Electrocatalytic performances of heteroatom-containing functionalities in N-doped reduced graphene oxides

Yeonjun Shim; Jongwoo Han; Young Jin Sa; Seungjun Lee; Kwangrok Choi; Junghoon Oh; Sujin Kim; Sang Hoon Joo; Sungjin Park

Journal of Industrial and Engineering Chemistry, Vol.42, 149-156, October, 2016

DOI10.1016/j.jiec.2016.07.044 Export Citation

Electrocatalytic performances of heteroatom-containing functionalities in N-doped reduced graphene oxides

Yeonjun Shim¹, Jongwoo Han¹, Young Jin Sa², Seungjun Lee¹, Kwangrok Choi¹, Junghoon Oh¹, Sujin Kim¹, Sang Hoon Joo^{2, 3}, and Sungjin Park^{1, †}

¹Department of Chemistry and Chemical Engineering, Inha University, 100 Inha-ro, Nam-gu, Incheon 22212, Republic of Korea
²Department of Chemistry, Ulsan National Institute of Science and Technology (UNIST), 50 UNIST-gil, Ulsan 44919, Republic of Korea
³School of Energy and Chemical Engineering, Ulsan National Institute of Science and Technology (UNIST), 50 UNIST-gil, Ulsan 44919, Republic of Korea

E-mail:

N-doped graphene-based materials show excellent promise as metal-free electrocatalysts for the oxygen reduction reaction (ORR). Because the N-doped graphene-based materials contain significant amounts of N and O atoms, it is important to understand the correlation between the chemical environments of these atoms and the catalytic performance of the materials. In this work, we prepared ammonia-reduced graphene oxide (A-rG-O) using a solution process and a set of A-rG-O samples thermally treated at high temperatures (300-700 °C). The chemical structure and ORR performances of A-rG-O materials were investigated.

Keywords:N-doped graphenes;Chemical structures;Electrocatalysts;Oxygen reduction reactions

[References]

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Park S, Lee K, Bozoklu G, Cai W, Nguyen ST, Ruoff RS, ACS Nano, 2, 572 (2008)
Long DH, Li W, Ling LC, Miyawaki J, Mochida I, Yoon SH, Langmuir, 26(20), 16096 (2010)
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Bhargava G, Ramanarayanan T, Bernasek S, Langmuir, 26, 215 (2009)
Dai Q, Zhang J, Ma M, Appl. Surf. Sci., 72, 67 (1993)
Wang D, Su D, Energy Environ. Sci., 7, 576 (2014)
Fazio G, Ferrighi L, Di Valentin C, J. Catal., 318, 203 (2014)
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Lin TQ, Chen IW, Liu FX, Yang CY, Bi H, Xu FF, Huang FQ, Science, 350(6267), 1508 (2015)

[Referenced By]

[1] Novoselov K, Geim AK, Morozov S, Jiang D, Katsnelson M, Grigorieva I, Dubonos S, Firsov A, Nature, 438, 197 (2005)

[2] Park S, Ruoff RS, Nat. Nanotechnol., 4, 219 (2009)

[3] Berger C, Song ZM, Li TB, Li XB, Ogbazghi AY, Feng R, Dai ZT, Marchenkov AN, Conrad EH, First PN, de Heer WA, J. Phys. Chem. B, 108(52), 19912 (2004)

[4] Novoselov KS, Geim AK, Morozov SV, Jiang D, Zhang Y, Dubonos SV, Grigorieva IV, Firsov AA, Science, 306, 666 (2004)

[5] Lin Z, Liu Y, Yao Y, Hildreth OJ, Li Z, Moon K, Wong C, J. Phys. Chem. C, 115, 7120 (2011)

[6] Kim TY, Lee HW, Stoller M, Dreyer DR, Bielawski CW, Ruoff RS, Suh KS, ACS Nano, 5, 436 (2010)

[7] Liu MM, Zhang RZ, Chen W, Chem. Rev., 114(10), 5117 (2014)

[8] Han J, Cheon JY, Joo SH, Park S, Solid State Sci., 33, 1 (2014)

[9] Zhang LL, Zhao X, Chem. Soc. Rev., 38, 2520 (2009)

[10] Zhu YW, Murali S, Cai WW, Li XS, Suk JW, Potts JR, Ruoff RS, Adv. Mater., 22(35), 3906 (2010)

[11] Krishnamoorthy K, Kim SJ, J. Ind. Eng. Chem., 32, 39 (2015)

[12] Liu WW, Chai SP, Mohamedc AR, Hashim U, J. Ind. Eng. Chem., 20(4), 1171 (2014)

[13] Qu L, Liu Y, Baek J, Dai L, ACS Nano, 4, 1321 (2010)

[14] Zheng B, Wang J, Wang F, Xia X, Electrochem. Commun., 28, 24 (2013)

[15] Wei D, Liu Y, Wang Y, Zhang H, Huang L, Yu G, Nano Lett., 9, 1752 (2009)

[16] Liu J, Zhang T, Wang Z, Dawson G, Chen W, J. Mater. Chem., 21, 14398 (2011)

[17] Bhunia P, Hwang E, Yoon Y, Lee E, Seo S, Lee H, Chem.-Eur. J., 18, 12207 (2012)

[18] Zhang L, Liang X, Song W, Wu Z, Phys. Chem. Chem. Phys., 12, 12055 (2010)

[19] Lai L, Potts JR, Zhan D, Wang L, Poh CK, Tang C, Gong H, Shen Z, Lin J, Ruoff RS, Energy Environ. Sci., 5, 7936 (2012)

[20] Geng D, Chen Y, Chen Y, Li Y, Li R, Sun X, Ye S, Knights S, Energy Environ. Sci., 4, 760 (2011)

