Graphene oxide template-confined fabrication of hierarchical porous carbons derived from lignin for ultrahigh-efficiency and fast removal of ciprofloxacin

Wenna Ge; Zhiping Zhou; Peng Zhang; Qingfang Zhang; Zhen Cao; Ruilong Zhang; Yongsheng Yan; Jiangdong Dai

Journal of Industrial and Engineering Chemistry, Vol.66, 456-467, October, 2018

DOI10.1016/j.jiec.2018.06.013 Export Citation

Graphene oxide template-confined fabrication of hierarchical porous carbons derived from lignin for ultrahigh-efficiency and fast removal of ciprofloxacin

Wenna Ge, Zhiping Zhou^†, Peng Zhang, Qingfang Zhang, Zhen Cao, Ruilong Zhang, Yongsheng Yan¹, and Jiangdong Dai^{1, †}

School of Material Science and Engineering, Jiangsu University, Zhenjiang 212013, China
¹Institute of Green Chemistry and Chemical Technology, School of Chemistry and Chemical Engineering, Jiangsu University, Zhenjiang 212013, China

E-mail:,

Here, a new hierarchical porous carbon was first prepared from sodium lignosulphonate (SLS), an industrial by-product, via a confined carbonization and alkali activation methods using graphene oxide (GO) as template, and was used for ciprofloxacin (CIP) removal. The addition of GO nanosheets remarkably affected the morphology and pore structure. GLHPC-1, obtained at GO/SLS weight ratio of 1:100, possess a largest specific surface area of 3223 m2 g-1 and pore volume of 2.275 cm3 g-1, and thus exhibited an ultrahigh adsorption of 980.4 mg g-1 at 318 K and fast adsorption rate, as well as a good recycle ability in practice.

Keywords:Hierarchical porous carbon;Confined template;Graphene oxide;SLS;Ciprofloxacin removal

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[2] Xie A, Dai J, He J, Sun J, Chang Z, Li C, Yan Y, RSC Adv., 6, 13312 (2016)

[3] Yang Y, Tong Z, Ngai T, Wang C, ACS Appl. Mater. Interfaces, 6, 6351 (2014)

[4] Wickramaratne N, Jaroniec M, J. Mater. Chem. A, 1, 112 (2012)

[5] Yan J, Wang Q, Wei T, Fan Z, Adv. Energy Mater., 4, 157 (2014)

[6] Gupta VK, Agarwal S, Tyagi I, Sohrabi M, Fakhri A, Rashidi S, Sadeghi N, J. Ind. Eng. Chem., 41, 158 (2016)

[7] Wang XQ, Liang CD, Dai S, Langmuir, 24(14), 7500 (2008)

[8] Xie AT, Dai JD, Chen X, Ma P, He JS, Li CX, Zhou ZP, Yan YS, Chem. Eng. J., 304, 609 (2016)

[9] Dai JD, He JS, Xie AT, Gao L, Pan JM, Chen X, Zhou ZP, Wei X, Yan YS, Chem. Eng. J., 284, 812 (2016)

[10] Saha D, Li YC, Bi ZH, Chen JH, Keum JK, Hensley DK, Grappe HA, Meyer HM, Dai S, Paranthaman MP, Naskar AK, Langmuir, 30(3), 900 (2014)

[11] Schorr D, Diouf PN, Stevanovic T, Ind. Crop. Prod., 52, 65 (2014)

[12] Maldhure AV, Ekhe JD, Chem. Eng. J., 168(3), 1103 (2011)

[13] Berlin A, Balakshin M, Bioenergy Res., 315 (2014).

[14] Barroso-Bujans F, Cerveny S, Verdejo R, Val JJD, Alberdi JM, Alegria A, Colmenero J, Carbon, 48, 1079 (2010)

[15] Chandra V, Yu SU, Kim SH, Yoon YS, Kim DY, Kwon AH, Meyyappan M, Kim KS, Chem. Commun., 48, 735 (2011)

[16] Fu KF, Yue QY, Gao BY, Sun YY, Zhu LJ, Chem. Eng. J., 228, 1074 (2013)

[17] Dai JD, He JS, Xie AT, Gao L, Pan JM, Chen X, Zhou ZP, Wei X, Yan YS, Chem. Eng. J., 284, 812 (2016)

[18] Ren MM, Zhou Z, Gao XP, Liu L, Peng WX, J. Phys. Chem. C, 112, 13043 (2008)

[19] Yan M, Dong G, Zhang F, Shi Y, Yang H, Zheng L, Yu C, Bo T, Zhao D, Angew. Chem., 44, 7053 (2005)

[20] Nishihara H, Yang QH, Hou PX, Unno M, Yamauchi S, Saito R, Paredes JI, Martinez-Alonso A, Tascon J, Sato Y, Carbon, 47, 1220 (2009)

