Abstract
Application of different electrolyte components as blends in nonaqueous electrolyte formulations represents a viable approach towards improving the overall performance and reliability of a lithium ion battery cell. By combining the advantages of different electrolyte constituents, cell chemistry can be optimized and tailored for a specific purpose. In this paper, the current progress on possibilities, advantages, as well as limitations of blended nonaqueous electrolyte formulations, including solvent, salt and additive blends is reviewed and discussed. Emphasis is set on the physicochemical, electrochemical, and safety aspects. In addition, the aim of this review is to provide perspective and possible strategy for further and future development of blended nonaqueous electrolytes with long life, high energy density, high power, and adequate safety at competitive manufacturing costs. The provided overview and perspective on blended nonaqueous electrolyte formulations should encourage researchers to proceed with further and deeper investigations in this promising field of advanced batteries.
Similar content being viewed by others
References
Wagner R, Preschitschek N, Passerini S, Leker J, Winter M (2013) J Appl Electrochem 43:481–496
Jia H, Kloepsch R, He X, Evertz M, Nowak S, Li J, Winter M, Placke T (2016) Acta Chim Slov 63:470–483
Meister P, Jia H, Li J, Kloepsch R, Winter M, Placke T (2016) Chem Mater 28:7203–7217
Besenhard JO, Winter M (1998) Pure Appl Chem 70:603–608
Winter M, Imhof R, Joho F, Novák P (1999) J Power Sources 81–82:818–823
Lux SF, Lucas IT, Pollak E, Passerini S, Winter M, Kostecki R (2012) Electrochem Commun 14:47–50
Winter M (2009) Z Phys Chem 223:1395–1406
Winter M (2006) Second International symposium on LLIBTA, AABC-06 Baltimore Inner Harbor
Scrosati B, Garche J (2010) J Power Sources 195:2419–2430
Chagnes A, Diaw M, Carré B, Willmann P, Lemordant D (2005) J Power Sources 145:82–88
Xu K (2014) Chem Rev 114:11503–11618
Sato T, Maruo T, Marukane S, Takagi K (2004) J Power Sources 138:253–261
Xu J, Yang J, NuLi Y, Wang J, Zhang Z (2006) J Power Sources 160:621–626
Wang M, Shan Z, Tian J, Yang K, Liu X, Liu H, Zhu K (2013) Electrochim Acta 95:301–307
Abu-Lebdeh Y, Davidson I (2009) J Electrochem Soc 156:A60–A65
Abu-Lebdeh Y, Davidson I (2009) J Power Sources 189:576–579
Nagahama M, Hasegawa N, Okada S (2010) J Electrochem Soc 157:A748–A752
Rohan R, Kuo T-C, Lin J-H, Hsu Y-C, Li C-C, Lee J-T (2016) J Phys Chem C 120:6450–6458
Luo R, Ren W, Jiang Y-M, Liao S-J (2014) Xian Dai Hua Gong 34:36–40
Wrodnigg GH, Reisinger C, Besenhard JO, Winter M (1999) ITE Battery Lett 1:110
Li S, Zhao D, Chen R (2016) EMCPE, Zhengzhou, China, pp 334–337
Galiński M, Lewandowski A, Stępniak I (2006) Electrochim Acta 51:5567–5580
Wilkes JS (2002) Green Chem 4:73–80
Younesi R, Veith GM, Johansson P, Edstrom K, Vegge T (2015) Energy Environ Sci 8:1905–1922
Amereller M, Multerer M, Schreiner C, Lodermeyer J, Schmid A, Barthel J, Gores HJ (2009) J Chem Eng Data 54:468–471
Cho Y-G, Kim Y-S, Sung D-G, Seo M-S, Song H-K (2014) Energy Environ Sci 7:1737–1743
Ding MS, Xu K, Jow TR (2000) J Electrochem Soc 147:1688–1694
