Renewable biomass derived hierarchically porous carbonaceous sponges and their magnetic nanocomposites for removal of organic molecules from water

Hongwei Zhou; Bo Yan; Jialiang Lai; Hanbin Liu; Aijie Ma; Weixing Chen; Xilang Jin; Weifeng Zhao; Gai Zhang

Journal of Industrial and Engineering Chemistry, Vol.58, 334-342, February, 2018

DOI10.1016/j.jiec.2017.09.046 Export Citation

Renewable biomass derived hierarchically porous carbonaceous sponges and their magnetic nanocomposites for removal of organic molecules from water

Hongwei Zhou^†, Bo Yan, Jialiang Lai, Hanbin Liu¹, Aijie Ma, Weixing Chen, Xilang Jin, Weifeng Zhao, and Gai Zhang

School of Materials and Chemical Engineering, Xi’an Technological University, Xi’an 710021, PR China
¹School of Bioresources Chemical and Materials Engineering, Shaanxi University of Science & Technology, Xi’an 710021, PR China

E-mail:

This work describes the preparation, characterization and removal capability of a novel biomass derived carbonaceous sponges (CS) and their nanocomposites. The CS has hierarchically porous structure which is composed of lamellar structures and secondary porous structures. The pore size is on a scale from 1 nm to 200 μm. Utilizing the CS as adsorbents, rapid removal of model organic molecules, including methylene blue (MB), methyl orange (MO) and crystal violet (CV), from their aqueous solutions can be completed within 1 min with the assistance of pressure and the removal efficiency reaches up to 100%, 81% and 98%, respectively. The removal capabilities for CS towards MB, MO and CV are 0.0769 g/g, 0.2218 g/g and 1.0384 g/g, respectively and 0.0635 g/g, 0.0977 g/g and 0.8634 g/g, respectively for CS nanocomposites.

Keywords:Carbonaceous sponge;Pomelo peel;Nanocomposite;Organic molecule;Removal

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[Referenced By]

[1] De La Cueva Bueno P, Gillerman L, Gehr R, Oron G, Water Res., 110, 66 (2017)

[2] Dong Z, Wang D, Liu X, Pei X, Chen L, Jin J, J. Mater. Chem., 2, 5034 (2014)

[3] Hu L, Zhang C, Zeng G, Chen G, Wan J, Guo Z, Wu H, Yu Z, Zhou Y, Liu J, RSC Adv., 6, 78595 (2016)

[4] Lan S, Zhan S, Ding J, Ma J, Ma D, J. Mater. Chem., 5, 2514 (2017)

[5] Ilyas S, Abtahi SM, Akkilic N, Roesink HDW, de Vos WM, J. Membr. Sci., 537, 220 (2017)

[6] Albadarin AB, Collins MN, Mu N, Shirazian S, Walker G, Mangwandi C, Chem. Eng. J., 307, 264 (2016)

[7] Gupta VK, Ali I, Saleh TA, Nayak A, Agarwal S, RSC Adv., 2, 6380 (2012)

[8] Gupta VK, Mittal A, Jhare D, Mittal J, RSC Adv., 2, 8381 (2012)

[9] Cates EL, Environ. Sci. Technol., 51, 757 (2017)

[10] Gupta VK, Jain R, Mittal A, Saleh TA, Nayak A, Agarwal S, Sikarwar S, Mater. Sci. Eng. C-Biomimetic Supramol. Syst., 32, 12 (2012)

[11] Saravanan R, Khan MM, Gupta VK, Mosquera E, Gracia F, Narayanan V, Stephen A, RSC Adv., 5, 34645 (2015)

[12] Rajendran S, Khan MM, Gracia F, Qin J, Gupta VK, Arumainathan S, Nanocomposite, 6, 31641 (2016)

[13] Hu L, Zeng GM, Chen GQ, Dong HR, Liu YT, Wan J, Chen AW, Guo Z, Yan M, Wu HP, Yu ZG, J. Hazard. Mater., 301, 106 (2016)

