Eggshell membrane hydrolysate as a multi-functional agent for synthesis of functionalized graphene analogue and its catalytic nanocomposites

Junmo Jeon; Minsik Choi; Seul Bi Kim; Tae Hoon Seo; Bon-Cheol Ku; Seongwoo Ryu; Ji Hun Park; Young-Kwan Kim

Journal of Industrial and Engineering Chemistry, Vol.102, 233-240, October, 2021

DOI10.1016/j.jiec.2021.07.010 Export Citation

Eggshell membrane hydrolysate as a multi-functional agent for synthesis of functionalized graphene analogue and its catalytic nanocomposites

Junmo Jeon¹, Minsik Choi^{2, 3}, Seul Bi Kim⁴, Tae Hoon Seo⁵, Bon-Cheol Ku², Seongwoo Ryu³, Ji Hun Park^{4, †}, and Young-Kwan Kim^{1, †}

¹Department of Chemistry, Dongguk University-Seoul, 30 Pildong-ro, Jung-gu, Seoul 04620, South Korea
²Carbon Composite Research Center, Korea Institute of Science and Technology, 92 Chudong-ro, Bongdong-eup, Wanju-gun, Jeonbuk 55324, South Korea
³Department of Materials Science and Engineering, University of Suwon, 17 Wauan-gil, Bongdam-Eup, Hwaseong-si, Gyeonggi-do 18323, Republic of Korea
⁴Department of Science Education, Ewha Womans University, Seoul 03760, Korea
⁵Smart Energy and Nano Photonics R&D Group, Korea Institute of Industrial Technology, 6, Cheomdan-gwagiro 208-gil, Buk-gu, Gwangju 61012, South Korea

E-mail:,

This paper demonstrates eggshell membrane protein hydrolysate (ESMH), a critical food waste worldwide, can be harnessed as a multifunctional agent for eco-friendly reduction and functionalization of graphene oxide (GO) based on its diverse and abundant functional groups. The resulting GO reduced and functionalized with ESMH (ESMH-RGO) exhibits an aqueous dispersibility and applicability as a 2-dimensional support for synthesis of catalytic Au nanoparticles (Au NPs) with a high density. The AuNPs synthesized on ESMH-RGO (AuNPs@ESMH-RGO) presents a high catalytic activity for conversion of environmental pollutant (4-nitrophenol) to an industrially useful raw material (4-aminophenol). Those results clearly indicate that ESMH has a strong potential in environmental and materials chemistry.

Keywords:Eggshell membrane;Graphene oxide;Nanoparticles;Nanocomposites;Catalyst

[References]

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Kim S, Youn W, Choi IS, Park JH, Langmuir, 35(38), 12562 (2019)
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Han SY, Lee H, Nguyen DT, Yun G, Kim S, Park JH, Choi IS, Adv. NanoBiomed. Res., 1, 200003 (2021)
Han X, Wang W, Zuo K, Chen L, Yuan L, Liang J, Li Q, Ajayan PM, Zhao Y, Lou J, Nano Energy, 60, 567 (2019)
Wu B, Zhang G, Shuang S, Choi MMF, Talanta, 64, 546 (2004)
Li Z, Zhang L, Amirkhiz BS, Tan X, Xu Z, Wang H, Olsen BC, Holt CMB, Mitlin D, Adv. Eng. Mater., 2, 431 (2012)
Chung SH, Manthiram A, Adv. Mater., 26(9), 1360 (2014)
Zhang Y, Wen G, Zhou Y, Shuang S, Dong C, Choi MMF, Biosens. Bioelectron., 22, 1791 (2007)
Liu M, Luo G, Wang Y, Xu R, Wang Y, He W, Tan J, Xing M, Wu J, Sci. Rep., 7, 436 (2017)
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Compton OC, Nguyen ST, Small, 6, 711 (2010)
Huang X, Qi X, Boey F, Zhang H, Chem. Soc. Rev., 41, 666 (2012)
Stankovich S, Dikin DA, Piner RD, Kohlhaas KA, Kleinhammes A, Jia Y, Wu Y, Nguyen SBT, Ruoff RS, Carbon, 45, 1558 (2007)
Pei S, Cheng HM, Carbon, 50, 3210 (2012)
Chen D, Li L, Guo L, Nanotechnology, 22 (2011)
Zhang J, Yang H, Shen G, Cheng P, Zhang J, Guo S, Chem. Commun., 46, 1112 (2010)
Hummers WS, Offeman RE, J. Am. Chem. Soc., 80, 1339 (1958)
Li Z, Cai L, Song M, Shen Y, Wang X, Li J, Wang J, Wang P, Tian L, Electrochim. Acta, 339 (2020)
Tian L, Li Z, Wang P, Zhai X, Wang X, Li T, J. Energy Chem., 55, 279 (2021)
Zhu C, Guo S, Fang Y, Dong S, ACS Nano, 4, 2429 (2010)
Tran DNH, Kabiri S, Losic D, Carbon, 76, 193 (2014)
Daraei H, Mittal A, Mittal J, Kamali H, Desalin. Water Treat., 52, 1307 (2014)
Hong YL, Ryu S, Jeong HS, Kim YK, Appl. Surf. Sci., 480, 514 (2019)
Kim YK, Min DH, Langmuir, 25(19), 11302 (2009)
Ferrari AC, Solid State Commun., 143, 47 (2007)
Glisic BD, Rychlewska U, Djuran MI, Dalt. Trans., 41, 6887 (2012)
Goncalves G, Marques PAAP, Granadeiro CM, Nogueira HIS, Singh MK, Gracio J, Chem. Mater., 21, 4796 (2009)
Kim YK, Na HK, Min DH, Langmuir, 26(16), 13065 (2010)
Ding Q, Kang Z, He X, Wang M, Lin M, Lin H, Yang DP, Microchim. Acta, 186, 453 (2019)
Kim YJ, Park J, Jeong HS, Park M, Baik S, Lee DS, Rho H, Kim H, Lee JH, Kim SM, Kim YK, Nanoscale, 11, 5295 (2019)
Chen M, Kang H, Gong Y, Guo J, Zhang H, Liu R, A.C.S. Appl, Mater. Interfaces, 7, 21717 (2015)