Brox S, Roser S, Husch T, Hildebrand S, Fromm O, Korth M, Winter M, Cekic-Laskovic I (2016) ChemSusChem 9:1704–1711
Guerfi A, Dontigny M, Charest P, Petitclerc M, Lagacé M, Vijh A, Zaghib K (2010) J Power Sources 195:845–852
Arbizzani C, Gabrielli G, Mastragostino M (2011) J Power Sources 196:4801–4805
Isken P, Dippel C, Schmitz R, Schmitz RW, Kunze M, Passerini S, Winter M, Lex-Balducci A (2011) Electrochim Acta 56:7530–7535
Duncan H, Salem N, Abu-Lebdeh Y (2013) J Electrochem Soc 160:A838–A848
MacFarlane DR, Huang J, Forsyth M (1999) Nature 402:792–794
Vogl T, Menne S, Balducci A (2014) Phys Chem Chem Phys 16:25014–25023
Kühnel RS, Böckenfeld N, Passerini S, Winter M, Balducci A (2011) Electrochim Acta 56:4092–4099
Yang B, Li C, Zhou J, Liu J, Zhang Q (2014) Electrochim Acta 148:39–45
Patra J, Wang C-H, Lee T-C, Wongittharom N, Lin Y-C, Ting-Kuo Fey G, Majumder SB, Hsieh C-T, Chang J-K (2015) RSC Adv 5:106824–106831
Sloop SE, Pugh JK, Wang S, Kerr JB, Kinoshita K (2001) Electrochem Solid-State Lett 4:A42–A44
Campion CL, Li W, Lucht BL (2005) J Electrochem Soc 152:A2327–A2334
Yang H, Zhuang GV, Ross PN (2006) J Power Sources 161:573–579
Chavan SN, Tiwari A, Nagaiah TC, Mandal D (2016) Phys Chem Chem Phys 18:16116–16126
Xu K, Lee U, Zhang S, Allen JL, Jow TR (2004) Electrochem Solid-State Lett 7:A273–A277
Xu K (2004) Chem Rev 104:4303–4418
Shin J (2003) Electrochem Commun 5:1016–1020
Shin J-H, Henderson WA, Passerini S (2005) Electrochem Solid-State Lett 8:A125–A127
Winter M, Appel WK, Evers B, Hodal T, Möller K-C, Schneider I, Wachtler M, Wagner MR, Wrodnigg GH, Besenhard JO (2001) Monatshefte für Chemie/Chem Mon 132:473–486
Lux SF, Jeong S-S, Kim G-T, Passerini S, Winter M, Balducci A (2010) ECS Trans 25:21–25
Kim K, Cho Y-H, Shin H-C (2013) J Power Sources 225:113–118
Morita M, Shibata T, Yoshimoto N, Ishikawa M (2002) Electrochim Acta 47:2787–2793
Krause LJ, Lamanna W, Summerfield J, Engle M, Korba G, Loch R, Atanasoski R (1997) J Power Sources 68:320–325
Kramer E, Schedlbauer T, Hoffmann B, Terborg L, Nowak S, Gores HJ, Passerini S, Winter M (2012) J Electrochem Soc 160:A356–A360
Krämer E, Passerini S, Winter M (2012) ECS Electrochem Lett 1:C9–C11
Garcia B, Armand M (2004) J Power Sources 132:206–208
Lombardo L, Brutti S, Navarra MA, Panero S, Reale P (2013) J Power Sources 227:8–14
Peng C, Yang L, Zhang Z, Tachibana K, Yang Y (2007) J Power Sources 173:510–517
Mun J, Yim T, Choi CY, Ryu JH, Kim YG, Oh SM (2010) Electrochem Solid-State Lett 13:A109–A111
Ue M, Mori S (1995) J Electrochem Soc 142:2577–2581
Xu K, Zhang S, Jow TR (2003) Electrochem Solid-State Lett 6:A117–A120
Jiang J, Dahn JR (2004) Electrochim Acta 49:4599–4604
Schmidt M, Heider U, Kuehner A, Oesten R, Jungnitz M, Ignat’ev N, Sartori P (2001) J Power Sources 97–98:557–560
Shui Zhang S (2006) Electrochem Commun 8:1423–1428
Schedlbauer T, Krüger S, Schmitz R, Schmitz RW, Schreiner C, Gores HJ, Passerini S, Winter M (2013) Electrochim Acta 92:102–107
Dominey LA, Koch VR, Blakley TJ (1992) Electrochim Acta 37:1551–1554
Han H-B, Zhou S-S, Zhang D-J, Feng S-W, Li L-F, Liu K, Feng W-F, Nie J, Li H, Huang X-J, Armand M, Zhou Z-B (2011) J Power Sources 196:3623–3632
