-
1
-
-
85019569260
-
Lithium ion, lithium metal, and alternative rechargeable battery technologies: the odyssey for high energy density
-
Placke, T., Kloepsch, R., Dühnen, S., Winter, M., Lithium ion, lithium metal, and alternative rechargeable battery technologies: the odyssey for high energy density. J. Solid State Electrochem. 21 (2017), 1939–1964.
-
(2017)
J. Solid State Electrochem.
, vol.21
, pp. 1939-1964
-
-
Placke, T.1
Kloepsch, R.2
Dühnen, S.3
Winter, M.4
-
2
-
-
84882594139
-
Room-temperature stationary sodium-ion batteries for large-scale electric energy storage
-
Pan, H., Hu, Y.-S., Chen, L., Room-temperature stationary sodium-ion batteries for large-scale electric energy storage. Energy Environ. Sci. 6 (2013), 2338–2360.
-
(2013)
Energy Environ. Sci.
, vol.6
, pp. 2338-2360
-
-
Pan, H.1
Hu, Y.-S.2
Chen, L.3
-
3
-
-
85014713058
-
Odyssey of multivalent cathode materials: open questions and future challenges
-
Canepa, P., Sai Gautam, G., Hannah, D.C., Malik, R., Liu, M., Gallagher, K.G., Persson, K.A., Ceder, G., Odyssey of multivalent cathode materials: open questions and future challenges. Chem. Rev. 117 (2017), 4287–4341.
-
(2017)
Chem. Rev.
, vol.117
, pp. 4287-4341
-
-
Canepa, P.1
Sai Gautam, G.2
Hannah, D.C.3
Malik, R.4
Liu, M.5
Gallagher, K.G.6
Persson, K.A.7
Ceder, G.8
-
4
-
-
84862880243
-
Dual-ion cells based on anion intercalation into graphite from ionic liquid-based electrolytes
-
Placke, T., Bieker, P., Lux, S.F., Fromm, O., Meyer, H.W., Passerini, S., Winter, M., Dual-ion cells based on anion intercalation into graphite from ionic liquid-based electrolytes. Z. Phys. Chem. 226 (2012), 391–407.
-
(2012)
Z. Phys. Chem.
, vol.226
, pp. 391-407
-
-
Placke, T.1
Bieker, P.2
Lux, S.F.3
Fromm, O.4
Meyer, H.W.5
Passerini, S.6
Winter, M.7
-
5
-
-
84875591420
-
Reversible intercalation of bis(trifluoromethanesulfonyl)imide anions from an ionic liquid electrolyte into graphite for high performance dual-ion cells
-
Placke, T., Fromm, O., Lux, S.F., Bieker, P., Rothermel, S., Meyer, H.W., Passerini, S., Winter, M., Reversible intercalation of bis(trifluoromethanesulfonyl)imide anions from an ionic liquid electrolyte into graphite for high performance dual-ion cells. J. Electrochem. Soc. 159 (2012), A1755–A1765.
-
(2012)
J. Electrochem. Soc.
, vol.159
, pp. A1755-A1765
-
-
Placke, T.1
Fromm, O.2
Lux, S.F.3
Bieker, P.4
Rothermel, S.5
Meyer, H.W.6
Passerini, S.7
Winter, M.8
-
6
-
-
84894811746
-
Influence of graphite characteristics on the electrochemical intercalation of bis(trifluoromethanesulfonyl) imide anions into a graphite-based cathode
-
Placke, T., Rothermel, S., Fromm, O., Meister, P., Lux, S.F., Huesker, J., Meyer, H.W., Winter, M., Influence of graphite characteristics on the electrochemical intercalation of bis(trifluoromethanesulfonyl) imide anions into a graphite-based cathode. J. Electrochem. Soc. 160 (2013), A1979–A1991.
-
(2013)
J. Electrochem. Soc.
, vol.160
, pp. A1979-A1991
-
-
Placke, T.1
Rothermel, S.2
Fromm, O.3
Meister, P.4
Lux, S.F.5
Huesker, J.6
Meyer, H.W.7
Winter, M.8
-
7
-
-
0033906639
-
Energy and capacity projections for practical dual-graphite cells
-
Dahn, J.R., Seel, J.A., Energy and capacity projections for practical dual-graphite cells. J. Electrochem. Soc. 147 (2000), 899–901.
-
(2000)
J. Electrochem. Soc.
, vol.147
, pp. 899-901
-
-
Dahn, J.R.1
Seel, J.A.2
-
8
-
-
84893055943
-
Dual-graphite chemistry enabled by a high voltage electrolyte
-
Read, J.A., Cresce, A.V., Ervin, M.H., Xu, K., Dual-graphite chemistry enabled by a high voltage electrolyte. Energy Environ. Sci. 7 (2014), 617–620.