[Referenced By]

[1] He XS, Yang DP, Zhang XY, Liu MH, Rang ZW, Lin CF, Jia NQ, Luque R, Chem. Eng. J., 369, 621 (2019)

[2] Kim S, Youn W, Choi IS, Park JH, Langmuir, 35(38), 12562 (2019)

[3] Wong M, Hendrix MJC, Mark KVD, Little C, Stern R, Dev. Biol, 104, 28 (1984)

[4] Yang D, Qi LM, Ma JM, Adv. Mater., 14(21), 1543 (2002)

[5] Han SY, Lee H, Nguyen DT, Yun G, Kim S, Park JH, Choi IS, Adv. NanoBiomed. Res., 1, 200003 (2021)

[6] Han X, Wang W, Zuo K, Chen L, Yuan L, Liang J, Li Q, Ajayan PM, Zhao Y, Lou J, Nano Energy, 60, 567 (2019)

[7] Wu B, Zhang G, Shuang S, Choi MMF, Talanta, 64, 546 (2004)

[8] Li Z, Zhang L, Amirkhiz BS, Tan X, Xu Z, Wang H, Olsen BC, Holt CMB, Mitlin D, Adv. Eng. Mater., 2, 431 (2012)

[9] Chung SH, Manthiram A, Adv. Mater., 26(9), 1360 (2014)

[10] Zhang Y, Wen G, Zhou Y, Shuang S, Dong C, Choi MMF, Biosens. Bioelectron., 22, 1791 (2007)

[11] Liu M, Luo G, Wang Y, Xu R, Wang Y, He W, Tan J, Xing M, Wu J, Sci. Rep., 7, 436 (2017)

[12] Wang X, Li Q, Yuan Y, Mei B, Huang R, Tian Y, Sun J, Cao C, Lu G, Liang G, Org. Biomol. Chem., 10, 8082 (2012)

[13] Kodali VK, Gannon SA, Paramasivam S, Raje S, Polenova T, Thorpe C, PLoS One, 6, 18187 (2011)

[14] Swatkoski S, Russell SC, Edwards N, Fenselau C, Anal. Chem., 78, 181 (2006)

[15] Ovissipour M, Safari R, Motamedzadegan A, Shabanpour B, Food Bioprocess Technol., 5, 460 (2012)

[16] Orsini S, Yadav A, Dilillo M, McDonnell LA, Bonaduce I, Anal. Chem., 90, 6403 (2018)

[17] Jain S, Anal AK, LWT . Food Sci. Technol., 69, 295 (2016)

[18] Qi X, Pu KY, Li H, Zhou X, Wu S, Fan QL, Liu B, Boey F, Huang W, Zhang H, Angew. Chem.-Int. Edit., 49, 9426 (2010)

[19] Kim YK, Kim MH, Min DH, Chem. Commun., 47, 3195 (2011)

[20] Compton OC, Nguyen ST, Small, 6, 711 (2010)

[21] Huang X, Qi X, Boey F, Zhang H, Chem. Soc. Rev., 41, 666 (2012)

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

[23] Pei S, Cheng HM, Carbon, 50, 3210 (2012)

[24] Chen D, Li L, Guo L, Nanotechnology, 22 (2011)

[25] Zhang J, Yang H, Shen G, Cheng P, Zhang J, Guo S, Chem. Commun., 46, 1112 (2010)

[26] Hummers WS, Offeman RE, J. Am. Chem. Soc., 80, 1339 (1958)

[27] Li Z, Cai L, Song M, Shen Y, Wang X, Li J, Wang J, Wang P, Tian L, Electrochim. Acta, 339 (2020)

[28] Tian L, Li Z, Wang P, Zhai X, Wang X, Li T, J. Energy Chem., 55, 279 (2021)

[29] Zhu C, Guo S, Fang Y, Dong S, ACS Nano, 4, 2429 (2010)

[30] Tran DNH, Kabiri S, Losic D, Carbon, 76, 193 (2014)

[31] Daraei H, Mittal A, Mittal J, Kamali H, Desalin. Water Treat., 52, 1307 (2014)

[32] Hong YL, Ryu S, Jeong HS, Kim YK, Appl. Surf. Sci., 480, 514 (2019)

[33] Kim YK, Min DH, Langmuir, 25(19), 11302 (2009)

[34] Ferrari AC, Solid State Commun., 143, 47 (2007)

[35] Glisic BD, Rychlewska U, Djuran MI, Dalt. Trans., 41, 6887 (2012)

[36] Goncalves G, Marques PAAP, Granadeiro CM, Nogueira HIS, Singh MK, Gracio J, Chem. Mater., 21, 4796 (2009)

[37] Kim YK, Na HK, Min DH, Langmuir, 26(16), 13065 (2010)

[38] Ding Q, Kang Z, He X, Wang M, Lin M, Lin H, Yang DP, Microchim. Acta, 186, 453 (2019)

[39] Kim YJ, Park J, Jeong HS, Park M, Baik S, Lee DS, Rho H, Kim H, Lee JH, Kim SM, Kim YK, Nanoscale, 11, 5295 (2019)

[40] Chen M, Kang H, Gong Y, Guo J, Zhang H, Liu R, A.C.S. Appl, Mater. Interfaces, 7, 21717 (2015)