Böttcher T, Duda B, Kalinovich N, Kazakova O, Ponomarenko M, Vlasov K, Winter M, Röschenthaler GV (2014) Prog Solid State Chem 42:202–217
Schmitz RW, Murmann P, Schmitz R, Müller R, Krämer L, Kasnatscheew J, Isken P, Niehoff P, Nowak S, Röschenthaler G-V, Ignatiev N, Sartori P, Passerini S, Kunze M, Lex-Balducci A, Schreiner C, Cekic-Laskovic I, Winter M (2014) Prog Solid State Chem 42:65–84
Gallus DR, Schmitz R, Wagner R, Hoffmann B, Nowak S, Cekic-Laskovic I, Schmitz RW, Winter M (2014) Electrochim Acta 134:393–398
Evertz M, Horsthemke F, Kasnatscheew J, Börner M, Winter M, Nowak S (2016) J Power Sources 329:364–371
Kraft V, Weber W, Streipert B, Wagner R, Schultz C, Winter M, Nowak S (2016) RSC Adv 6:8–17
Kraft V, Grützke M, Weber W, Menzel J, Wiemers-Meyer S, Winter M, Nowak S (2015) J Chromatogr A 1409:201–209
Terborg L, Weber S, Passerini S, Winter M, Karst U, Nowak S (2014) J Power Sources 245:836–840
Shieh D-T, Hsieh P-H, Yang M-H (2007) J Power Sources 174:663–667
Chen Z, Lu WQ, Liu J, Amine K (2006) Electrochim Acta 51:3322–3326
Jow RT, Xu K, Borodin O, Ue M (2014) Electrolytes for lithium and lithium-ion batteries. Springer, New York
Hofmann A, Hanemann T (2015) J Power Sources 298:322–330
Lai Y, Peng B, Zhang Z, Li J (2014) J Electrochem Soc 161:A875–A879
Zhang L, Chai L, Zhang L, Shen M, Zhang X, Battaglia VS, Stephenson T, Zheng H (2014) Electrochim Acta 127:39–44
Zhou H, Xiao K, Li J (2016) J Power Sources 302:274–282
Zugmann S, Moosbauer D, Amereller M, Schreiner C, Wudy F, Schmitz R, Schmitz R, Isken P, Dippel C, Müller R, Kunze M, Lex-Balducci A, Winter M, Gores HJ (2011) J Power Sources 196:1417–1424
Abraham DP, Furczon MM, Kang SH, Dees DW, Jansen AN (2008) J Power Sources 180:612–620
Ding MS, Richard Jow T (2004) J Electrochem Soc 151:A2007–A2015
Zygadło-Monikowska E, Florjańczyk Z, Kubisa P, Biedroń T, Tomaszewska A, Ostrowska J, Langwald N (2010) J Power Sources 195:6202–6206
Zhang Z, Chen X, Li F, Lai Y, Li J, Liu P, Wang X (2010) J Power Sources 195:7397–7402
Park K, Yu S, Lee C, Lee H (2015) J Power Sources 296:197–203
Li L, Zhou S, Han H, Li H, Nie J, Armand M, Zhou Z, Huang X (2011) J Electrochem Soc 158:A74–A82
Li F, Gong Y, Jia G, Wang Q, Peng Z, Fan W, Bai B (2015) J Power Sources 295:47–54
Zhang Z-A, Zhao X-X, Peng B, Lai Y-Q, Zhang Z-Y, Li J (2015) Trans Nonferrous Met Soc China 25:2260–2265
Hong E-S, Okada S, Sonoda T, Gopukumar S, Yamaki J-I (2004) J Electrochem Soc 151:A1836–A1840
Zhang S, Xu K, Jow T (2003) J Solid State Electrochem 7:147–151
Zhang SS, Xu K, Jow TR (2002) J Electrochem Soc 149:A586–A590
Xu M, Zhou L, Hao L, Xing L, Li W, Lucht BL (2011) J Power Sources 196:6794–6801
Zhang SS, Xu K, Allen JL, Jow TR (2002) J Power Sources 110:216–221
Wagner MR, Albering JH, Moeller KC, Besenhard JO, Winter M (2005) Electrochem Commun 7:947–952
Wagner MR, Raimann PR, Trifonova A, Moeller K-C, Besenhard JO, Winter M (2004) Electrochem Solid-State Lett 7:A201–A205
Zhang SS, Xu K, Jow TR (2006) J Power Sources 156:629–633
Wachtler M, Wohlfahrt-Mehrens M, Ströbele S, Panitz J-C, Wietelmann U (2006) J Appl Electrochem 36:1199–1206
Zhuang GV, Xu K, Jow TR, Ross PN (2004) Electrochem Solid-State Lett 7:A224–A227
Panitz J-C, Wietelmann U, Wachtler M, Ströbele S, Wohlfahrt-Mehrens M (2006) J Power Sources 153:396–401