-
(2014)
Energy Environ. Sci.
, vol.7
, pp. 617-620
-
-
Read, J.A.1
Cresce, A.V.2
Ervin, M.H.3
Xu, K.4
-
9
-
-
84905024805
-
Study of the electrochemical behavior of dual-graphite cells using ionic liquid-based electrolytes
-
Rothermel, S., Meister, P., Fromm, O., Huesker, J., Meyer, H.W., Winter, M., Placke, T., Study of the electrochemical behavior of dual-graphite cells using ionic liquid-based electrolytes. ECS Trans. 58 (2014), 15–25.
-
(2014)
ECS Trans.
, vol.58
, pp. 15-25
-
-
Rothermel, S.1
Meister, P.2
Fromm, O.3
Huesker, J.4
Meyer, H.W.5
Winter, M.6
Placke, T.7
-
10
-
-
84908010734
-
Dual-graphite cells based on the reversible intercalation of bis(trifluoromethanesulfonyl)imide anions from an ionic liquid electrolyte
-
Rothermel, S., Meister, P., Schmuelling, G., Fromm, O., Meyer, H.W., Nowak, S., Winter, M., Placke, T., Dual-graphite cells based on the reversible intercalation of bis(trifluoromethanesulfonyl)imide anions from an ionic liquid electrolyte. Energy Environ. Sci. 7 (2014), 3412–3423.
-
(2014)
Energy Environ. Sci.
, vol.7
, pp. 3412-3423
-
-
Rothermel, S.1
Meister, P.2
Schmuelling, G.3
Fromm, O.4
Meyer, H.W.5
Nowak, S.6
Winter, M.7
Placke, T.8
-
11
-
-
85031503504
-
Alternative electrochemical energy storage: potassium-based dual-graphite batteries
-
Beltrop, K., Beuker, S., Heckmann, A., Winter, M., Placke, T., Alternative electrochemical energy storage: potassium-based dual-graphite batteries. Energy Environ. Sci. 10 (2017), 2090–2094.
-
(2017)
Energy Environ. Sci.
, vol.10
, pp. 2090-2094
-
-
Beltrop, K.1
Beuker, S.2
Heckmann, A.3
Winter, M.4
Placke, T.5
-
12
-
-
85020389495
-
Potassium-based dual ion battery with dual-graphite electrode
-
Fan, L., Liu, Q., Chen, S., Lin, K., Xu, Z., Lu, B., Potassium-based dual ion battery with dual-graphite electrode. Small 13 (2017), 1701011–1701017.
-
(2017)
Small
, vol.13
, pp. 1701011-1701017
-
-
Fan, L.1
Liu, Q.2
Chen, S.3
Lin, K.4
Xu, Z.5
Lu, B.6
-
13
-
-
33846564506
-
Electrochemical intercalation of hexafluorophosphate anion into various carbons for cathode of dual-carbon rechargeable battery
-
Ishihara, T., Koga, M., Matsumoto, H., Yoshio, M., Electrochemical intercalation of hexafluorophosphate anion into various carbons for cathode of dual-carbon rechargeable battery. Electrochem. Solid State Lett. 10 (2007), A74–A76.
-
(2007)
Electrochem. Solid State Lett.
, vol.10
, pp. A74-A76
-
-
Ishihara, T.1
Koga, M.2
Matsumoto, H.3
Yoshio, M.4
-
14
-
-
85023624851
-
A dual-carbon battery based on potassium-ion electrolyte
-
Ji, B., Zhang, F., Wu, N., Tang, Y., A dual-carbon battery based on potassium-ion electrolyte. Adv. Eng. Mater. 7 (2017∖), 1700920–1700925.
-
(2017)
Adv. Eng. Mater.
, vol.7
, pp. 1700920-1700925
-
-
Ji, B.1
Zhang, F.2
Wu, N.3
Tang, Y.4
-
15
-
-
84991672273
-
– anions in graphitic carbon for a dual-carbon rechargeable battery with superior rate property
-
– anions in graphitic carbon for a dual-carbon rechargeable battery with superior rate property. J. Phys. Chem. C 120 (2016), 22887–22894.
-
(2016)
J. Phys. Chem. C
, vol.120
, pp. 22887-22894
-
-
Miyoshi, S.1
Akbay, T.2
Kurihara, T.3
Fukuda, T.4
Staykov, A.T.5
Ida, S.6
Ishihara, T.7
-
16
-
-
84964681264
-
6 in dimethyl carbonate (DMC) electrolyte
-
6 in dimethyl carbonate (DMC) electrolyte. J. Electrochem. Soc. 163 (2016), A1206–A1213.
