Bi-functional Al-doped ZnO@SnO2 heteronanowires as efficient substrates for improving photocatalytic and SERS performance

Yu-Cheng Chang; Shuo-Hsiu Wu

Journal of Industrial and Engineering Chemistry, Vol.76, 333-343, August, 2019

DOI10.1016/j.jiec.2019.03.058 Export Citation

Bi-functional Al-doped ZnO@SnO2 heteronanowires as efficient substrates for improving photocatalytic and SERS performance

Yu-Cheng Chang^†, and Shuo-Hsiu Wu

Department of Materials Science and Engineering, Feng Chia University, Taichung, 40724, Taiwan

E-mail:

Bi-functional Al-doped ZnO@SnO2 heteronanowires systematically analyzed as high-performance substrates for photocatalytic and surface-enhanced Raman scattering (SERS) applications. For the photocatalytic application, the Al-doped ZnO@SnO2 heteronanowires can exhibit highly efficient and reusable photocatalysts in the photodecomposition of rhodamine 6G solution under low-powered UV-light irradiation, which ascribed to improve the inhabitation of electron-hole pairs recombination and higher surface active sites. For the SERS application, Al-doped ZnO@SnO2 heteronanowires revealed suitable geometry to deposit Ag nanoparticles with higher density and more hot spots in three-dimensional structures, which can provide high SERS enhancement, low detection limit (amoxicillin 10 -10M), high reproducibility, and stability.

Keywords:Al-doped ZnO@SnO2 heteronanowires;Surface-enhanced Raman scattering;Photocatalysts;Ag nanoparticles;Hot spots;Amoxicillin

[References]

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[2] Han F, Kambala VSR, Srinivasan M, Rajarathnam D, Naidu R, Appl. Catal. A: Gen., 359(1-2), 25 (2009)

[3] Ko FH, Lo WJ, Chang YC, Guo JY, Chen CM, J. Alloy. Compd., 678, 137 (2016)

[4] Bhatkhande DS, Pangarkar VG, Beenackers AACM, J. Chem. Technol. Biotechnol., 77(1), 102 (2002)

[5] Houas A, Lachheb H, Ksibi M, Elaloui E, Guillard C, Herrmann JM, Appl. Catal. B: Environ., 31(2), 145 (2001)

[6] Gao H, Yang H, Xu J, Zhang S, Li J, Small, 14, 180135 (2018)

[7] Hsieh PY, Chiu YH, Lai TH, Fang MJ, Wang YT, Hsu YJ, ACS Appl. Mater. Interfaces, 11, 3006 (2019)

[8] Zhang S, Gao H, Huang Y, Wang X, Hayat T, Li J, Xu X, Wang X, Environ. Sci. Nano, 5, 1179 (2018)

[9] Gao HH, Cao RY, Xu XT, Zhang SW, Huang YS, Yang HC, Deng XL, Li JX, Appl. Catal. B: Environ., 245, 399 (2019)

[10] Adhikari S, Sarkar D, Madras G, RSC Adv., 5, 11895 (2015)

[11] Ge M, Cao C, Huang J, Li S, Chen Z, Zhang KQ, Al-Deyab SS, Lai Y, J. Mater. Chem. A, 4, 6772 (2016)

[12] Nakata K, Fujishima A, J. Photochem. Photobiol. C, 13, 169 (2012)

[13] Tong R, Wang X, Zhou XL, Liu QY, Wang HB, Peng XN, Liu X, Zhang ZH, Wang H, Lund PD, Int. J. Hydrog. Energy, 42(8), 5496 (2017)

[14] He C, Peng XN, Liu QY, Fan X, Wang H, Int. J. Hydrog. Energy, 39(25), 13415 (2014)

[15] Kumar SG, Rao KSRK, RSC Adv., 5, 3306 (2015)

[16] Wetchakun K, Wetchakun N, Sakulsermsuk S, J. Ind. Eng. Chem., 71, 19 (2019)

[17] Krishnakumar B, Imae T, Appl. Catal. A: Gen., 486, 170 (2014)

[18] Chou CM, Chang YC, Lin PS, Liu FK, Mater. Chem. Phys., 201, 18 (2017)

[19] Zhang X, Qin J, Xue Y, Yu P, Zhang B, Wang L, Liu R, Sci. Rep., 4, 4596 (2014)

[20] Zhang L, Yang H, Ma J, Li L, Wang X, Zhang L, Tian S, Wang X, Appl. Phys. A-Mater. Sci. Process., 100, 1061 (2010)

[21] Yu ZX, Moussa H, Ma YZ, Liu MM, Chouchene B, Schneider R, Moliere M, Liao HL, J. Colloid Interface Sci., 534, 637 (2019)

[22] Chang YC, Lin PS, Liu FK, Guo JY, Chen CM, J. Alloy. Compd., 688, 242 (2016)

[23] Pan L, Muhammad T, Ma L, Huang ZF, Wang SB, Wang L, Zou JJ, Zhang XW, Appl. Catal. B: Environ., 189, 181 (2016)

[24] Chiu HM, Yang TH, Hsueh YC, Perng TP, Wu JM, Appl. Catal. B: Environ., 163, 156 (2015)

[25] Wang Q, Geng B, Wang S, Environ. Sci. Technol, 43, 8968 (2009)

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[28] Wang H, Qiu XQ, Liu WF, Yang DJ, Appl. Surf. Sci., 426, 206 (2017)

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[31] Krishnakumar B, Imae T, Miras J, Esquena J, Sep. Purif. Technol., 132, 281 (2014)

[32] Zhou XL, Wang XN, Tong R, Xiao LF, Zheng Z, Peng XN, Wang HB, Wang H, Int. J. Energy Res., 41(12), 1781 (2017)