Blyth RIR, Buqa H, Netzer FP, Ramsey MG, Besenhard JO, Winter M (2001) J Power Sources 97–98:171–173
Buqa H, Golob P, Winter M, Besenhard JO (2001) J Power Sources 97–98:122–125
Buqa H, Blyth RIR, Golob P, Evers B, Schneider I, Santis Alvarez MV, Hofer F, Netzer FP, Ramsey MG, Winter M, Besenhard JO (2000) Ionics 6:172–179
Blyth RIR, Buqa H, Netzer FP, Ramsey MG, Besenhard JO, Golob P, Winter M (2000) Appl Surf Sci 167:99–106
Olivier JP, Winter M (2001) J Power Sources 97–98:151–155
Placke T, Siozios V, Rothermel S, Meister P, Colle C, Winter M (2015) Z Phys Chem 229:1451
Placke T, Siozios V, Schmitz R, Lux SF, Bieker P, Colle C, Meyer HW, Passerini S, Winter M (2012) J Power Sources 200:83–91
Winter M, Novák P, Monnier A (1998) J Electrochem Soc 145:428–436
Xu K, Zhang S, Jow TR (2005) Electrochem Solid-State Lett 8:A365–A368
Jiang J, Dahn JR (2003) Electrochem Solid-State Lett 6:A180–A182
Jiang J, Dahn JR (2004) Electrochem Commun 6:39–43
Gallagher KG, Goebel S, Greszler T, Mathias M, Oelerich W, Eroglu D, Srinivasan V (2014) Energy Environ Sci 7:1555–1563
Xu W, Wang J, Ding F, Chen X, Nasybulin E, Zhang Y, Zhang J-G (2014) Energy Environ Sci 7:513–537
Ryou M-H, Lee YM, Lee Y, Winter M, Bieker P (2015) Adv Funct Mater 25:834–841
Bieker G, Winter M, Bieker P (2015) Phys Chem Chem Phys 17:8670–8679
Heine J, Hilbig P, Qi X, Niehoff P, Winter M, Bieker P (2015) J Electrochem Soc 162:A1094–A1101
Winter M, Besenhard JO (1999) In: Besenhard JO (ed) Handbook of battery materials. VCH, Weinheim, pp 383–418
Xiang H, Shi P, Bhattacharya P, Chen X, Mei D, Bowden ME, Zheng J, Zhang J-G, Xu W (2016) J Power Sources 318:170–177
Blyr A, Sigala C, Amatucci G, Guyomard D, Chabre Y, Tarascon JM (1998) J Electrochem Soc 145:194–209
Börner M, Klamor S, Hoffmann B, Schroeder M, Nowak S, Würsig A, Winter M, Schappacher FM (2016) J Electrochem Soc 163:A831–A837
Hunter JC (1981) J Solid State Chem 39:142–147
Guerfi A, Duchesne S, Kobayashi Y, Vijh A, Zaghib K (2008) J Power Sources 175:866–873
Abouimrane A, Ding J, Davidson IJ (2009) J Power Sources 189:693–696
Li S, Li L, Liu J, Jing J, Li X, Cui X (2015) Electrochim Acta 155:321–326
Myung S-T, Hitoshi Y, Sun Y-K (2011) J Mater Chem 21:9891–9911
Zhang SS, Jow TR (2002) J Power Sources 109:458–464
Chen X, Xu W, Engelhard MH, Zheng J, Zhang Y, Ding F, Qian J, Zhang J-G (2014) J Mater Chem A 2:2346–2352
Behl WK, Plichta EJ (1998) J Power Sources 72:132–135
Song S-W, Richardson TJ, Zhuang GV, Devine TM, Evans JW (2004) Electrochim Acta 49:1483–1490
Zhang X, Devine TM (2006) J Electrochem Soc 153:B365–B369
Wang X, Yasukawa E, Mori S (2000) Electrochim Acta 45:2677–2684
Kawamura T, Tanaka T, Egashira M, Watanabe I, Okada S, Yamaki J-I (2005) Electrochem Solid-State Lett 8:A459–A463
Zhang SS (2006) J Power Sources 162:1379–1394
Hess S, Wohlfahrt-Mehrens M, Wachtler M (2015) J Electrochem Soc 162:A3084–A3097
Wrodnigg GH, Wrodnigg TM, Besenhard JO, Winter M (1999) Electrochem Commun 1:148–150
Appel WK, Besenhard JO, Pasenok S, Winter M, Lie LH. Electrolyte system for lithium batteries, the use thereof, and method for enhancing the safety of lithium batteries. German Patent DE19858925A1 (19.12.1998) (related European, US and international patents)