-
(2016)
J. Electrochem. Soc.
, vol.163
, pp. A1206-A1213
-
-
Miyoshi, S.1
Nagano, H.2
Fukuda, T.3
Kurihara, T.4
Watanabe, M.5
Ida, S.6
Ishihara, T.7
-
17
-
-
84945921254
-
A dual−ion battery cathode via oxidative insertion of anions in a metal–organic framework
-
Aubrey, M.L., Long, J.R., A dual−ion battery cathode via oxidative insertion of anions in a metal–organic framework. J. Am. Chem. Soc. 137 (2015), 13594–13602.
-
(2015)
J. Am. Chem. Soc.
, vol.137
, pp. 13594-13602
-
-
Aubrey, M.L.1
Long, J.R.2
-
18
-
-
85014530934
-
A hydrocarbon cathode for dual-ion batteries
-
Rodríguez-Pérez, I.A., Jian, Z., Waldenmaier, P.K., Palmisano, J.W., Chandrabose, R.S., Wang, X., Lerner, M.M., Carter, R.G., Ji, X., A hydrocarbon cathode for dual-ion batteries. ACS Energy Lett. 1 (2016), 719–723.
-
(2016)
ACS Energy Lett.
, vol.1
, pp. 719-723
-
-
Rodríguez-Pérez, I.A.1
Jian, Z.2
Waldenmaier, P.K.3
Palmisano, J.W.4
Chandrabose, R.S.5
Wang, X.6
Lerner, M.M.7
Carter, R.G.8
Ji, X.9
-
19
-
-
84943779694
-
Thianthrene-functionalized polynorbornenes as high-voltage materials for organic cathode-based dual-ion batteries
-
Speer, M.E., Kolek, M., Jassoy, J.J., Heine, J., Winter, M., Bieker, P.M., Esser, B., Thianthrene-functionalized polynorbornenes as high-voltage materials for organic cathode-based dual-ion batteries. Chem. Commun. 51 (2015), 15261–15264.
-
(2015)
Chem. Commun.
, vol.51
, pp. 15261-15264
-
-
Speer, M.E.1
Kolek, M.2
Jassoy, J.J.3
Heine, J.4
Winter, M.5
Bieker, P.M.6
Esser, B.7
-
20
-
-
85028005517
-
7 dual-ion battery
-
7 dual-ion battery. Nano Energy 40 (2017), 233–239.
-
(2017)
Nano Energy
, vol.40
, pp. 233-239
-
-
Dong, S.1
Li, Z.2
Rodríguez-Pérez, I.A.3
Jiang, H.4
Lu, J.5
Zhang, X.6
Ji, X.7
-
21
-
-
85033664628
-
Ultra-high cycling stability of poly(vinylphenothiazine) as a battery cathode material resulting from π - π interactions
-
Kolek, M., Otteny, F., Schmidt, P., Mück-Lichtenfeld, C., Einholz, C., Becking, J., Schleicher, E., Winter, M., Bieker, P., Esser, B., Ultra-high cycling stability of poly(vinylphenothiazine) as a battery cathode material resulting from π - π interactions. Energy Environ. Sci. 10 (2017), 2334–2341.
-
(2017)
Energy Environ. Sci.
, vol.10
, pp. 2334-2341
-
-
Kolek, M.1
Otteny, F.2
Schmidt, P.3
Mück-Lichtenfeld, C.4
Einholz, C.5
Becking, J.6
Schleicher, E.7
Winter, M.8
Bieker, P.9
Esser, B.10
-
22
-
-
85009197970
-
Sodium-based vs. lithium-based dual-ion cells: electrochemical study of anion intercalation/de-intercalation into/from graphite and metal plating/dissolution behavior
-
Meister, P., Fromm, O., Rothermel, S., Kasnatscheew, J., Winter, M., Placke, T., Sodium-based vs. lithium-based dual-ion cells: electrochemical study of anion intercalation/de-intercalation into/from graphite and metal plating/dissolution behavior. Electrochim. Acta 228 (2017), 18–27.
-
(2017)
Electrochim. Acta
, vol.228
, pp. 18-27
-
-
Meister, P.1
Fromm, O.2
Rothermel, S.3
Kasnatscheew, J.4
Winter, M.5
Placke, T.6
-
23
-
-
85013659255
-
Anion intercalation into a graphite cathode from various sodium-based electrolyte mixtures for dual-ion battery applications
-
Aladinli, S., Bordet, F., Ahlbrecht, K., Tübke, J., Holzapfel, M., Anion intercalation into a graphite cathode from various sodium-based electrolyte mixtures for dual-ion battery applications. Electrochim. Acta 231 (2017), 468–478.