[33] Zheng X, Li D, Li X, Chen J, Cao C, Fang J, Wang J, He Y, Zheng Y, Appl. Catal. B: Environ., 168-169, 408 (2015)

[34] Chang YC, J. Alloy. Compd., 664, 538 (2016)

[35] Vattikuti SVP, Reddy PAK, Shim J, Byon C, ACS Omega, 3, 7587 (2018)

[36] Balachandran S, Swaminathan M, Dalton Trans., 42, 5338 (2013)

[37] Chang YC, Guo JY, Chen CM, Di HM, Hsu CC, Nanoscale, 9, 13235 (2017)

[38] Xu C, Sun J, Gao L, J. Mater. Chem., 22, 975 (2012)

[39] Velmurugan V, Srinivasarao U, Ramachandran R, Saranya M, Grace AN, Mater. Res. Bull., 84, 145 (2016)

[40] Wang SJ, Yu WW, Cheng CW, Zhang TN, Ge MY, Sun Y, Dai N, Mater. Res. Bull., 89, 267 (2017)

[41] Chen HY, Kuang DB, Su CY, J. Mater. Chem., 22, 15475 (2012)

[42] Chang YC, Lin JC, Chen SY, Hung LY, Lin YR, Chen CY, Mater. Res. Bull., 100, 429 (2018)

[43] Zhu L, Hong M, Ho GW, Sci. Rep., 5, 11609 (2015)

[44] Zhang Z, Shao C, Li X, Zhang L, Xue H, Wang C, Liu Y, J. Phys. Chem. C, 114, 7920 (2010)

[45] Lin CC, Chiang YJ, Chem. Eng. J., 181-182, 196 (2012)

[46] Lamba R, Umar A, Mehta SK, Kansal SK, Talanta, 131, 490 (2015)

[47] Khoa NT, Kim SW, Yoo DH, Cho S, Kim EJ, Hahn SH, ACS Appl. Mater. Interfaces, 7, 3524 (2015)

[48] Wang J, Du N, Zhang H, Yu J, Yang D, J. Phys. Chem. C, 115, 11302 (2011)

[49] Cong S, Yuan Y, Chen Z, Hou J, Yang M, Su Y, Zhang Y, Li L, Li Q, Geng F, Zhao Z, Nat. Commun., 6, 7800 (2015)

[50] Baker GA, Moore DS, Anal. Bioanal. Chem., 382, 1751 (2005)

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[53] Novara C, Marta SD, Virga A, Lamberti A, Angelini A, Chiado A, Rivolo P, Geobaldo F, Sergo V, Bonifacio A, Giorgis F, J. Phys. Chem. C, 120, 16946 (2016)

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[56] Lane LA, Qian XM, Nie SM, Chem. Rev., 115(19), 10489 (2015)

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[60] Tang HB, Meng GW, Huang Q, Zhang Z, Huang ZL, Zhu CH, Adv. Funct. Mater., 22(1), 218 (2012)

[61] Huang J, Chen F, Zhang Q, Zhan Y, Ma D, Xu K, Zhao Y, ACS Appl. Mater. Interfaces, 7, 5725 (2015)

[62] Chang YC, Hsu CC, Wu SH, Chuang KW, Chen YF, Appl. Surf. Sci., 447, 213 (2018)

[63] Chou CM, Chang YC, Lin PS, Liu FK, J. Photochem. Photobiol. A-Chem., 347, 1 (2017)

[64] Cao Q, Liu X, Yuan KP, Yu J, Liu QH, Delaunay JJ, Che RC, Appl. Catal. B: Environ., 201, 607 (2017)

[65] Mass J, Bhattacharya P, Katiyar RS, Mater. Sci. Eng. B-Solid State Mater. Adv. Technol., 103, 9 (2003)

[66] Gaddam V, Kumar RR, Parmar M, Yaddanapudi GRK, Nayak MM, Rajanna K, RSC Adv., 5, 13519 (2015)

[67] Bai S, Guo T, Zhao Y, Luo R, Li D, Chen A, Liu CC, J. Mater. Chem. A, 1, 11335 (2013)

[68] Kar A, Sain S, Rossouw D, Knappett BR, Pradhan SK, Botton GA, Wheatley AEH, J. Alloy. Compd., 698, 944 (2017)

[69] Wei RH, Dua K, Gong XY, Chen QD, Tang ZX, You JH, Li LB, Yang HB, Appl. Surf. Sci., 255(13-14), 6464 (2009)

[70] Yogamalar R, Mahendran V, Srinivasan R, Beitollahi A, Kumar RP, Bose AC, Vinu A, Chem. Asian J., 5, 2379 (2010)

[71] Li J, Meng S, Wang T, Xu Q, Shao L, Jiang D, Chen M, Appl. Surf. Sci., 396, 430 (2017)

[72] Babu B, Reddy IN, Yoo K, Kim D, Shim J, Mater. Lett., 221, 211 (2018)

[73] Kadam AN, Bhopate DP, Kondalkar VV, Majhi SM, Bathula CD, Tran AV, Lee SW, J. Ind. Eng. Chem., 61, 78 (2018)

[74] Jia C, Chen HS, Yang P, J. Ind. Eng. Chem., 58, 278 (2018)

[75] Pristinski D, Tan S, Erol M, Du H, Sukhishvili S, J. Raman Spectrosc., 37, 762 (2006)

[76] Chang TH, Chang YC, Chen CM, Chuang KW, Chou CM, J. Alloy. Compd., 782, 887 (2019)

[77] Kibar G, Topal AE, Dana A, Tuncel A, J. Mol. Struct., 1119, 133 (2016)

[78] Bebu A, Szabo L, Leopold N, Berindean C, David L, J. Mol. Struct., 993, 52 (2011)