Abstract
Due to the advantages of good safety, long cycle life, and large specific capacity, LiFePO4 is considered to be one of the most competitive materials in lithium-ion batteries. But its development is limited by the shortcomings of low electronic conductivity and low ion diffusion efficiency. As an additive that can effectively improve battery performance, graphene has better physical properties than traditional carbon black materials; include excellent mechanical strength, high thermal conductivity, and electron mobility; and has been widely studied in recent years. This review introduces the LiFePO4 material and the modification methods of graphene and its derivatives on LiFePO4, discusses the problems that arise, and introduces the corresponding solutions. Finally, the future development of this composite material is discussed.
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References
Zhang S, Zou Z, Zhang H, Liu J, Zhong S (2021) J Electroanalytical Chem 890:115220
Zhang H (2020) Int J Electrochem Sci 15:12041–12067
Beidaghi M, Gogotsi Y (2014) Energy Environ Sci 7:867–884
Huang Y, Zhu M, Huang Y, Pei Z, Li H, Wang Z, Xue Q, Zhi C (2016) Adv Mater 28:8344–8364
Lukatskaya MR, Dunn B, Gogotsi Y (2016) Nat Commun 7:12647
Wang H, Yang Y, Guo L (2017) Adv Energy Mater 7:1601709
Massaro A, Muñoz-García AB, Maddalena P, Bella F, Meligrana G, Gerbaldi C, Pavone M (2020) Nanoscale Adv 2:2745–2751
Xu X, Cheng J, Li Y, Nie X, Dai L, Ci L (2019) J Solid State Electrochem 23:3145–3151
Mutlu RN, Yazıcı B (2018) J Solid State Electrochem 23:529–541
Yuan L-X, Wang Z-H, Zhang W-X, Hu X-L, Chen J-T, Huang Y-H, Goodenough JB (2011) Energy Environ Sci 4:269–284
Li Z, Zhang D, Yang F (2009) J Mater Sci 44:2435–2443
Zhang Y, Huo Q-Y, Du P-P, Wang L-Z, Zhang A-Q, Song Y-H, Lv Y, Li G-Y (2012) Synth Met 162:1315–1326
Han L, Liu T, Sheng O, Liu Y, Wang Y, Nai J, Zhang L, Tao X (2021) ACS Appl Mater Interfaces 13:45139–45148
Liu W, Yi C, Li L, Liu S, Gui Q, Ba D, Li Y, Peng D, Liu J (2021) Angew Chem Int Ed Engl 60:12931–12940
Piana G, Bella F, Geobaldo F, Meligrana G, Gerbaldi C (2019) J Energy Storage 26:100947
Liu T, Tong CJ, Wang B, Liu LM, Zhang S, Lin Z, Wang D, Lu J (2019) Adv Energy Mater 9:1803390
Zhong S, Zou Z, Lv S, Zhang S, Geng J, Meng J, Liu X, Liang F, Rao J (2022) J Alloys Compd 903:163845
Zhong S, Zou Z, Zhang S, Geng J, Meng J, Liu X (2022) Energy Fuels 36:6502–6510