-
(2017)
Electrochim. Acta
, vol.231
, pp. 468-478
-
-
Aladinli, S.1
Bordet, F.2
Ahlbrecht, K.3
Tübke, J.4
Holzapfel, M.5
-
24
-
-
84937231091
-
Anion intercalation into graphite from a sodium-containing electrolyte
-
Bordet, F., Ahlbrecht, K., Tübke, J., Ufheil, J., Hoes, T., Oetken, M., Holzapfel, M., Anion intercalation into graphite from a sodium-containing electrolyte. Electrochim. Acta 174 (2015), 1317–1323.
-
(2015)
Electrochim. Acta
, vol.174
, pp. 1317-1323
-
-
Bordet, F.1
Ahlbrecht, K.2
Tübke, J.3
Ufheil, J.4
Hoes, T.5
Oetken, M.6
Holzapfel, M.7
-
25
-
-
85006810964
-
A novel tin-graphite dual-ion battery based on sodium-ion electrolyte with high energy density
-
Sheng, M., Zhang, F., Ji, B., Tong, X., Tang, Y., A novel tin-graphite dual-ion battery based on sodium-ion electrolyte with high energy density. Adv. Eng. Mater., 7, 2016.
-
(2016)
Adv. Eng. Mater.
, vol.7
-
-
Sheng, M.1
Zhang, F.2
Ji, B.3
Tong, X.4
Tang, Y.5
-
26
-
-
85015243860
-
Soft carbon as anode for high-performance sodium-based dual ion full battery
-
Fan, L., Liu, Q., Chen, S., Xu, Z., Lu, B., Soft carbon as anode for high-performance sodium-based dual ion full battery. Adv. Eng. Mater. 7 (2017), 1602778–1602785.
-
(2017)
Adv. Eng. Mater.
, vol.7
, pp. 1602778-1602785
-
-
Fan, L.1
Liu, Q.2
Chen, S.3
Xu, Z.4
Lu, B.5
-
27
-
-
84875759604
-
How do reactions at the anode/electrolyte interface determine the cathode performance in lithium-ion batteries?
-
Krueger, S., Kloepsch, R., Li, J., Nowak, S., Passerini, S., Winter, M., How do reactions at the anode/electrolyte interface determine the cathode performance in lithium-ion batteries?. J. Electrochem. Soc. 160 (2013), A542–A548.
-
(2013)
J. Electrochem. Soc.
, vol.160
, pp. A542-A548
-
-
Krueger, S.1
Kloepsch, R.2
Li, J.3
Nowak, S.4
Passerini, S.5
Winter, M.6
-
28
-
-
84976617534
-
Superconcentrated electrolytes for a high-voltage lithium-ion battery
-
Wang, J., Yamada, Y., Sodeyama, K., Chiang, C.H., Tateyama, Y., Yamada, A., Superconcentrated electrolytes for a high-voltage lithium-ion battery. Nat. Commun. 7 (2016), 12032–12040.
-
(2016)
Nat. Commun.
, vol.7
, pp. 12032-12040
-
-
Wang, J.1
Yamada, Y.2
Sodeyama, K.3
Chiang, C.H.4
Tateyama, Y.5
Yamada, A.6
-
29
-
-
84940532871
-
Synthesis of spherical graphite particles and their application as cathode material in dual-ion cells
-
Heckmann, A., Meister, P., Meyer, H.W., Rohrbach, A., Winter, M., Placke, T., Synthesis of spherical graphite particles and their application as cathode material in dual-ion cells. ECS Trans. 66 (2015), 1–12.
-
(2015)
ECS Trans.
, vol.66
, pp. 1-12
-
-
Heckmann, A.1
Meister, P.2
Meyer, H.W.3
Rohrbach, A.4
Winter, M.5
Placke, T.6
-
30
-
-
84969508702
-
Does size really matter? New insights into the intercalation behavior of anions into a graphite-based positive electrode for dual-ion batteries
-
Beltrop, K., Meister, P., Klein, S., Heckmann, A., Grünebaum, M., Wiemhöfer, H.-D., Winter, M., Placke, T., Does size really matter? New insights into the intercalation behavior of anions into a graphite-based positive electrode for dual-ion batteries. Electrochim. Acta 209 (2016), 44–55.
-
(2016)
Electrochim. Acta
, vol.209
, pp. 44-55
-
-
Beltrop, K.1
Meister, P.2
Klein, S.3
Heckmann, A.4
Grünebaum, M.5
Wiemhöfer, H.-D.6
Winter, M.7
Placke, T.8
-
31
-
-
84955441624
-
Electrochemical intercalation of bis(fluorosulfonyl)amide anion into graphite
-
Fukutsuka, T., Yamane, F., Miyazaki, K., Abe, T., Electrochemical intercalation of bis(fluorosulfonyl)amide anion into graphite. J. Electrochem. Soc. 163 (2016), A499–A503.