[21] Xing T, Zheng Y, Li LH, Cowie BC, Gunzelmann D, Qiao SZ, Huang S, Chen Y, ACS Nano, 8, 6856 (2014)

[22] Park S, Hu Y, Hwang JO, Lee E, Casabianca LB, Cai W, Potts JR, Ha H, Chen S, Oh J, Nat. Commun., 3, 638 (2012)

[23] Dobelle WH, Beer M, J. Cell Biol., 39, 733 (1968)

[24] Stankovich S, Dikin DA, Piner RD, Kohlhaas KA, Kleinhammes A, Jia Y, Wu Y, Nguyen ST, Ruoff RS, Carbon, 45, 1558 (2007)

[25] Lee S, Potts JR, Oh J, Han J, Park G, Park S, Solid State Sci., 27, 1 (2014)

[26] Hassan FM, Chabot V, Li J, Kim BK, Ricardez- Sandoval L, Yu A, J. Mater. Chem. A, 1, 2904 (2013)

[27] Sheng Z, Shao L, Chen J, Bao W, Wang F, Xia X, ACS Nano, 5, 4350 (2011)

[28] Fu X, Jin J, Liu Y, Wei Z, Pan F, Zhang J, ACS Appl. Mater. Inter., 6, 3930 (2014)

[29] Han J, Sa YJ, Shim Y, Choi M, Park N, Joo SH, Park S, Angew. Chem.-Int. Edit., 54, 12622 (2015)

[30] Zhang H, Kuila T, Kim NH, Yu DS, Lee JH, Carbon, 69, 66 (2014)

[31] Shao Y, Zhang S, Engelhard MH, Li G, Shao G, Wang Y, Liu J, Aksay IA, Lin Y, J. Mater. Chem., 20, 7491 (2010)

[32] Kim YK, Park H, Energy Environ. Sci., 4, 685 (2011)

[33] Zhang L, Xia Z, J. Phys. Chem. C, 115, 11170 (2011)

[34] Park S, An J, Piner RD, Jung I, Yang D, Velamakanni A, Nguyen ST, Ruoff RS, Chem. Mater., 20, 6592 (2008)

[35] Liu R, Wu D, Feng X, Mullen K, Angew. Chem.-Int. Edit., 122, 2619 (2010)

[36] Gao W, Alemany LB, Ci L, Ajayan PM, Nat. Chem., 1, 403 (2009)

[37] Cai W, Piner RD, Stadermann FJ, Park S, Shaibat MA, Ishii Y, Yang D, Velamakanni A, An SJ, Stoller M, An J, Chen D, Ruoff RS, Science, 321, 1815 (2008)

[38] Park G, Park SK, Han J, Ko TY, Lee S, Oh J, Ryu S, Park HS, Park S, RSC Adv., 4, 36377 (2014)

[39] LaTempa TJ, Feng X, Paulose M, Grimes CA, J. Phys. Chem. C, 113, 16293 (2009)

[40] Han J, Lee S, Zhang LL, Oh J, Potts JR, Piner RD, Ruoff RS, Park S, Solid State Sci., 25, 1 (2013)

[41] Dreyer DR, Park S, Bielawski CW, Ruoff RS, Chem. Soc. Rev., 39, 228 (2010)

[42] Park S, Lee K, Bozoklu G, Cai W, Nguyen ST, Ruoff RS, ACS Nano, 2, 572 (2008)

[43] Long DH, Li W, Ling LC, Miyawaki J, Mochida I, Yoon SH, Langmuir, 26(20), 16096 (2010)

[44] Solum MS, Altmann KL, Strohmeier M, Berges DA, Zhang YL, Facelli JC, Pugmire RJ, Grant DM, J. Am. Chem. Soc., 119(41), 9804 (1997)

[45] Baccile N, Laurent G, Coelho C, Babonneau F, Zhao L, Titirici M, J. Phys. Chem. C, 115, 8976 (2011)

[46] Parvez K, Yang S, Hernandez Y, Winter A, Turchanin A, Feng X, Mullen K, ACS Nano, 6, 9541 (2012)

[47] Wang H, Maiyalagan T, Wang X, ACS Catal., 2, 781 (2012)

[48] Appavu B, Kannan K, Thiripuranthagan S, J. Ind. Eng. Chem., 36, 184 (2016)

[49] Bhargava G, Ramanarayanan T, Bernasek S, Langmuir, 26, 215 (2009)

[50] Dai Q, Zhang J, Ma M, Appl. Surf. Sci., 72, 67 (1993)

[51] Wang D, Su D, Energy Environ. Sci., 7, 576 (2014)

[52] Fazio G, Ferrighi L, Di Valentin C, J. Catal., 318, 203 (2014)

[53] Cheon JY, Kim JH, Kim JH, Goddeti KC, Park JY, Joo SH, J. Am. Chem. Soc., 136(25), 8875 (2014)

[54] Unni SM, Devulapally S, Karjule N, Kurungot S, J. Mater. Chem., 22, 23506 (2012)

[55] Ding W, Wei Z, Chen S, Qi X, Yang T, Hu J, Wang D, Wan L, Alvi SF, Li L, Angew. Chem.-Int. Edit., 125, 11971 (2013)

[56] Deng D, Yu L, Pan X, Wang S, Chen X, Hu P, Sun L, Bao X, Chem. Commun., 47, 10016 (2011)

[57] Yeager E, J. Mol. Catal. A-Chem., 38, 5 (1986)

[58] Wiggins-Camacho JD, Stevenson KJ, J. Phys. Chem. C, 113, 19082 (2009)

[59] Lin TQ, Chen IW, Liu FX, Yang CY, Bi H, Xu FF, Huang FQ, Science, 350(6267), 1508 (2015)