[21] Hu M, Reboul J, Furukawa S, Radhakrishnan L, Zhang Y, Srinivasu P, Iwai H, Wang H, Nemoto Y, Suzuki N, Chem. Commun., 47, 8124 (2011)

[22] Huang CH, Doong RA, Gu D, Zhao D, Carbon, 49, 3055 (2011)

[23] Elaigwu SE, Kyriakou G, Prior TJ, Greenway GM, Mater. Lett., 123, 198 (2014)

[24] Huang ZD, Zhang B, Oh SW, Zheng QB, Lin XY, Yousefi N, Kim JK, J. Mater. Chem., 22, 3591 (2012)

[25] Ncibi MC, Sillanpaa M, J. Hazard. Mater., 298, 102 (2015)

[26] Carabineiro SAC, Thavorn-amornsri T, Pereira MFR, Serp P, Figueiredo JL, Catal. Today, 186(1), 29 (2012)

[27] Li JR, Wang YX, Wang X, Yuan BL, Fu ML, J. Colloid Interface Sci., 453, 69 (2015)

[28] Kim SH, Shon HK, Ngo HH, J. Ind. Eng. Chem., 16(3), 344 (2010)

[29] Guzel F, Saygili H, J. Taiwan Inst. Chem. Eng., 60, 236 (2016)

[30] Yu F, Li Y, Han S, Ma J, Chemosphere, 153, 365 (2016)

[31] Marcano DC, Kosynkin DV, Berlin JM, Sinitskii A, Sun Z, Slesarev A, Alemany LB, Lu W, Tour JM, ACS Nano, 4, 4806 (2010)

[32] Fakhri A, J. Saudi Chem. Soc., 168 (2013).

[33] Yun YS, Park MH, Hong SJ, Lee ME, Park YW, Jin HJ, ACS Appl. Mater. Interfaces, 7, 3684 (2015)

[34] Chen W, Zhang H, Huang Y, Wang W, J. Mater. Chem., 20, 4773 (2010)

[35] Dai J, Tian S, Jiang Y, Chang Z, Xie A, Zhang R, Yan Y, J. Alloy. Compd., 732 (2017)

[36] Youe WJ, Lee SM, Lee SS, Lee SH, Kim YS, Int. J. Biol. Macromol., 82, 497 (2016)

[37] Kudin KN, Ozbas B, Schniepp HC, Prud’Homme RK, Aksay IA, Car R, Nano Lett., 8, 36 (2008)

[38] Moon IK, Lee J, Ruoff RS, Lee H, Nat. Commun., 1, 73 (2010)

[39] Chang ZS, Dai JD, Xie AT, He JS, Zhang RL, Tian SJ, Yan YS, Li CX, Xu W, Shao R, Ind. Eng. Chem. Res., 56(33), 9367 (2017)

[40] Yuan M, Zhong RB, Gao HY, Li WR, Yun XL, Liu JR, Zhao XM, Zhao GF, Zhang F, Appl. Surf. Sci., 355, 1136 (2015)

[41] Bhunia SK, Saha A, Maity AR, Ray SC, Jana NR, Sci. Rep., 3, 1473 (2013)

[42] Raymundo-Pinero E, Azais P, Cacciaguerra T, Cazorla-Amoros D, Linares-Solano A, Beguin F, Carbon, 43, 786 (2005)

[43] Harnisz M, Korzeniewska E, Gołas I, Chemosphere, 128, 134 (2015)

[44] Jalil MER, Baschini M, Sapag K, Appl. Clay Sci., 114, 69 (2015)

[45] Peng XM, Hu FP, Lam FLY, Wang YJ, Liu ZM, Dai HL, J. Colloid Interface Sci., 460, 349 (2015)

[46] Diduszko R, Swiatkowski A, Trznadel B, Carbon, 38, 1153 (2000)

[47] Ferrari AC, Robertson J, Phys. Rev. B, 61, 14095 (2008)

[48] Li JR, Wang YX, Wang X, Yuan BL, Fu ML, J. Colloid Interface Sci., 453, 69 (2015)

[49] Kumar S, Nair RR, Pillai PB, Gupta SN, Iyengar M, Sood A, ACS Appl. Mater. Interfaces, 6, 17426 (2014)

[50] Zhu X, Liu Y, Zhou C, Zhang S, Chen J, ACS Sustain. Chem. Eng., 2, 969 (2014)

[51] Kara M, Yuzer H, Sabah E, Celik MS, Water Res., 37, 224 (2003)

[52] Tan X, Liu Y, Zeng G, Wang X, Hu X, Gu Y, Yang Z, Chemosphere, 125, 70 (2015)