-
(2016)
J. Electrochem. Soc.
, vol.163
, pp. A499-A503
-
-
Fukutsuka, T.1
Yamane, F.2
Miyazaki, K.3
Abe, T.4
-
32
-
-
85007549072
-
Hexafluorophosphate anion intercalation into graphite electrode from methyl propionate
-
Fan, H., Qi, L., Wang, H., Hexafluorophosphate anion intercalation into graphite electrode from methyl propionate. Solid State Ionics 300 (2017), 169–174.
-
(2017)
Solid State Ionics
, vol.300
, pp. 169-174
-
-
Fan, H.1
Qi, L.2
Wang, H.3
-
33
-
-
85012256391
-
Advanced rechargeable aluminium ion battery with a high-quality natural graphite cathode
-
Wang, D.-Y., Wei, C.-Y., Lin, M.-C., Pan, C.-J., Chou, H.-L., Chen, H.-A., Gong, M., Wu, Y., Yuan, C., Angell, M., Hsieh, Y.-J., Chen, Y.-H., Wen, C.-Y., Chen, C.-W., Hwang, B.-J., Chen, C.-C., Dai, H., Advanced rechargeable aluminium ion battery with a high-quality natural graphite cathode. Nat. Commun. 8 (2017), 14283–14289.
-
(2017)
Nat. Commun.
, vol.8
, pp. 14283-14289
-
-
Wang, D.-Y.1
Wei, C.-Y.2
Lin, M.-C.3
Pan, C.-J.4
Chou, H.-L.5
Chen, H.-A.6
Gong, M.7
Wu, Y.8
Yuan, C.9
Angell, M.10
Hsieh, Y.-J.11
Chen, Y.-H.12
Wen, C.-Y.13
Chen, C.-W.14
Hwang, B.-J.15
Chen, C.-C.16
Dai, H.17
-
34
-
-
84905020718
-
Study of the electrochemical intercalation of different anions from non-aqueous electrolytes into a graphite-based cathode
-
Fromm, O., Meister, P., Qi, X., Rothermel, S., Huesker, J., Meyer, H.W., Winter, M., Placke, T., Study of the electrochemical intercalation of different anions from non-aqueous electrolytes into a graphite-based cathode. ECS Trans. 58 (2014), 55–65.
-
(2014)
ECS Trans.
, vol.58
, pp. 55-65
-
-
Fromm, O.1
Meister, P.2
Qi, X.3
Rothermel, S.4
Huesker, J.5
Meyer, H.W.6
Winter, M.7
Placke, T.8
-
35
-
-
84936942735
-
Intercalation manners of perchlorate anion into graphite electrode from organic solutions
-
Gao, J., Tian, S., Qi, L., Wang, H., Intercalation manners of perchlorate anion into graphite electrode from organic solutions. Electrochim. Acta 176 (2015), 22–27.
-
(2015)
Electrochim. Acta
, vol.176
, pp. 22-27
-
-
Gao, J.1
Tian, S.2
Qi, L.3
Wang, H.4
-
36
-
-
85011320295
-
Anodic behavior of the aluminum current collector in imide based electrolytes - influence of the solvent, the operating temperature and the native oxide layer thickness
-
Meister, P., Qi, X., Kloepsch, R., Krämer, E., Streipert, B., Winter, M., Placke, T., Anodic behavior of the aluminum current collector in imide based electrolytes - influence of the solvent, the operating temperature and the native oxide layer thickness. ChemSusChem 10 (2017), 804–814.
-
(2017)
ChemSusChem
, vol.10
, pp. 804-814
-
-
Meister, P.1
Qi, X.2
Kloepsch, R.3
Krämer, E.4
Streipert, B.5
Winter, M.6
Placke, T.7
-
37
-
-
84898444351
-
Dual-ion cells based on the electrochemical intercalation of asymmetric fluorosulfonyl-(trifluoromethanesulfonyl) imide anions into graphite
-
Meister, P., Siozios, V., Reiter, J., Klamor, S., Rothermel, S., Fromm, O., Meyer, H.W., Winter, M., Placke, T., Dual-ion cells based on the electrochemical intercalation of asymmetric fluorosulfonyl-(trifluoromethanesulfonyl) imide anions into graphite. Electrochim. Acta 130 (2014), 625–633.
-
(2014)
Electrochim. Acta
, vol.130
, pp. 625-633
-
-
Meister, P.1
Siozios, V.2
Reiter, J.3
Klamor, S.4
Rothermel, S.5
Fromm, O.6
Meyer, H.W.7
Winter, M.8
Placke, T.9
-
38
-
-
84887928417
-
Comparison of the anodic behavior of aluminum current collectors in imide-based ionic liquids and consequences on the stability of high voltage supercapacitors
-
Kühnel, R.-S., Balducci, A., Comparison of the anodic behavior of aluminum current collectors in imide-based ionic liquids and consequences on the stability of high voltage supercapacitors. J. Power Sources 249 (2014), 163–171.