Li X, Su Z, Wang Y (2018) J Alloy Compd 735:2182–2189
Wang C, Zhang R, Kisslinger K, **n HL (2021) Nano Lett 21:3657–3663
Gonçalves R, Sharma P, Ram P, Ferdov S, Silva MM, Costa CM, Singhal R, Sharma RK, Lanceros-Méndez S (2021) J Alloys Compd 853:157208
Nageswara Rao B, Narsimulu D, Satyanarayana N (2021) Indian J Phys 96:1017–1023
Li J, Guo C, Qin Y, Ning X (2020) Mater Technol 35:565–571
Yang Z, Dai Y, Wang S, Yu J (2016) J Mater Chem A 4:18210–18222
Bai N, **ang K, Zhou W, Lu H, Chen H (2016) Mater Technol 32:203–209
Duan W, Zhao M, Mizuta Y, Li Y, Xu T, Wang F, Moriga T, Song X (2020) Phys Chem Chem Phys 22:1953–1962
Huynh LTN, Tran TTD, Nguyen HHA, Nguyen TTT, Tran VM, Grag A, Le MLP (2018) J Solid State Electrochem 22:2247–2254
Wang B, Liu T, Liu A, Liu G, Wang L, Gao T, Wang D, Zhao XS (2016) Adv Energy Mater 6:1600426
Shadjou N, Hasanzadeh M (2016) Mater Technol 31:806–811
Chen P, Wang X, Wang GY, Duo YR, Zhang XY, Hu XH, Zhang XJ (2014) Mater Technol 29:210–213
Yan CS, Gong JM (2013) Mater Technol 26:173–183
**e AJ, Liu QX, Ge HL, Kong Y (2014) Mater Technol 30:50–53
Li J, Yu Y, Chen D, Liu G, Li D, Lee HS, Feng Y (2020) Bioresour Technol 304:122907
Wang H, Li X, Baker-Fales M, Amama PB (2016) Curr Opin Chem Eng 13:124–132
Kim YA, Hayashi T, Kim JH, Endo M (2013) J Energy Chem 22:183–194
Adan-Mas A, Wei D (2013) Nanomaterials (Basel) 3:325–356
Pumera M (2013) Electrochem Commun 36:14–18
Padhi KNAK, Goodenoug JB (1997) J Electrochem Soc 144:1188
Whittingham MS (2004) Department of Chemistry and Materials Science. State Univ New York, Binghamton 104:4271–4301
Huang Y, Liu H, Gong L, Hou Y, Li Q (2017) J Power Sources 347:29–36
Wang L, Wang H, Liu Z, **ao C, Dong S, Han P, Zhang Z, Zhang X, Bi C, Cui G (2010) Solid State Ionics 181:1685–1689
Duan J, Hu G, Cao Y, Du K, Peng Z (2016) Ionics 22:1541–1549
Gao H, Hu Z, Zhang K, Cheng F, Chen J (2013) Chem Commun (Camb) 49:3040–3042
Gong C, Xue Z, Wang X, Zhou X-P, **e X-L, Mai Y-W (2014) J Power Sources 246:260–268
Wang L, Sun W, Tang X, Huang X, He X, Li J, Zhang Q, Gao J, Tian G, Fan S (2013) J Power Sources 244:94–100
Li X, Luo D, Zhang X, Zhang Z (2015) J Power Sources 291:75–84
Cech O, Thomas JE, Sedlarikova M, Fedorkova A, Vondrak J, Moreno MS, Visintin A (2013) Solid State Sci 20:110–114
Ching-Yuan Su A-YL, Xu Y, Chen F-R, Khlobystov AN, Li L-J (2011)ACS Nano 5 2332–2339.