Appel WK, Besenhard JO, Pasenok S, Winter M, Lie LH. Electrolyte system for lithium batteries and its use and also a method of increasing the safety of lithium batteries. German Patent DE19858924A1 (19.12.1998) (related European, US and international patents)
Möller KC, Hodal T, Appel WK, Winter M, Besenhard JO (2001) J Power Sources 97–98:595–597
Xu K, Ding MS, Zhang SS, Allen JL, Jow TR (2002) J Electrochem Soc 149:A622–A626
Wang X, Yasukawa E, Kasuya S (2001) J Electrochem Soc 148:A1058–A1065
Yao XL, Xie S, Chen CH, Wang QS, Sun JH, Li YL, Lu SX (2005) J Power Sources 144:170–175
Murmann P, Mönnighoff X, von Aspern N, Janssen P, Kalinovich N, Shevchuk M, Kazakova O, Röschenthaler G-H, Cekic-Laskovic I, Winter M (2016) J Electrochem Soc 163:A751–A757
Xu K, Zhang SS, Allen JL, Jow TR (2003) J Electrochem Soc 150:A170–A175
Kasnatscheew J, Schmitz RW, Wagner R, Winter M, Schmitz R (2013) J Electrochem Soc 160:A1369–A1374
Profatilova IA, Stock C, Schmitz A, Passerini S, Winter M (2013) J Power Sources 222:140–149
Nam T-H, Shim E-G, Kim J-G, Kim H-S, Moon S-I (2007) J Electrochem Soc 154:A957–A963
Shim E-G, Nam T-H, Kim J-G, Kim H-S, Moon S-I (2007) J Power Sources 172:901–907
Dunn RP, Kafle J, Krause FC, Hwang C, Ratnakumar BV, Smart MC, Lucht BL (2012) J Electrochem Soc 159:A2100–A2108
Ciosek Högström K, Lundgren H, Wilken S, Zavalis TG, Behm M, Edström K, Jacobsson P, Johansson P, Lindbergh G (2014) J Power Sources 256:430–439
Ping P, Wang QS, Sun JH, Xia X, Dahn JR (2012) J Electrochem Soc 159:A1467–A1473
Xia X, Ping P, Dahn JR (2012) J Electrochem Soc 159:A1834–A1837
Shim E-G, Nam T-H, Kim J-G, Kim H-S, Moon S-I (2007) J Power Sources 172:919–924
Smart MC, Krause FC, Hwang C, West WC, Soler J, Prakash GKS, Ratnakumar BV (2011) ECS Trans 35:1–11
Hyung YE, Vissers DR, Amine K (2003) J Power Sources 119–121:383–387
Granzow A (1978) Acc Chem Res 11:177–183
He Y-B, Liu Q, Tang Z-Y, Chen Y-H, Song Q-S (2007) Electrochim Acta 52:3534–3540
Tobishima S, Ogino Y, Watanabe Y (2003) J Appl Electrochem 33:143–150
Wang X, Yasukawa E, Kasuya S (2001) J Electrochem Soc 148:A1066–A1071
Pyschik M, Kraft V, Passerini S, Winter M, Nowak S (2014) Electrochim Acta 130:426–430
Pyschik M, Schultz C, Passerini S, Winter M, Nowak S (2015) Electrochim Acta 176:1143–1152
Placke T, Fromm O, Lux SF, Bieker P, Rothermel S, Meyer H-W, Passerini S, Winter M (2012) J Electrochem Soc 159:A1755–A1765
Rothermel S, Meister P, Schmuelling G, Fromm O, Meyer H-W, Nowak S, Winter M, Placke T (2014) Energy Environ Sci 7:3412–3423
Armand M, Endres F, MacFarlene DR, Ohno H, Scrosati B (2009) Nat Mater 9:621–629
Lalia BS, Yoshimoto N, Egashira M, Morita M (2010) J Power Sources 195:7426–7431
Tasaki K, Goldberg A, Winter M (2011) Electrochim Acta 56:10424–10435
Winter M, Besenhard JO (1999) Chem unserer Zeit 33:252–266
Winter M, Besenhard JO (1999) Chem unserer Zeit 33:320–332
Vogl U, Schmitz A, Stock C, Badillo JP, Gores HJ, Winter M (2014) J Electrochem Soc 161:A1407–A1414
Krueger S, Kloepsch R, Li J, Nowak S, Passerini S, Winter M (2013) J Electrochem Soc 160:A542–A548
Xiao L, Ai X, Cao Y, Yang H (2004) Electrochim Acta 49:4189–4196