[14] Wan J, Zhang C, Zeng GM, Huang DL, Hu L, Huang C, Wu HP, Wang LL, J. Hazard. Mater., 320, 278 (2016)

[15] Heeb MB, Kristiana I, Trogolo D, Arey JS, von Gunten J, Water Res., 110, 91 (2017)

[16] Cao N, Lyu Q, Li J, Wang Y, Yang B, Szunerits S, Boukherroub R, Chem. Eng. J., 326, 17 (2017)

[17] Simpson DR, Water Res., 42, 2839 (2008)

[18] Qu X, Alvarez PJJ, Li Q, Water Res., 47, 3931 (2013)

[19] Zeng GM, Wan J, Huang DL, Hu L, Huang C, Cheng M, Xue WJ, Gong XM, Wang RZ, Jiang DN, J. Hazard. Mater., 339, 354 (2017)

[20] Chen H, Wang X, Li J, Wang X, J. Mater. Chem., 3, 6073 (2015)

[21] Liang HW, Guan QF, Chen LF, Zhu Z, Zhang WJ, Yu SH, Angew. Chem.-Int. Edit., 51, 5101 (2012)

[22] Smirnova I, Mamic J, Arlt W, Langmuir, 19(20), 8521 (2003)

[23] Gibson LT, Chem. Soc. Rev., 43, 5136 (2014)

[24] Zhu H, Yang X, Cranston ED, Zhu SP, Adv. Mater., 28(35), 7652 (2016)

[25] Mittal A, Mittal J, Malviya A, Kaur D, Gupta VK, J. Colloid Interface Sci., 342(2), 518 (2010)

[26] Zhang S, Zeng M, Li J, Li J, Xu J, Wang X, J. Mater. Chem., 2, 4391 (2014)

[27] Titirici MM, White RJ, Brun N, Budarin VL, Su DS, del Monte F, Clark JH, MacLachlan MJ, Chem. Soc. Rev., 44, 250 (2015)

[28] Wang Z, Jin P, Wang M, Wu G, Dong C, Wu A, ACS Appl. Mater. Interfaces, 8, 32862 (2016)

[29] Ruan XX, Chen YH, Chen H, Qian GR, Frost RL, Chem. Eng. J., 297, 295 (2016)

[30] Oribayo O, Feng XS, Rempel GL, Pan QM, Chem. Eng. J., 323, 191 (2017)

[31] Niu G, Vilquin B, Baboux N, Plossu C, Becerra L, Saint-Grions G, Hollinger G, Chem. Soc. Rev., 38, 3401 (2009)

[32] Moreno-Castilla C, Maldonado-Hodar FJ, Carbon, 43, 455 (2005)

[33] Sun HY, Xu Z, Gao C, Adv. Mater., 25(18), 2554 (2013)

[34] Kim KH, Oh Y, Islam MF, Nat. Nanotechnol., 7(9), 562 (2012)

[35] Kim KH, Tsui MN, Islam MF, Chem. Mater., 29, 2748 (2017)

[36] Bryning MB, Milkie DE, Islam MF, Hough LA, Kikkawa JM, Yodh AG, Adv. Mater., 19(5), 661 (2007)

[37] Khani H, Rofouei MK, Arab P, Gupta VK, Vafaei Z, J. Hazard. Mater., 183(1-3), 402 (2010)

[38] Gupta VK, Agarwal S, Saleh TA, J. Hazard. Mater., 185, 17 (2011)

[39] Bi HC, Yin ZY, Cao XH, Xie X, Tan CL, Huang X, Chen B, Chen FT, Yang QL, Bu XY, Lu XH, Sun LT, Zhang H, Adv. Mater., 25(41), 5916 (2013)

[40] Bi HC, Yin ZY, Cao XH, Xie X, Tan CL, Huang X, Chen B, Chen FT, Yang QL, Bu XY, Lu XH, Sun LT, Zhang H, Adv. Mater., 25(41), 5916 (2013)