-
(2014)
J. Power Sources
, vol.249
, pp. 163-171
-
-
Kühnel, R.-S.1
Balducci, A.2
-
39
-
-
84890447576
-
Concentrated electrolytes: decrypting electrolyte properties and reassessing Al corrosion mechanisms
-
McOwen, D.W., Seo, D.M., Borodin, O., Vatamanu, J., Boyle, P.D., Henderson, W.A., Concentrated electrolytes: decrypting electrolyte properties and reassessing Al corrosion mechanisms. Energy Environ. Sci. 7 (2014), 416–426.
-
(2014)
Energy Environ. Sci.
, vol.7
, pp. 416-426
-
-
McOwen, D.W.1
Seo, D.M.2
Borodin, O.3
Vatamanu, J.4
Boyle, P.D.5
Henderson, W.A.6
-
40
-
-
84997830892
-
Processing of Al-doped ZnO protective thin films on aluminum current collectors for lithium ion batteries
-
Teucher, G., Van Gestel, T., Krott, M., Gehrke, H.-G., Eichel, R.-A., Uhlenbruck, S., Processing of Al-doped ZnO protective thin films on aluminum current collectors for lithium ion batteries. Thin Solid Films 619 (2016), 302–307.
-
(2016)
Thin Solid Films
, vol.619
, pp. 302-307
-
-
Teucher, G.1
Van Gestel, T.2
Krott, M.3
Gehrke, H.-G.4
Eichel, R.-A.5
Uhlenbruck, S.6
-
41
-
-
85008386247
-
Suppression of aluminum current collector dissolution by protective ceramic coatings for better high-voltage battery performance
-
Heckmann, A., Krott, M., Streipert, B., Uhlenbruck, S., Winter, M., Placke, T., Suppression of aluminum current collector dissolution by protective ceramic coatings for better high-voltage battery performance. ChemPhysChem 18 (2017), 156–163.
-
(2017)
ChemPhysChem
, vol.18
, pp. 156-163
-
-
Heckmann, A.1
Krott, M.2
Streipert, B.3
Uhlenbruck, S.4
Winter, M.5
Placke, T.6
-
42
-
-
79959853804
-
Electrochemical behavior and passivation of current collectors in lithium-ion batteries
-
Myung, S.-T., Hitoshi, Y., Sun, Y.-K., Electrochemical behavior and passivation of current collectors in lithium-ion batteries. J. Mater. Chem. 21 (2011), 9891–9911.
-
(2011)
J. Mater. Chem.
, vol.21
, pp. 9891-9911
-
-
Myung, S.-T.1
Hitoshi, Y.2
Sun, Y.-K.3
-
43
-
-
0036866025
-
Effect of fluoride additives on the corrosion of aluminum for lithium ion batteries
-
Nakajima, T., Mori, M., Gupta, V., Ohzawa, Y., Iwata, H., Effect of fluoride additives on the corrosion of aluminum for lithium ion batteries. Solid State Sci. 4 (2002), 1385–1394.
-
(2002)
Solid State Sci.
, vol.4
, pp. 1385-1394
-
-
Nakajima, T.1
Mori, M.2
Gupta, V.3
Ohzawa, Y.4
Iwata, H.5
-
44
-
-
75249099168
-
The solid electrolyte interphase - the most important and the least understood solid electrolyte in rechargeable Li batteries
-
Winter, M., The solid electrolyte interphase - the most important and the least understood solid electrolyte in rechargeable Li batteries. Z. Phys. Chem. 223 (2009), 1395–1406.
-
(2009)
Z. Phys. Chem.
, vol.223
, pp. 1395-1406
-
-
Winter, M.1
-
45
-
-
85027320389
-
Research progress towards understanding the unique interfaces between concentrated electrolytes and electrodes for energy storage applications
-
Zheng, J., Lochala, J.A., Kwok, A., Deng, Z.D., Xiao, J., Research progress towards understanding the unique interfaces between concentrated electrolytes and electrodes for energy storage applications. Adv. Sci., 2017, 1700032–1700050.
-
(2017)
Adv. Sci.
, pp. 1700032-1700050
-
-
Zheng, J.1
Lochala, J.A.2
Kwok, A.3
Deng, Z.D.4
Xiao, J.5
-
46
-
-
80051707446
-
Oxidative-stability enhancement and charge transport mechanism in glyme–lithium salt equimolar complexes
-
Yoshida, K., Nakamura, M., Kazue, Y., Tachikawa, N., Tsuzuki, S., Seki, S., Dokko, K., Watanabe, M., Oxidative-stability enhancement and charge transport mechanism in glyme–lithium salt equimolar complexes. J. Am. Chem. Soc. 133 (2011), 13121–13129.