Watanabe Y, Morimoto H, Tobishima S (2006) J Power Sources 154:246–254
Dippel C, Schmitz R, Müller R, Böttcher T, Kunze M, Lex-Balducci A, Röschenthaler G-V, Passerini S, Winter M (2012) J Electrochem Soc 159:A1587–A1590
Korepp C, Santner HJ, Fujii T, Ue M, Besenhard JO, Möller KC, Winter M (2006) J Power Sources 158:578–582
Santner HJ, Korepp C, Winter M, Besenhard JO, Möller K-C (2004) Anal Bioanal Chem 379:266–271
Möller KC, Santner HJ, Kern W, Yamaguchi S, Besenhard JO, Winter M (2003) J Power Sources 119–121:561–566
Wrodnigg GH, Besenhard JO, Winter M (1999) J Electrochem Soc 146:470–472
Korepp C, Kern W, Lanzer EA, Raimann PR, Besenhard JO, Yang M, Möller KC, Shieh DT, Winter M (2007) J Power Sources 174:628–631
Korepp C, Kern W, Lanzer EA, Raimann PR, Besenhard JO, Yang MH, Möller KC, Shieh DT, Winter M (2007) J Power Sources 174:387–393
Besenhard JO, Moller K-C, Fauler G, Winter M (2002) US Patent US20040029017A1
Shima K, Shizuka K, Ue M, Ota H, Hatozaki T, Yamaki J-I (2006) J Power Sources 161:1264–1274
Lee H, Kim S, Jeon J, Cho J-J (2007) J Power Sources 173:972–978
Lee H, Lee JH, Ahn S, Kim H-J, Cho J-J (2006) Electrochem Solid-State Lett 9:A307–A310
Kawaguchi T, Fukuda K, Tokuda K, Sakaida M, Ichitsubo T, Oishi M, Mizuki J, Matsubara E (2015) Phys Chem Chem Phys 17:14064–14070
Liu W, Oh P, Liu X, Lee M-J, Cho W, Chae S, Kim Y, Cho J (2015) Angew Chem Int Ed 54:4440–4457
Herstedt M, Andersson AM, Rensmo H, Siegbahn H, Edstrom K (2004) Electrochim Acta 49:4939–4947
Xu M, Li W, Lucht BL (2009) J Power Sources 193:804–809
Kim JH, Bae S-Y, Min J-H, Song S-W, Kim D-W (2012) Electrochim Acta 78:11–16
Balducci A, Schmuck M, Kern W, Rupp B, Passerini S, Winter M (2008) ECS Trans 11:109–114
Jeong S-K, Inaba M, Mogi R, Iriyama Y, Abe T, Ogumi Z (2001) Langmuir 17:8281–8286
Wang Y, Nakamura S, Tasaki K, Balbuena PB (2002) J Am Chem Soc 124:4408–4421
Ota H, Sakata Y, Inoue A, Yamaguchi S (2004) J Electrochem Soc 151:A1659–A1669
Kim H, Grugeon S, Gachot G, Armand M, Sannier L, Laruelle S (2014) Electrochim Acta 136:157–165
Tarnopolskiy V, Kalhoff J, Nádherná M, Bresser D, Picard L, Fabre F, Rey M, Passerini S (2013) J Power Sources 236:39–46
Leggesse EG, Jiang J-C (2012) RSC Adv 2:5439–5446
Chen L, Wang K, Xie X, Xie J (2007) J Power Sources 174:538–543
Chen L, Wang K, Xie X, Xie J (2006) Electrochem Solid-State Lett 9:A512–A515
Wen CJ, Huggins RA (1981) J Solid State Chem 37:271–278
Winter M, Besenhard JO, Albering JH, Yang J, Wachtler M (1998) Prog Batt Batt Mater 17:208–213
Ryu JH, Kim JW, Sung Y-E, Oh SM (2004) Electrochem Solid-State Lett 7:A306–A309
Etacheri V, Haik O, Goffer Y, Roberts GA, Stefan IC, Fasching R, Aurbach D (2012) Langmuir 28:965–976
Dalavi S, Guduru P, Lucht BL (2012) J Electrochem Soc 159:A642–A646
Vogl US, Lux SF, Crumlin EJ, Liu Z, Terborg L, Winter M, Kostecki R (2015) J Electrochem Soc 162:A603–A607
Nakai H, Kubota T, Kita A, Kawashima A (2011) J Electrochem Soc 158:A798–A801
Lindgren F, Xu C, Niedzicki L, Marcinek M, Gustafsson T, Björefors F, Edström K, Younesi R (2016) ACS Appl Mater Interfaces 8:15758–15766
Mazouzi D, Delpuech N, Oumellal Y, Gauthier M, Cerbelaud M, Gaubicher J, Dupré N, Moreau P, Guyomard D, Roué L, Lestriez B (2012) J Power Sources 220:180–184
