAMAN, R.STRMCNIK, D.HARRISON, K. L.DIESENDRUCK, C. E.ASSARY, R.FRANK, O.KOBR, L.WIBERG, G. K. H.GENORIO: "Water as a Promoter and Catalyst for Dioxygen Electrochemistry in Aqueous and Organic Media", ACS CATAL, vol. 5, no. 11, 2015, pages 6600 - 6607
|
SUO, L.HU, Y. S.LI, H.ARMAND, M.CHEN, L: "A new class of Solvent-in-Salt electrolyte for high-energy rechargeable metallic lithium batteries", NAT. COMMUN., vol. 4, no. 1, 2013, pages 1 - 9
|
TANZELLA, F. L.BAILEY, W.FRYDRYCH, D.FARRINGTON, G. C.STORY, H. S.: "Ion transport in peo-alkali salt complex polymeric electrolytes", SOLID STATE IONICS, vol. 5, 1981, pages 681 - 684, XP025810631, DOI: 10.1016/0167-2738(81)90345-3
|
TEMPRANO, I.LIU, T.PETRUCCO, E.ELLISON, J. H. J.KIM, G.JONSSON, E.GREY, C. P.: "Toward Reversible and Moisture-Tolerant Aprotic Lithium-Air Batteries", JOULE, vol. 4, no. 11, 2020, pages 2501 - 2520
|
TOGASAKI, N.MOMMA, T.OSAKA, T.: "Enhancement effect of trace H20 on the charge-discharge cycling performance of a Li metal anode", J. POWER SOURCES, vol. 261, 2014, pages 23 - 27, XP028652887, DOI: 10.1016/j.jpowsour.2014.03.040
|
TULODZIECKI, M.LEVERICK, G. M.AMANCHUKWU, C. V.KATAYAMA, Y.KWABI, D. G.BARDE, F.HAMMOND, P. T.SHAO-HORN, Y: "The role of iodide on the formation of lithium hydroxide in lithium-oxygen batteries", ENERGY ENVIRON. SCI., 2017, pages 1828 - 1842, XP055418588, DOI: 10.1039/C7EE00954B
|
VISCO, S. J.NIMON, V. Y.PETROV, A.PRIDATKO, K.GONCHARENKO, N.NIMON, E.DE JONGHE, L.VOLFKOVICH, Y. M.BOGRACHEV, D. A.: "Aqueous and nonaqueous lithium-air batteries enabled by water-stable lithium metal electrodes", J. SOLID STATE ELECTROCHEM., vol. 18, no. 5, 2014, pages 1443 - 1456
|
WANG, C.SUN, Q.LIU, Y.ZHAO, Y.LI, X.LIN, X.BANIS, M. N.LI, M.LI, W.ADAIR, K. R. ET AL.: "Boosting the performance of lithium batteries with solid-liquid hybrid electrolytes: Interfacial properties and effects of liquid electrolytes", NANO ENERGY, vol. 48, 2018, pages 35 - 43
|
WANG, L.MENAKATH, A.HAN, F.WANG, Y.ZAVALIJ, P. Y.GASKELL, K. J.BORODIN, O.IUGA, D.BROWN, S. P.WANG, C. ET AL.: "Identifying the components of the solid-electrolyte interphase in Li-ion batteries", NAT. CHEM., vol. 11, no. 9, 2019, pages 789 - 796, XP036868946, DOI: 10.1038/s41557-019-0304-z
|
WU, B.WANG, S.EVANS, W. J.DENG, D. Z.YANG, J.XIAO, J.: "Journal of Materials Chemistry A", vol. 11, 2016, ROYAL SOCIETY OF CHEMISTRY, article "Interfacial behaviours between lithium ion conductors and electrode materials in various battery systems", pages: 15266 - 15280
|
WU, H. L.HAASCH, R. T.PERDUE, B. R.APBLETT, C. A.GEWIRTH, A. A.: "The effect of water-containing electrolyte on lithium-sulfur batteries", J. POWER SOURCES, vol. 369, 2017, pages 50 - 56, XP085228354, Retrieved from the Internet <URL:https://doi.org/10.1016/j.jpowsour.2017.09.044> DOI: 10.1016/j.jpowsour.2017.09.044
|