-
(2011)
J. Am. Chem. Soc.
, vol.133
, pp. 13121-13129
-
-
Yoshida, K.1
Nakamura, M.2
Kazue, Y.3
Tachikawa, N.4
Tsuzuki, S.5
Seki, S.6
Dokko, K.7
Watanabe, M.8
-
47
-
-
1242264986
-
Complexes of lithium imide salts with tetraglyme and their polyelectrolyte composite materials
-
Pappenfus, T.M., Henderson, W.A., Owens, B.B., Mann, K.R., Smyrl, W.H., Complexes of lithium imide salts with tetraglyme and their polyelectrolyte composite materials. J. Electrochem. Soc. 151 (2004), A209–A215.
-
(2004)
J. Electrochem. Soc.
, vol.151
, pp. A209-A215
-
-
Pappenfus, T.M.1
Henderson, W.A.2
Owens, B.B.3
Mann, K.R.4
Smyrl, W.H.5
-
48
-
-
84872958828
-
Suppression of aluminum corrosion by using high concentration LiTFSI electrolyte
-
Matsumoto, K., Inoue, K., Nakahara, K., Yuge, R., Noguchi, T., Utsugi, K., Suppression of aluminum corrosion by using high concentration LiTFSI electrolyte. J. Power Sources 231 (2013), 234–238.
-
(2013)
J. Power Sources
, vol.231
, pp. 234-238
-
-
Matsumoto, K.1
Inoue, K.2
Nakahara, K.3
Yuge, R.4
Noguchi, T.5
Utsugi, K.6
-
49
-
-
84946761120
-
Corrosion prevention mechanism of aluminum metal in superconcentrated electrolytes
-
Yamada, Y., Chiang, C.H., Sodeyama, K., Wang, J., Tateyama, Y., Yamada, A., Corrosion prevention mechanism of aluminum metal in superconcentrated electrolytes. ChemElectroChem 2 (2015), 1687–1694.
-
(2015)
ChemElectroChem
, vol.2
, pp. 1687-1694
-
-
Yamada, Y.1
Chiang, C.H.2
Sodeyama, K.3
Wang, J.4
Tateyama, Y.5
Yamada, A.6
-
51
-
-
84946073108
-
Review—chemical analysis for a better understanding of aging and degradation mechanisms of non-aqueous electrolytes for lithium ion batteries: method development, application and lessons learned
-
Nowak, S., Winter, M., Review—chemical analysis for a better understanding of aging and degradation mechanisms of non-aqueous electrolytes for lithium ion batteries: method development, application and lessons learned. J. Electrochem. Soc. 162 (2015), A2500–A2508.
-
(2015)
J. Electrochem. Soc.
, vol.162
, pp. A2500-A2508
-
-
Nowak, S.1
Winter, M.2
-
52
-
-
84946061678
-
Review—superconcentrated electrolytes for lithium batteries
-
Yamada, Y., Yamada, A., Review—superconcentrated electrolytes for lithium batteries. J. Electrochem. Soc. 162 (2015), A2406–A2423.
-
(2015)
J. Electrochem. Soc.
, vol.162
, pp. A2406-A2423
-
-
Yamada, Y.1
Yamada, A.2
-
53
-
-
84877648007
-
On the extraction of ion association data and transference numbers from ionic diffusivity and conductivity data in polymer electrolytes
-
Stolwijk, N.A., Kösters, J., Wiencierz, M., Schönhoff, M., On the extraction of ion association data and transference numbers from ionic diffusivity and conductivity data in polymer electrolytes. Electrochim. Acta 102 (2013), 451–458.
-
(2013)
Electrochim. Acta
, vol.102
, pp. 451-458
-
-
Stolwijk, N.A.1
Kösters, J.2
Wiencierz, M.3
Schönhoff, M.4
-
54
-
-
85007072187
-
Solvation behavior of carbonate-based electrolytes in sodium ion batteries
-
Cresce, A.V., Russell, S.M., Borodin, O., Allen, J.A., Schroeder, M.A., Dai, M., Peng, J., Gobet, M.P., Greenbaum, S.G., Rogers, R.E., Xu, K., Solvation behavior of carbonate-based electrolytes in sodium ion batteries. Phys. Chem. Chem. Phys. 19 (2017), 574–586.
-
(2017)
Phys. Chem. Chem. Phys.
, vol.19
, pp. 574-586
-
-
Cresce, A.V.1
Russell, S.M.2
Borodin, O.3
Allen, J.A.4
Schroeder, M.A.5
Dai, M.6
Peng, J.7
Gobet, M.P.8
Greenbaum, S.G.9
Rogers, R.E.10
Xu, K.11
-
55
-
-
84928485150
-
6 electrolytes
-
6 electrolytes. J. Phys. Chem. C 119 (2015), 8492–8500.