Mi CH, Cao YX, Zhang XG, Zhao XB, Li HL (2008) Powder Technol 181:301–306
Cui Y, Zhao X, Guo R (2010) J Alloy Compd 490:236–240
Song J, Zhang Y, Shao G (2013) J Nanomater 2013:1–8
Wang H, Liu S, Huang Y (2014) J Nanosci Nanotechnol 14:3281–3283
Kulka A, Redel K, Molenda J (2019) Solid State Ionics 335:113–120
Li Q, **ao R, Liao X, Ma Z, Huang Y, Zhang Y, Ke X (2020) J Alloys Compd 835:155148
Liu Y, Qin W, Zhang D, Feng L, Wu L (2021) Prog Nat Sci: Mater Int 31:14–18
Madram AR, Faraji M (2017) New J Chem 41:12190–12197
Gao Y, **ong K, Zhang H, Zhu B (2021) ACS Omega 6:14122–14129
Göktepe H (2013) J Chin Chem Soc 60:218–222
Abbate M, Lala LSM, Montoro A, Rosolen aJM (2005) Electrochem Solid-State Letters 8 A288-A209
Wang Y, Yang Y, Hu X, Yang Y, Shao H (2009) J Alloy Compd 481:590–594
Yang J, Bai Y, Qing C, Zhang W (2011) J Alloy Compd 509:9010–9014
Liu H, Luo S-h, Yan S-x, Wang Y-f, Wang Q, Li M-q, Zhang Y-h (2019) J Electroanal Chem 850:113434
Sun CS, Zhang Y, Zhang XJ, Zhou Z (2010) J Power Sources 195:3680–3683
Gao C, Zhou J, Liu G, Wang L (2017) J Alloy Compd 727:501–513
Xu G, Zhong K, Zhang J-M, Huang Z (2015) Solid State Ionics 281:1–5
Shi M, Li R, Liu Y (2021) J Alloys Compd 854:157162
Chen Y, **ang K, Zhou W, Zhu Y, Bai N, Chen H (2018) J Alloy Compd 749:1063–1070
Ren X, Li Z, Cao J, Tian S, Zhang K, Guo J, Wen L, Liang G (2021) J Alloys Compd 867
Zhang Y, Alarco JA, Nerkar JY, Best AS, Snook GA, Talbot PC (2020) Mater Charact 162:110171
Chang C-C, Her L-J, Su H-K, Hsu S-H, Yen YT (2011) J Electrochem Soc 158:A481–A486
Li Y, Wang J, Yao J, Huang H, Du Z, Gu H, Wang Z (2019) Mater Chem Phys 224:293–300
Wu T, Ma X, Liu X, Zeng G, **ao W (2015) Mater Technol 30:A70–A74
Wu X-L, Guo Y-G, Su J, **ong J-W, Zhang Y-L, Wan L-J (2013) Adv Energy Mater 3:1155–1160
Ding Y, Jiang Y, Xu F, Yin J, Ren H, Zhuo Q, Long Z, Zhang P (2010) Electrochem Commun 12:10–13
Song W, Liu J, You L, Wang S, Zhou Q, Gao Y, Yin R, Xu W, Guo Z (2019) J Power Sources 419:192–202
Chen L, Zhang M, Wei W (2013) J Nanomater 2013:1–8
Wang H, Zhao N, Shi C, Ma L, He F, He C, Li J, Liu E (2017) Electrochim Acta 247:1030–1037
Wang H, Zhao N, Shi C, He C, Li J, Liu E (2016) J Phys Chem C 120:17165–17174
Ha J, Park SK, Yu SH, ** A, Jang B, Bong S, Kim I, Sung YE, Piao Y (2013) Nanoscale 5:8647–8655
Nguyen VH, Gu H-B (2014) J Appl Electrochem 44:1153–1163
Rajoba SJ, Jadhav LD, Kalubarme RS, Patil PS, Varma S, Wani BN (2018) Ceram Int 44:6886–6893
Adepoju AA, Doumbia M, Williams QL (2020) Jom 72:3170–3175