XIAO, Y.WANG, Y.BO, S. H.KIM, J. C.MIARA, L. J.CEDER, G.: "Understanding interface stability in solid-state batteries", NATURE REVIEWS MATERIALS. NATURE RESEARCH UNOR, vol. 1, 2020, pages 105 - 126
|
XIONG, D. J.PETIBON, R.MADEC, L.HALL, D. S.DAHN, J. R.: "Some Effects of Intentionally Added Water on LiCoO 2 /Graphite Pouch Cells", J. ELECTROCHEM. SOC., vol. 163, no. 8, 2016, pages A1678 - A1685
|
XU, K.VON CRESCE, A.LEE, U: "Differentiating contributions to ion transfer'' barrier from interphasial resistance and Li+ desolvation at electrolyte/graphite interface", LANGMUIR, vol. 26, no. 13, 2010, pages 11538 - 11543
|
XU, K.VON WALDCRESCE, A: "Li+-solvation/desolvation dictates interphasial processes on graphitic anode in Li ion cells", J. MATER. RES., vol. 27, no. 18, 2012, pages 2327 - 2341
|
YAMADA, Y.SAGANE, F.IRIYAMA, Y.ABE, T.OGUMI, Z: "Kinetics of lithium-ion transfer at the interface between Li 0.35La0.55Ti03 and binary electrolytes", J. PHYS. CHEM. C, vol. 113, no. 32, 2009, pages 14528 - 14532
|
YIM, C.-H.ABU-LEBDEH, Y. A.: "Connection between Phase Diagram, Structure and Ion Transport in Liquid, Aqueous Electrolyte Solutions of Lithium Chloride", J. ELECTROCHEM. SOC., vol. 165, no. 3, 2018, pages A547 - A556
|
ZHANG, D.XU, X.QIN, Y.JI, S.HUO, Y.WANG, Z.LIU, Z.SHEN, J.LIU, J.: "Recent Progress in Organic-Inorganic Composite Solid Electrolytes for All- Solid- State Lithium Batteries", CHEM. - A EUR. J., vol. 26, no. 8, 2020, pages 1720 - 1736
|
ZHANG, X.ZHOU, L.WANG, Y.ZHOU, Q: "Influence of Humidity on the Complex Structure of PEO-Lithium Salt Polymer Electrolyte", POLYM. SCI. - SER. A, vol. 60, no. 1, 2018, pages 50 - 56
|
ZHANG, Z.OHL, M.DIALLO, S. O.JALARVO, N. H.HONG, K.HAN, Y.SMITH, G. S.DO, C: "Dynamics of Water Associated with Lithium Ions Distributed in Polyethylene Oxide", PHYS. REV. LETT., vol. 115, no. 19, 2015, pages 198301
|
ZHANG, Z.SHAO, Y.LOTSCH, B.HU, Y. S.LI, H.JANEK, J.NAZAR, L. F.NAN, C. W.;MAIER, J.ARMAND, M. ET AL.: "Energy and Environmental Science", vol. 1, 2018, ROYAL SOCIETY OF CHEMISTRY, article "New horizons for inorganic solid state ion conductors", pages: 1945 - 1976
|
ZHU, Y. G.LIU, Q.RONG, Y.CHEN, H.YANG, J.JIA, C.YU, L. J.KARTON, A.REN, Y.XU, X. ET AL.: "Proton enhanced dynamic battery chemistry for aprotic lithium-oxygen batteries", NAT. COMMUN., vol. 8, 2017, pages 4 - 11
|
ZHU, Y.HE, X.MO, Y: "First principles study on electrochemical and chemical stability of solid electrolyte-electrode interfaces in all-solid-state Li-ion batteries", J. MATER. CHEM. A, vol. 4, no. 9, 2016, pages 3253 - 3266
|
ZHU, Y.HE, X.MO, Y: "Origin of Outstanding Stability in the Lithium Solid Electrolyte Materials: Insights from Thermodynamic Analyses Based on First-Principles Calculations", ACS APPL. MATER. INTERFACES, vol. 7, no. 42, 2015, pages 23685 - 23693, XP055779181, DOI: 10.1021/acsami.5b07517
|
ZHUANG ET AL., ELECTROCHEM. SOLID-STATE LETT, vol. 6, no. 7, 2003, pages A136
|