Gauthier M, Mazouzi D, Reyter D, Lestriez B, Moreau P, Guyomard D, Roue L (2013) Energy Environ Sci 6:2145–2155
Ma L, Xia J, Xia X, Dahn JR (2014) J Electrochem Soc 161:A1495–A1498
Li B, Wang Y, Lin H, Liu J, Xing L, Xu M, Li W (2014) Electrochim Acta 141:263–270
Wang Z, Hu Y, Chen L (2005) J Power Sources 146:51–57
Xu S-D, Zhuang Q-C, Wang J, Xu Y-Q, Zhu Y-B (2013) Int J Electrochem Sci 8:8058–8076
Hu Y, Kong W, Wang Z, Li H, Huang X, Chen L (2004) J Electrochem Soc 7:A442–A446
Nam ND, Park IJ, Kim JG, Kim HS (2012) Mater Res Bull 47:2811–2814
Liu J, Chen Z, Busking S, Belharouak I, Amine K (2007) J Power Sources 174:852–855
Li J, Yao W, Meng YS, Yang Y (2008) J Phys Chem C 112:12550–12556
Chen G, Zhuang GV, Richardsson TJ, Liu C, Ross PN Jr (2005) Electrochem Solid-State Lett 8:A334–A347
Abe K, Ushigoe Y, Yoshitake H, Yoshio M (2006) J Power Sources 153:328–335
Abe K, Yoshitake H, Kitakura T, Hattori T, Wang H, Yoshio M (2004) Electrochim Acta 49:4613–4622
Santner HJ, Möller KC, Ivančo J, Ramsey MG, Netzer FP, Yamaguchi S, Besenhard JO, Winter M (2003) J Power Sources 119–121:368–372
Xia X, Ping P, Dahn JR (2012) J Electrochem Soc 159:A1460–A1466
Shim E-G, Nam T-H, Kim J-G, Kim H-S, Moon S-I (2007) Electrochim Acta 53:650–656
Xia J, Sinha NN, Chen LP, Dahn JR (2014) J Electrochem Soc 161:A264–A271
Krämer E, Schmitz R, Passerini S, Winter M, Schreiner C (2012) Electrochem Commun 16:41–43
Krämer E, Schmitz R, Niehoff P, Passerini S, Winter M (2012) Electrochim Acta 81:161–165
Ota H, Akai T, Namita H, Yamaguchi S, Nomira M (2003) J Power Sources 119–121:567–571
Xing L, Li W, Xu T, Li T, Zhou L (2011) J Power Sources 196:7044–7047
Wrodnigg GH, Besenhard JO, Winter M (2001) J Power Sources 97–98:592–594
Zhang B, Metzger M, Solchenbach S, Payne M, Meini S, Gasteiger HA, Garsuch A, Lucht BL (2015) J Phys Chem C 119:11337–11348
Han G, Li B, Ye Z, Cao C, Guan S (2012) Int J Electrochem Sci 7:12963–12973
Xia J, Harlow JE, Petibon R, Burns JC, Chen LP, Dahn JR (2014) J Electrochem Soc 161:A547–A553
Ding Z, Li X, Wei T, Yin Z, Li X (2016) Electrochim Acta 196:622–628
Sano A, Maruyama S (2009) J Power Sources 192:714–718
Janssen P, Schmitz R, Müller R, Isken P, Lex-Balducci A, Schreiner C, Winter M, Cekic-Laskovic I, Schmitz R (2014) Electrochim Acta 125:101–106
Winter M, Wrodnigg GH, Besenhard JO, Biberacher W, Novák P (2000) J Electrochem Soc 147:2427–2431
Wagner MR, Raimann PR, Trifonova A, Moller KC, Besenhard JO, Winter M (2004) Anal Bioanal Chem 379:272–276
Madec L, Xia J, Petibon R, Nelson KJ, Sun J-P, Hill IG, Dahn JR (2014) J Phys Chem C 118:29608–29622
Huang T, Wu M, Wang W, Pan Y, Fang G (2014) J Power Sources 262:303–309
Zuo X, Fan C, Xiao X, Liu J, Nan J (2012) J Power Sources 219:94–99
Sinha NN, Burns JC, Dahn JR (2014) J Electrochem Soc 161:A1084–A1089
Gallus DR, Wagner R, Wiemers-Meyer S, Winter M, Cekic-Laskovic I (2015) Electrochim Acta 184:410–416
Qi X, Tao L, Hahn H, Schultz C, Gallus DR, Cao X, Nowak S, Roser S, Li J, Cekic-Laskovic I, Rad BR, Winter M (2016) RSC Adv 6:38342–38349
Bhat V, Cheng G, Kaye S, Li B, Olugible R, Yang JH (2012) US Patent 0315536: A1