[41] Gupta VK, Nayak A, Chem. Eng. J., 180, 81 (2012)

[42] Argun ME, Guclu D, Karatas M, J. Ind. Eng. Chem., 20(3), 1079 (2014)

[43] Hameed BH, Mahmoud DK, Ahmad AL, Colloids Surf. A: Physicochem. Eng. Asp., 316, 78 (2008)

[44] Peng C, Lang J, Xu S, Wang X, RSC Adv., 4, 54662 (2014)

[45] Zhu L, Wang Y, Wang Y, You L, Shen X, Li S, Microporous Mesoporous Mater., 241, 285 (2017)

[46] Li H, Sun Z, Zhang L, Tian Y, Cui G, Yan S, Colloids Surf. A: Physicochem. Eng. Asp., 489, 191 (2016)

[47] Sun X, Angew. Chem.-Int. Edit., 43, 597 (2004)

[48] Moreno-Castilla C, Lopez-Ramon MV, Carrasco-Marı’N F, Carbon, 38, 1995 (2000)

[49] Wu XL, Wen T, Guo HL, Yang S, Wang X, Xu AW, J. Mater. Chem., 7, 3589 (2013)

[50] Cong HP, Ren XC, Wang P, Yu SH, ACS Nano, 6, 2693 (2012)

[51] Xu Y, Sheng K, Li C, Shi G, ACS Nano, 4, 4324 (2010)

[52] Chen WF, Li SR, Chen CH, Yan LF, Adv. Mater., 23(47), 5679 (2011)

[53] Annadurai G, Juang RS, Lee DJ, J. Hazard. Mater., 92(3), 263 (2002)

[54] Ni ZM, Xia SJ, Wang LG, Xing FF, Pan GX, J. Colloid Interface Sci., 316(2), 284 (2007)

[55] Ma J, Yu F, Zhou L, Jin L, Yang M, Luan J, Tang Y, Fan H, Yuan Z, ACS Appl. Mater. Interfaces, 4, 5749 (2012)

[56] Ai LH, Zhang CY, Liao F, Wang Y, Li M, Meng LY, Jiang J, J. Hazard. Mater., 198, 282 (2011)

[57] Wang L, Wu XL, Xu WH, Huang XJ, Liu JH, Xu AW, ACS Appl. Mater. Interfaces, 4, 2686 (2012)

[58] Zhuang X, Wan Y, Feng C, Shen Y, Zhao D, Chem. Mater., 21, 706 (2009)

[59] Zhao J, Ren W, Cheng HM, J. Mater. Chem., 22, 20197 (2012)

[60] Yu M, Li J, Wang LJ, Chem. Eng. J., 310, 300 (2017)

[61] Torad NL, Hu M, Ishihara S, Sukegawa H, Belik AA, Imura M, Ariga K, Sakka Y, Yamauchi Y, Small, 10, 2096 (2014)

[62] Chen Y, Zhang S, Cao S, Li S, Chen F, Yuan S, Xu C, Zhou J, Feng X, Ma X, Wang B, Adv. Mater., 29, 160622 (2017)

[63] Chen Y, Zhang S, Cao S, Li S, Chen F, Yuan S, Xu C, Zhou J, Feng X, Ma X, Wang B, Nature, 542 (2017)

[64] Gu JM, Fan XY, Liu X, Li SH, Wang Z, Tang SF, Yuan DL, Chem. Eng. J., 324, 35 (2017)

[65] Hu B, Wang K, Wu LH, Yu SH, Antonietti M, Titirici MM, Adv. Mater., 22(7), 813 (2010)

[66] Sun F, Liu W, Dong Z, Deng Y, Chem. Eng. J., 330, 774 (2017)

[67] Farid MM, Khudhair AM, Razack SAK, Al-Hallaj S, Energy Conv. Manag., 45(9-10), 1597 (2004)