Li X, Shao Z, Liu K, Zhao Q, Liu G, Xu B (2018) Int J Hydrogen Energy 43:18773–18782
Li Q, Zhou Z, Liu S, Zhang X (2016) Ionics 22:1027–1034
Muruganantham R, Sivakumar M, Subadevi R, Ramaprabhu S, Wu N-L (2015) Electron Mater Lett 11:841–852
Fei H, Peng Z, Yang Y, Li L, Raji AR, Samuel EL, Tour JM (2014) Chem Commun (Camb) 50:7117–7119
Tian Z, Liu S, Ye F, Yao S, Zhou Z, Wang S (2014) Appl Surf Sci 305:427–432
Yuan Z, Xue Y, Sun L, Li Y, Mi H, Deng L, Hong W, Ren X, Zhang P (2018) Ferroelectrics 528:1–7
Zhang B, Xu Y, Wang J, Ma X, Hou W, Xue X (2021) Electrochim Acta 368:137575
Zhao N, Li Y, Zhao X, Zhi X, Liang G (2016) J Alloy Compd 683:123–132
Tian H, Zhao X, Zhang J, Li M, Lu H (2018) ACS Appl Energy Materials 1:3497–3504
Fan Q, Lei L, Xu X, Yin G, Sun Y (2014) J Power Sources 257:65–69
Huang X, He X, Jiang C, Tian G (2014) RSC Adv 4:56074–56083
Li Z, Peng Z, Zhang H, Hu T, Hu M, Zhu K, Wang X (2016) Nano Lett 16:795–799
Li Z, Zhu K, Li J, Wang X (2014) CrystEngComm 16:10112–10122
Wang L, He X, Sun W, Wang J, Li Y, Fan S (2012) Nano Lett 12:5632–5636
Ma Z, Fan Y, Shao G, Wang G, Song J, Liu T (2015) ACS Appl Mater Interfaces 7:2937–2943
Wei W, Lv W, Wu M-B, Su F-Y, He Y-B, Li B, Kang F, Yang Q-H (2013) Carbon 57:530–533
Luo W-B, Chou S-L, Zhai Y-C, Liu H-K (2014) J Mater Chem A 2:4927–4931
Zhou X, Wang F, Zhu Y, Liu Z (2011) J Mater Chem 21:3353–3358
Guan Y, Shen J, Wei X, Zhu Q, Zheng X, Zhou S, Xu B (2019) Electrochim Acta 294:148–155
Kucinskis G, Bajars G, Bikova K, Kaprans K, Kleperis J (2019) Russ J Electrochem 55:517–523
Long Y, Shu Y, Ma X, Ye M (2014) Electrochim Acta 117:105–112
Novoselov KS (2011) Angew Chem Int Ed Engl 50:6986–7002
Kucinskis G, Bajars G, Kleperis J (2013) J Power Sources 240:66–79
Yang J, Wang J, Wang D, Li X, Geng D, Liang G, Gauthier M, Li R, Sun X (2012) J Power Sources 208:340–344
Wang J-B, Ren Z, Hou Y, Yan X-L, Liu P-Z, Zhang H, Zhang H-X, Guo J-J (2020) New Carbon Mater 35:193–208
Xu K, Duan X, Li Y, Du Y, Yang P, Chen L, Zeng F (2020) J Exp Nanosci 15:417–426
Coleman JN, Lotya M, O’Neill A, Bergin SD, King PJ, Khan U, Young K, Gaucher A, De S, Smith RJ, Shvets IV, Arora SK, Stanton G, Kim HY, Lee K, Kim GT, Duesberg GS, Hallam T, Boland JJ, Wang JJ, Donegan JF, Grunlan JC, Moriarty G, Shmeliov A, Nicholls RJ, Perkins JM, Grieveson EM, Theuwissen K, McComb DW, Nellist PD, Nicolosi V (2011) Science 331:568–571
Cech O, Klvac O, Benesova P, Maca J, Cudek P, Vanýsek P (2019) J Energy Storage 22:373–377
Ching-Yuan Su A-YL, Xu Y, Chen F-R, Khlobystov AN, Li L-J (2011) ACS Nano 5 2332–2339.