Rong H, Xu M, Xie B, Huang W, Liao X, Xing L, Li W (2015) J Power Sources 274:1155–1161
Delp SA, Borodin O, Olguin M, Eisner CG, Allen JL, Jow TR (2016) Electrochim Acta 209:498–510
Rong H, Xu M, Xing L, Li W (2014) J Power Sources 261:148–155
Zhang J, Wang J, Yang J, NuLi Y (2014) Electrochim Acta 117:99–104
Yan G, Li X, Wang Z, Guo H, Wang C (2014) J Power Sources 248:1306–1311
Zhu Y, Luo X, Xu M, Zhang L, Yu L, Fan W, Li W (2016) J Power Sources 317:65–73
Song Y-M, Kim C-K, Kim K-E, Hong SY, Choi N-S (2016) J Power Sources 302:22–30
Song Y-M, Han J-G, Park S, Lee KT, Choi N-S (2014) J Mater Chem A 2:9506–9513
Han Y-K, Yoo J, Yim T (2015) J Mater Chem A 3:10900–10909
Mai S, Xu M, Liao X, Hu J, Lin H, Xing L, Liao Y, Li X, Li W (2014) Electrochim Acta 147:565–571
Ma L, Wang DY, Downie LE, Xia J, Nelson KJ, Sinha NN, Dahn JR (2014) J Electrochem Soc 161:A1261–A1265
Wang DY, Dahn JR (2014) J Electrochem Soc 161:A1890–A1897
Ma L, Self J, Nie M, Glazier S, Wang DY, Lin Y-S, Dahn JR (2015) J Power Sources 299:130–138
Ma L, Xia J, Dahn JR (2014) J Electrochem Soc 161:A2250–A2254
Nie M, Xia J, Dahn JR (2015) J Electrochem Soc 162:A1186–A1195
Madec L, Ma L, Nelson KJ, Petibon R, Sun J-P, Hill IG, Dahn JR (2016) J Electrochem Soc 163:A1001–A1009
Li B, Xu M, Li T, Li W, Hu S (2012) Electrochem Commun 17:92–95
Li B, Xu M, Li B, Liu Y, Yang L, Li W, Hu S (2013) Electrochim Acta 105:1–6
Ma L, Xia J, Dahn JR (2015) J Electrochem Soc 162:A1170–A1174
Burns JC, Sinha NN, Gaurav J, Ye H, VanElzen CM, Lamanna WM, Xiao A, Scott E, Choi J, Dahn JR (2012) J Electrochem Soc 159:A1105–A1113
Mao H, Sacken UV, Reimers J (1999) US Patent 5,891,592
Ping P, Xia X, Wang QS, Sun JH, Dahn JR (2014) J Electrochem Soc 160:A426–A429
Burns JC, Xia X, Dahn JR (2013) J Electrochem Soc 160:A383–A386
Petibon R, Aiken CP, Sinha NN, Burns JC, Ye H, VanElzen CM, Jain G, Trussler S, Dahn JR (2013) J Electrochem Soc 160:A117–A124
Nie M, Xia J, Dahn JR (2015) J Electrochem Soc 162:A1693–A17101
Nie M, Ma L, Xia J, Xiao A, Lamanna WM, Smith K, Bahn JR (2016) J Electrochem Soc 163:A2124–A2130
Zuo X, Fan C, Liu J, Xiao J, Wu J, Nan J (2013) J Electrochem Soc 160:A1199–A1204
Xia J, Madec L, Ma L, Ellis LD, Qiu W, Nelson KJ, Lu Z, Dahn JR (2015) J Power Sources 295:203–211
Zhang SS, Jow TR, Amine K (2002) J Power Sources 107:18–23
Yoshio M, Xia Y, Kumada N (2001) J Power Sources 101:79–85
Zuo XX, Su DG, Liu JS (2005) Battery 35:366–367
Yamme H, Inoue T, Fujita M, Sano M (2001) J Power Sources 99:60–65
Li Y, Zhang R, Liu J, Yang C (2009) J Power Sources 189:685–688
Wu X, Li X, Wang Z, Guo H, Yue P, Zhang Y (2013) Appl Surf Sci 268:349–354
Zhang Z, Xu X, Zuo XX (2007) Acta Phys Chim Sin 23:526–530
Author information
Authors and Affiliations
Corresponding author
Additional information
This article is part of the Topical Collection “Electrochemical Energy Storage”: edited by Rüdiger A. Eichel.
Rights and permissions
About this article
Cite this article
Cekic-Laskovic, I., von Aspern, N., Imholt, L. et al. Synergistic Effect of Blended Components in Nonaqueous Electrolytes for Lithium Ion Batteries. Top Curr Chem (Z) 375, 37 (2017). https://doi.org/10.1007/s41061-017-0125-8
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s41061-017-0125-8