-
(2015)
J. Phys. Chem. C
, vol.119
, pp. 8492-8500
-
-
Han, S.-D.1
Yun, S.-H.2
Borodin, O.3
Seo, D.M.4
Sommer, R.D.5
Young, V.G.6
Henderson, W.A.7
-
56
-
-
85014388752
-
Revisiting the corrosion of the aluminum current collector in lithium-ion batteries
-
Ma, T., Xu, G.-L., Li, Y., Wang, L., He, X., Zheng, J., Liu, J., Engelhard, M.H., Zapol, P., Curtiss, L.A., Jorne, J., Amine, K., Chen, Z., Revisiting the corrosion of the aluminum current collector in lithium-ion batteries. J. Phys. Chem. Lett. 8 (2017), 1072–1077.
-
(2017)
J. Phys. Chem. Lett.
, vol.8
, pp. 1072-1077
-
-
Ma, T.1
Xu, G.-L.2
Li, Y.3
Wang, L.4
He, X.5
Zheng, J.6
Liu, J.7
Engelhard, M.H.8
Zapol, P.9
Curtiss, L.A.10
Jorne, J.11
Amine, K.12
Chen, Z.13
-
58
-
-
85021903238
-
Determining oxidative stability of battery electrolytes: validity of common electrochemical stability window (ESW) data and alternative strategies
-
Kasnatscheew, J., Streipert, B., Roser, S., Wagner, R., Cekic Laskovic, I., Winter, M., Determining oxidative stability of battery electrolytes: validity of common electrochemical stability window (ESW) data and alternative strategies. Phys. Chem. Chem. Phys. 19 (2017), 16078–16086.
-
(2017)
Phys. Chem. Chem. Phys.
, vol.19
, pp. 16078-16086
-
-
Kasnatscheew, J.1
Streipert, B.2
Roser, S.3
Wagner, R.4
Cekic Laskovic, I.5
Winter, M.6
-
59
-
-
85019999620
-
6 on the aluminum current collector dissolution in high voltage lithium ion batteries after long-term charge/discharge experiments
-
6 on the aluminum current collector dissolution in high voltage lithium ion batteries after long-term charge/discharge experiments. J. Electrochem. Soc. 164 (2017), A1474–A1479.
-
(2017)
J. Electrochem. Soc.
, vol.164
, pp. A1474-A1479
-
-
Streipert, B.1
Röser, S.2
Kasnatscheew, J.3
Janßen, P.4
Cao, X.5
Wagner, R.6
Cekic-Laskovic, I.7
Winter, M.8
-
60
-
-
84875419818
-
Mechanism of anodic dissolution of the aluminum current collector in 1 M LiTFSI EC: DEC 3:7 in rechargeable lithium batteries
-
Krämer, E., Schedlbauer, T., Hoffmann, B., Terborg, L., Nowak, S., Gores, H.J., Passerini, S., Winter, M., Mechanism of anodic dissolution of the aluminum current collector in 1 M LiTFSI EC: DEC 3:7 in rechargeable lithium batteries. J. Electrochem. Soc. 160 (2013), A356–A360.
-
(2013)
J. Electrochem. Soc.
, vol.160
, pp. A356-A360
-
-
Krämer, E.1
Schedlbauer, T.2
Hoffmann, B.3
Terborg, L.4
Nowak, S.5
Gores, H.J.6
Passerini, S.7
Winter, M.8
-
61
-
-
84875427965
-
Dependency of aluminum collector corrosion in lithium ion batteries on the electrolyte solvent
-
Krämer, E., Passerini, S., Winter, M., Dependency of aluminum collector corrosion in lithium ion batteries on the electrolyte solvent. ECS Electrochem. Lett. 1 (2012), C9–C11.
-
(2012)
ECS Electrochem. Lett.
, vol.1
, pp. C9-C11
-
-
Krämer, E.1
Passerini, S.2
Winter, M.3
-
62
-
-
7644227934
-
Nonaqueous liquid electrolytes for lithium-based rechargeable batteries
-
Xu, K., Nonaqueous liquid electrolytes for lithium-based rechargeable batteries. Chem. Rev. 104 (2004), 4303–4417.
-
(2004)
Chem. Rev.
, vol.104
, pp. 4303-4417
-
-
Xu, K.1
-
63
-
-
0031699635
-
The superiority of asymmetric alkyl methyl carbonates
-
Ein-Eli, Y., McDevitt, S.F., Laura, R., The superiority of asymmetric alkyl methyl carbonates. J. Electrochem. Soc. 145 (1998), L1–L3.
-
(1998)
J. Electrochem. Soc.
, vol.145
, pp. L1-L3
-
-
Ein-Eli, Y.1
McDevitt, S.F.2
Laura, R.3
|