Wang W, Wang Y, Gao Y, Zhao Y (2014) J Supercrit Fluids 85:95–101
Chen J, Duan M, Chen G (2012) J Mater Chem 22:19625–19628
Huang J, Zhao X, Ma C, Cheng Y, Zhang J (2020) ChemPlusChem 85:2482–2486
Liu T, Zhao L, Zhu J, Wang B, Guo C, Wang D (2014) J Mater Chem A 2:2822–2829
Wang F, Wang F, Hong R, Lv X, Zheng Y, Chen H (2020) J Market Res 9:10004–10015
Liu H, Miao C, Meng Y, Xu Q, Zhang X, Tang Z (2014) Electrochim Acta 135:311–318
Longoni G, Panda JK, Gagliani L, Brescia R, Manna L, Bonaccorso F, Pellegrini V (2018) Nano Energy 51:656–667
Kim W, Ryu W, Han D, Lim S, Eom J, Kwon H (2014) ACS Appl Mater Interfaces 6:4731–4736
Wang B, ** F, **e Y, Luo H, Wang F, Ruan T, Wang D, Zhou Y, Dou S (2020) Energy Storage Mater 26:433–442
Ding YH, **e W, Zhang P (2016) Ionics 22:1021–1026
Dutta D, Santhosha AL, Sood AK, Bhattacharyya AJ (2016) RSC Adv 6:89328–89337
Wang B, Liu A, Abdulla WA, Wang D, Zhao XS (2015) Nanoscale 7:8819–8828
Guo X, Fan Q, Yu L, Liang J, Ji W, Peng L, Guo X, Ding W, Chen Y (2013) J Mater Chem A 1:11534–11538
Pham TV, Kim JG, Jung JY, Kim JH, Cho H, Seo TH, Lee H, Kim ND, Kim MJ (2019) Adv Funct Mater 29:1905511
**ng S, Yang J, Muska M, Li H, Yang Q (2021) ACS Appl Mater Interfaces 13:22608–22620
Lee JW, Lim SY, Jeong HM, Hwang TH, Kang JK, Choi JW (2012) Energy Environ Sci 5
Atif R, Inam F (2016) Beilstein J Nanotechnol 7:1174–1196
Zhang Y, Wang W, Li P, Fu Y, Ma X (2012) J Power Sources 210:47–53
Stankovich S, Dikin DA, Piner RD, Kohlhaas KA, Kleinhammes A, Jia Y, Wu Y, Nguyen ST, Ruoff RS (2007) Carbon 45:1558–1565
Mishra R, Singh SK, Gupta H, Srivastava N, Meghnani D, Tiwari RK, Patel A, Tiwari A, Tiwari VK, Singh RK (2021) Appl Surf Sci 535:147695
Wang X, Feng Z, Huang J, Deng W, Li X, Zhang H, Wen Z (2018) Carbon 127:149–157
Wang B, Wang D, Wang Q, Liu T, Guo C, Zhao X (2013) J Mater Chem A 1:135–144
Wang B, Xu B, Liu T, Liu P, Guo C, Wang S, Wang Q, **ong Z, Wang D, Zhao XS (2014) Nanoscale 6:986–995
Choi J, Okimura N, Yamada T, Hirata Y, Ohtake N, Akasaka H (2021) Diamond Relat Mater 116:108384
Geng D, Wu B, Guo Y, Huang L, Xue Y, Chen J, Yu G, Jiang L, Hu W, Liu Y (2012) Proc Natl Acad Sci U S A 109:7992–7996
Tu R, Liang Y, Zhang C, Li J, Zhang S, Yang M, Li Q, Goto T, Zhang L, Shi J, Li H, Ohmori H, Kosinova M, Basu B (2018) Appl Surf Sci 445:204–210
Jiang Y, Feng Y, ** B, Kai S, Mi K, Feng J, Zhang J, **ong S (2016) J Mater Chem A 4:10719–10726
Huang X, Yan X, **a L, Wang P, Wang Q, Zhang X, Zhong B, Zhao H, Wen G (2016) Scripta Mater 120:107–111
