LiuM, ZhangR, ChenW. Graphene-supported nanoelectrocatalysts for fuel cells: Synthesis, properties, and applications [J]. Chem Rev, 2014, 114: 5117-5160

LongG, LiX, WanK, LiangZ, PiaoJ, TsiakarasP. Pt/CN-doped electrocatalysts: Superior electrocatalytic activity for methanol oxidation reaction and mechanistic insight into interfacial enhancement [J]. Appl Catal B: Environ, 2017, 203: 541-548

KimD H, ShinD Y, LeeY G, AnG H, HanJ H, AhnH J, ChoiB J. Effects of SnO₂ layer coated on carbon nanofiber for the methanol oxidation reaction [J]. Ceram Int, 2018, 44: 19554-19559

WangL, TianJ, LiJ, ZengX, PengZ, HuangX, TangY, WangH. Red-blood-cell-like nitrogen-doped porous carbon as an efficient metal-free catalyst for oxygen reduction reaction [J]. J Cent South Univ, 2019, 26: 1459-1468

ChenT, HuangP, LiaoY, LiuY, TehT, LinT. Shell thickness effects on reconfiguration of NiO_core-Pt_shell anodic catalysts in a high current density direct methanol fuel cell [J]. RSC Adv, 2016, 6: 72607-72615

XiaZ, XuX, ZhangX, LiH, WangS, SunG. Anodic engineering towards high-performance direct methanol fuel cells with non-precious-metal cathode catalysts [J]. J Mater Chem A, 2020, 8: 1113-1119

NanL, YueW, JiangY. Fabrication of graphene-porous carbon-Pt nanocomposites with high electrocatalytic activity and durability for methanol oxidation [J]. J Mater Chem A, 2015, 3: 22170-22175

ZhangY, GaoF, SongP, WangJ, ShiraishiY, DuY. Glycine-assisted fabrication of N-Doped graphene-supported uniform multipetal PtAg nanoflowers for enhanced ethanol and ethylene glycol oxidation [J]. ACS Sustainable Chem Eng, 2019, 7: 3176-3184

QinY, ChaoL, YuanJ, LiuY, ChuF, KongY, TaoY, LiuM. Ultrafine Pt nanoparticle-decorated robust 3D N-doped porous graphene as an enhanced electrocatalyst for methanol oxidation [J]. Chem Commun, 2016, 52: 382-385

HeY, LiuY. Direct fabrication of highly porous graphene/TiO₂ composite nanofibers by electrospinning for photocatalytic application [J]. J Cent South Univ, 2018, 25: 2182-2189

ZhuC, WangP, WangL, HanL, DongS. Facile synthesis of two-dimensional graphene/SnO₂/Pt ternary hybrid nanomaterials and their catalytic properties [J]. Nanoscale, 2011, 3: 4376-4382

GaoL, YueW, TaoS, FanL. Novel strategy for preparation of Graphene-Pd, Pt composite, and its enhanced electrocatalytic activity for alcohol oxidation [J]. Langmuir, 2013, 29: 957-964

QuY, GaoY, WangL, RaoJ, YinG. Mild synthesis of Pt/SnO2/graphene nanocomposites with remarkably enhanced ethanol electro-oxidation activity and durability [J]. Chem Eur J, 2016, 22: 193-198

WeiW, WangG, YangS, FengX, MullenK. Efficient coupling of nanoparticles to electrochemically exfoliated graphene [J]. J Am Chem Soc, 2015, 137: 5576-5581

ChenC, YangS, ChuangM, WoonW, SuC. Towards the continuous production of high crystallinity graphene via electrochemical exfoliation with molecular in situ encapsulation [J]. Nanoscale, 2015, 7: 15362-15373

YangS, BrullerS, WuZ, LiuZ, ParvezK, DongR, RichardF, SamoriP, FengX, MullenK. Organic radical-assisted electrochemical exfoliation for the scalable production of high-quality graphene [J]. J Am Chem Soc, 2015, 137: 13927-13932

YangS, LoheM R, MullenK, FengX. New-generation graphene from electrochemical approaches: Production and applications [J]. Adv Mater, 2016, 28: 6213-6221

XuZ, YueW, LinR, ChiangC, ZhouW. Direct growth of SnO2 nanocrystallites on electrochemically exfoliated graphene for lithium storage [J]. J Energy Storage, 2019, 21: 647-656

XuZ, ZhangP, ChenJ, YueW, ZhouW. Growth and growth mechanism of oxide nanocrystals on electrochemically exfoliated graphene for lithium storage [J]. Energy Storage Mater, 2019, 18: 174-181

NanL, FanZ, YueW, DongQ, ZhuL, YangL, FanL. Graphene-based porous carbon-Pd/SnO₂ nanocomposites with enhanced electrocatalytic activity and durability for methanol oxidation [J]. J Mater Chem A, 2016, 4: 8898-8904

ZhangJ, LiuX, GuoX, WuS, WangS. A general approach to fabricate diverse noble-metal (Au, Pt, Ag, Pt/Au)/Fe₂O₃ hybrid nanomaterials [J]. Chem Eur J, 2010, 16: 8108-9700