Toprakci O, Toprakci HAK, Ji L, Lin Z, Gu R, Zhang X (2012) J Renew Sustain Energy 4:013121
Lei X, Zhang H, Chen Y, Wang W, Ye Y, Zheng C, Deng P, Shi Z (2015) J Alloy Compd 626:280–286
Liu T, Qiu J, Wang B, Wang Y, Wang D, Zhang S (2015) RSC Adv 5:100018–100023
Yang C-C, Jiang J-R, Karuppiah C, Jang J-H, Wu Z-H, Jose R, Lue SJ (2018) J Alloy Compd 765:800–811
Guan Y, Shen J, Wei X, Zhu Q, Zheng X, Zhou S, Xu B (2019) Appl Surf Sci 481:1459–1465
Jiang Y, Zhuang H, Pan D, Jiao Z, Que X, Ling X, Zhong M, Chu Y, Zhao B (2013) J Appl Electrochem 43:611–617
Li X, Jiang YZ, Li XK, Jiang HX, Liu JL, Feng J, Lin SB, Guan X (2016) Rare Met 37:743–749
Yoo JW, Zhang K, Patil V, Lee JT, Jung D-W, Pu LS, Oh W, Yoon W-S, Park JH, Yi G-R (2018) Mater Express 8:316–324
Zhou N, Liu Y, Li J, Uchaker E, Liu S, Huang K, Cao G (2012) J Power Sources 213:100–105
Jiang G, Hu Z, **ong J, Zhu X, Yuan S (2018) J Alloy Compd 767:528–537
Su C, Bu X, Xu L, Liu J, Zhang C (2012) Electrochim Acta 64:190–195
Zhang XY, Lin YH, Hu YY, Yang T (2021) Ionics 27:1881–1886
Fan Q, Zhang Y, Xu Q, Wang J, Lei L, Sun Y, Lund PD (2019) Energy Storage Mater 21:457–463
Chua CK, Pumera M (2014) Chem Soc Rev 43:291–312
Wu Z-S, Ren W, Gao L, Liu B, Jiang C, Cheng H-M (2009) Carbon 47:493–499
Anwar A, Chang T-P, Chen C-T (2022) Carbon Letters 32:1–38
Imae I (2021) Coatings 11:297
Tarcan R, Todor-Boer O, Petrovai I, Leordean C, Astilean S, Botiz I (2020) J Mater Chem C 8:1198–1224
**e X, Zhou Y, Huang K (2019) Front Chem 7:355
Thakur S, Karak N (2015) Carbon 94:224–242
Pruna A, Pullini D, Busquets D (2015) J Mater Sci Technol 31:458–462
Kim S, Park G, Sennu P, Lee S, Choi K, Oh J, Lee Y-S, Park S (2015) RSC Adv 5:86237–86241
Kim H, Kim H, Kim S-W, Park K-Y, Kim J, Jeon S, Kang K (2012) Carbon 50:1966–1971
Zhang J, Yang H, Shen G, Cheng P, Zhang J, Guo S (2010) Chem Commun (Camb) 46:1112–1114
Chengzhou Zhu SG, Fang Y, Dong S (2010) ACS NANO 4 2429–2437
Xu C, Yuan R-S, Wang X (2014) New Carbon Mater 29:61–66
Dhindsa KS, Mandal BP, Bazzi K, Lin MW, Nazri M, Nazri GA, Naik VM, Garg VK, Oliveira AC, Vaishnava P, Naik R, Zhou ZX (2013) Solid State Ionics 253:94–100
Smecellato PC, Davoglio RA, Biaggio SR, Bocchi N, Rocha-Filho RC (2017) Mater Res Bull 86:209–214
Bilecka I, Hintennach A, Djerdj I, Novák P, Niederberger M (2009) J Mater Chem 19:5125–5128
Guo Z, Chen Z (2019) Russ J Electrochem 54:1148–1154
Gao C, Zhou J, Liu G, Wang L (2016) J Mater Sci 52:1590–1602
Wu M, Choi S, Kang Y, Jung H-K (2014) Bull Korean Chem Soc 35:2901–2905
Meng Y, Zhang Z, Han W, Zhang Y, Zhu F, Wang D (2016) Nano 11:1650004
Wang Z, Guo H, Yan P (2014) Ceram Int 40:15801–15806
Liu M, Zhao Y, Gao S, Wang Y, Duan Y, Han X, Dong Q (2015) New J Chem 39:1094–1100
Yu F, Zhang L, Lai L, Zhu M, Guo Y, **a L, Qi P, Wang G, Dai B (2015) Electrochim Acta 151:240–248
Tang J, Zhong X, Li H, Li Y, Pan F, Xu B (2019) J Power Sources 412:677–682
Liu S, Yan P, Li H, Zhang X, Sun W (2020) Front Chem 8:104
Yang J, Wang J, Tang Y, Wang D, Li X, Hu Y, Li R, Liang G, Sham T-K, Sun X (2013) Energy Environ Sci 6:1521
Guo Z, Chen Z (2017) Russ J Appl Chem 89:2072–2075
Zhou L, Hou ZF, Gao B, Frauenheim T (2016) J Mater Chem A 4:13407–13413
Nguyen TH, Yang D, Zhu B, Lin H, Ma T, Jia B (2021) J Mater Chem A 9:7366–7395
Jegal J-P, Kim K-C, Kim MS, Kim K-B (2014) J Mater Chem A 2:9594–9599
Li C, Yuan H, Yang Z (2020) Solid State Ionics 352:115366
Luo G-Y, Gu Y-J, Liu Y, Chen Z-L, Huo Y-L, Wu F-Z, Mai Y, Dai X-Y, Deng Y (2021) Ceram Int 47:11332–11339
Tian Z, Zhou Z, Liu S, Ye F, Yao S (2015) Solid State Ionics 278:186–191
Wang W, Tang M, Yan Z (2020) Ceram Int 46:22999–23005
Wang X, Dong S, Wang H (2018) Ceram Int 44:464–470
Liu J, Du P, Wang Q, Liu D, Liu P (2019) Electrochim Acta 305:175–186
Wang P, Zhang G, Li Z, Sheng W, Zhang Y, Gu J, Zheng X, Cao F (2016) ACS Appl Mater Interfaces 8:26908–26915
Hong J, Seo D-H, Kim S-W, Gwon H, Oh S-T, Kang K (2010) J Mater Chem 20:10179–10186
Vadivel Murugan TMA, Ferreira PJ, Manthiram A (2009) Electrochem Energy Lab Mater Sci Eng Program 48 946–952.
Bie C, Yu H, Cheng B, Ho W, Fan J, Yu J (2021) Adv Mater 33:e2003521
Kumar R, Sahoo S, Joanni E, Singh RK, Maegawa K, Tan WK, Kawamura G, Kar KK, Matsuda A (2020) Mater Today 39:47–65
Oh J, Lee J, Hwang T, Kim JM, Seoung K-D, Piao Y (2017) Electrochim Acta 231:85–93
An C-S, Zhang B, Tang L-B, **ao B, Zheng J-C (2018) Electrochim Acta 283:385–392
Zhu J, Yang D, Yin Z, Yan Q, Zhang H (2014) Small 10:3480–3498
Yu Z, Jiang L (2018) Solid State Ionics 325:12–16
Wang T, Wang LX, Wu DL, **a W, Jia DZ (2015) Sci Rep 5:9591
Li G, Huang B, Pan Z, Su X, Shao Z, An L (2019) Energy Environ Sci 12:2030–2053
Sun Z, Fang S, Hu YH (2020) Chem Rev 120:10336–10453
Park KH, Kang DW, Park J-W, Choi J-H, Hong S-J, Song SH, Lee S-M, Moon J, Kim BG (2021) J Mater Chem A 9:1822–1834
Chananate Uthaisar VB, Peralta JE (2009) J Appl Phys 106:113715
Li S, Qiu J, Lai C, Ling M, Zhao H, Zhang S (2015) Nano Energy 12:224–230
Zhao J, Jiang Y, Fan H, Liu M, Zhuo O, Wang X, Wu Q, Yang L, Ma Y, Hu Z (2017) Adv Mater 29:1604569