YangS, RicciardulliA G, LiuS, DongR, LoheM R, BeckerA, SquillaciM A, SamoriP, MullenK, FengX. Ultrafast delamination of graphite into high-quality graphene using alternating currents [J]. Angew Chem Int Ed, 2017, 56: 6669-6675

TurgutH, TianZ R, YuF, ZhouW. Multivalent cation cross-linking suppresses highly energetic graphene oxide’s flammability [J]. J Phys Chem C, 2017, 121: 5829-5835

ZhaoP, YueW, YuanX, BaoH. Exceptional lithium anodic performance of Pd-doped graphene-based SnO2 nanocomposite [J]. Electrochim Acta, 2017, 225: 322-329

LiZ, XuS, XieY, WangY, LinS. Promotional effects of trace Bi on its highly catalytic activity for methanol oxidation of hollow Pt/graphene catalyst [J]. Electrochim Acta, 2018, 264: 53-60

ChenK, ZhangF, SunJ, LiZ, ZhangL, BachmatiukA, ZouZ, ChenZ, ZhangL, RummeliM H, LiuZ. Growth of defect-engineered graphene on manganese oxides for Li-ion storage [J]. Energy Storage Mater, 2018, 12: 110-118

ParvezK, WuZ, LiR, LiuX, GrafR, FengX, MullenK. Exfoliation of graphite into graphene in aqueous solutions of inorganic salts [J]. J Am Chem Soc, 2014, 136: 6083-6091

ChuY, ZhangN, YangJ, WangH, DaiZ, WangL, GaoJ, TanX. Designed synthesis of thin CeO₂ nanowires-supported Pt electrocatalysts with pore-interconnected structure and its high catalytic activity for methanol oxidation [J]. J Mater Sci, 2018, 53: 2087-2101

FengY, BiL, LiuZ, KongD, YuZ. Significantly enhanced electrocatalytic activity for methanol electro-oxidation on Ag oxide-promoted PtAg/C catalysts in alkaline electrolyte [J]. J Catal, 2012, 290: 18-25

YangP, YuanX, HuH, LiuY, ZhengH, YangD, ChenL, CaoM, XuY, MinY, LiY, ZhangQ. Solvothermal synthesis of alloyed ptni colloidal nanocrystal clusters (CNCs) with enhanced catalytic activity for methanol oxidation [J]. Adv Funct Mater, 2018, 28: 1704774

QianW, HaoR, ZhouJ, EastmanM, ManhatB A, SunQ, GoforthA M, JiaoJ. Exfoliated graphene-supported Pt and Pt-based alloys as electrocatalysts for direct methanol fuel cells [J]. Carbon, 2013, 52595-604

NanL, YueW. Exceptional electrocatalytic activity and selectivity of platinum@Nitrogen-doped mesoporous carbon nanospheres for alcohol oxidation [J]. ACS Appl Mater Interfaces, 2018, 10: 26213-26221

DuD, DuY, YueW, YangX. Lithium storage performance of {010}-faceted and [111]-faceted anatase TiO2 nanocrystals [J]. J Cent South Univ, 2019, 26: 1530-1539

WuS, LiuJ, LiangD, SunH, YeY, TianZ, LiangC. Photo-excited in situ loading of Pt clusters onto rGO immobilized SnO₂ with excellent catalytic performance toward methanol oxidation [J]. Nano Energy, 2016, 26: 699-707

FengH, LiuY, LiJ. Highly reduced graphene oxide supported Pt nanocomposites as highly efficient catalysts for methanol oxidation [J]. Chem Commun, 2015, 51: 2418-2420

WangM, SongX, YangQ, HuaH, DaiS, HuC, WeiD. Pt nanoparticles supported on graphene three-dimensional network structure for effective methanol and ethanol oxidation [J]. J Power Sources, 2015, 273: 624-630

ZhaoJ, YuH, LiuZ, JiM, ZhangL, SunG. Supercritical deposition route of preparing Pt/Graphene composites and their catalytic performance toward methanol electrooxidation [J]. J Phys Chem C, 2014, 118: 1182-1190

WuS, LiuJ, TianZ, CaiY, YeY, YuanQ, LiangC. Highly dispersed ultrafine pt nanoparticles on reduced graphene oxide nanosheets: in situ sacrificial template synthesis and superior electrocatalytic performance for methanol oxidation [J]. ACS Appl Mater Interfaces, 2015, 7: 22935-22940

ZhouY, ChenJ, WangF, ShengZ, XiaX. A facile approach to the synthesis of highly electroactive Ptnanoparticles on graphene as an anode catalyst for direct methanolfuelcells [J]. Chem Commun, 2010, 46: 5951-5953

LiangQ, ZhangL, CaiM, LiY, JiangK, ZhangX, ShenP. Preparation and charaterization of Pt/functionalized graphene and its electrocatalysis for methanol oxidation [J]. Electrochim Acta, 2013, 111: 275-283

ChoiS, SeoM, KimH, KimW. Synthesis of surface-functionalized graphene nanosheets with high Pt-loadings and their applications to methanol electrooxidation [J]. Carbon, 2011, 49: 904-909