Zhang L, DeArmond D, Alvarez NT, Malik R, Oslin N, McConnell C, Adusei PK, Hsieh YY, Shanov V (2017) Small 13:1603114
Zhang H-X, Ko E-B, Park J-H, Moon Y-K, Zhang X-Q, Yoon K-B (2016) Compos Sci Technol 136:61–66
Zhao B, Wang Z, Chen F, Yang Y, Gao Y, Chen L, Jiao Z, Cheng L, Jiang Y (2017) ACS Appl Mater Interfaces 9:1407–1415
Sheng L, Wei T, Liang Y, Jiang L, Qu L, Fan Z (2017) Carbon 120:17–22
Zhan TT, Jiang WF, Li C, Luo XD, Lin G, Li YW, **ao SH (2017) Electrochim Acta 246:322–328
Yi X, Zhang F, Zhang B, Yu W-J, Dai Q, Hu S, He W, Tong H, Zheng J, Liao J (2018) Ceram Int 44:18181–18188
Tang C, Wang H-F, Huang J-Q, Qian W, Wei F, Qiao S-Z, Zhang Q (2019) Electrochem Energy Rev 2:332–371
Zhou Y, Tian X (2019) Mater Res Express 6:095518
Chang C, Yin S, Xu J (2020) RSC Adv 10:13662–13668
Mehta AN, Mu W, Murugesan M, Jiao Y, Fu Y, Hyldgaard P, Liu J (2018) J Mater Sci: Mater Electron 29:5239–5252
Wang B, Al Abdulla W, Wang D, Zhao XS (2015) Energy Environ Sci 8 869–875.
Ma H, **ang J, **a X (2018) Mater Res Bull 101:205–209
Du G, ** Y, Tian X, Zhu Y, Zhou Y, Deng C, Zhu H, Natarajan A (2019) Ceram Int 45:18247–18254
Lv Q, Song R, Wang B, Zhu H, Xu J, Ruan T, Wang D (2019) Ionics 26:13–22
Zhang Q, Zhang F, Medarametla SP, Li H, Zhou C, Lin D (2016) Small 12:1702–1708
Fu Y, Wei Q, Zhang G, Zhong Y, Moghimian N, Tong X, Sun S (2019) Materials (Basel) 12:842
Yuan G, Bai J, Doan TNL, Chen P (2015) Mater Lett 158:248–251
Sanchez JS, Xu J, **a Z, Sun J, Asp LE, Palermo V (2021) Compos Sci Technol 208:108768
Hu Y, Zhang M, Gong F, Qin X, Jia Q, Meng E (2019) Mater Lett 241:72–75
Chen M, Kou K, Tu M, Hu J, Du X, Yang B (2017) Solid State Ionics 310:95–99
Xu X, Hao Z, Wang H, **e Y, Liu J, Yan H (2018) J Mater Sci: Mater Electron 29:16630–16638
Zhou Y, Lu J, Deng C, Zhu H, Chen GZ, Zhang S, Tian X (2016) J Mater Chem A 4:12065–12072
Tian X, Chen Z, Zhu Y, Huang X, Wu G, Zhou Y (2019) J Alloys Compd 810:151913
Dong J, Lin Y, Zong H, Yang H, Wang L, Dai Z (2019) Inorg Chem 58:2031–2041
Du Y, Tang Y, Chang C (2017) J Phys Chem Solids 107:36–41
Acknowledgements
This work is supported by the National Nature Science Foundation of China (No. 51562006) and the Guangxi Distinguished Experts Special Fund (No. 2019B06).
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Geng, J., Zhang, S., Hu, X. et al. A review of graphene-decorated LiFePO4 cathode materials for lithium-ion batteries. Ionics 28, 4899–4922 (2022). https://doi.org/10.1007/s11581-022-04679-0
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DOI: https://doi.org/10.1007/s11581-022-04679-0