[1] O. Akhavan, E. Ghaderi, Nanoscale 5 (2013) 10316-10326.
[2] O. Akhavan, R. Azimirad, S. Safa, Mater. Chem. Phys. 130 (2011) 598-602.
[3] O. Akhavan, M. Choobtashani, E. Ghaderi, J. Phys. Chem. C 116 (2012) 9653-9659.
[4] M. Zhang, Y. Liu, L. Li, H. Gao, X. Zhang, Catal. Comm. 58 (2015) 122-126.
[5] S. Weng, B. Chen, L. Xie, Z. Zheng, P. Liu, J. Mater. Chem. A 1 (2013) 3068-3075.
[6] J. Li, Y. Yu, L. Zhang, Nanoscale 6 (2014) 8473-8488.
[7] H. Du, J. Luan, Solid State Sci. 14 (2012) 1295-1305.
[8] Q. Zhang, Y. Zhou, F. Wang, F. Dong, W. Li, H. Li, G.R. Patzke, J. Mater. Chem. A 2 (2014) 11065-11072.
[9] G. Manna, R. Bose, N. Pradhan, Angew. Chem. Int. Ed. 53 (2014) 6743-6746.
[10] H.-F. Zhai, A.-D. Li, J.-Z. Kong, X.-F. Li, J. Zhao, B.-L. Guo, J. Yin, Z.-S. Li, D. Wu, J. Solid State Chem. 202 (2013) 6-14.
[11] A. Kudo, K. Omori, H. Kato, J. Am. Chem. Soc. 121 (1999) 11459-11467.
[12] H. An, Y. Du, T. Wang, C. Wang, W. Hao, J. Zhang, Rare Met. 27 (2008) 243-250.
[13] L. Armelao, G. Bottaro, C. Maccato, E. Tondello, Dalton Trans. 41 (2012) 5480-5485.
[14] C.R. Michel, N.L.L. Contreras, A.H. Martínez-Preciado, Sensor. Actuat. B-Chem. 160 (2011) 271-277.
[15] B. Sarwan, B. Pare, A.D. Acharya, Mater. Sci. Semicond. Process. 25 (2014) 89-97.
[16] Y. Li, C. Li, Z. Zhang, Y. Zhang, X. Sun, H. Si, J. Zhang, Solid State Sci. 34 (2014) 107-112.
[17] S.-M. Zhou, D.-K. Ma, P. Cai, W. Chen, S.-M. Huang, Mater. Res. Bull. 60 (2014) 64-71.
[18] J. Cao, B. Xu, H. Lin, B. Luo, S. Chen, Catal. Comm. 26 (2012) 204-208.
[19] M. Nussbaum, N. Shaham-Waldmann, Y. Paz, J. Photoch. Photobio. A 290 (2014) 11-21.
[20] J. Di, J. Xia, S. Yin, H. Xu, L. Xu, Y. Xu, M. He, H. Li, RSC Adv. 4 (2014) 14281-14290.
[21] L. Lei, H. Jin, Q. Zhang, J. Xu, D. Gao, Z. Fu, Dalton Trans. 44 (2015) 795-803.
[22] X. Lin, T. Huang, F. Huang, W. Wang, J. Shi, J. Phys. Chem. B 110 (2006) 24629-24634.
[23] Y.-J. Zhu, F. Chen, Chem. Rev. 114 (2014) 6462-6555.
[24] B. Hayes, Microwave Synthesis: Chemistry at the Speed of Light, CEM Publishing: Matthews, 2002.
[25] P. Lidström, J. Tierney, B. Wathey, J. Westman, Tetrahedron 57 (2001) 9225-9283.
[26] G.A. Tompsett, W.C. Conner, K.S. Yngvesson, Chem. Phys. Chem. 7 (2006) 296-319.
[27] M. Norman, P. Bartczak, J. Zdarta, W. Tylus, T. Szatkowski, A.L. Stelling, H. Ehrlich, T. Jesionowski, Materials 8 (2015) 96-116.
[28] E. Muthuswamy, A.S. Iskandar, M.M. Amador, S.M. Kauzlarich, Chem. Mater. 25 (2013) 1416-1422.
[29] S. Song, W. Gao, X. Wang, X. Li, D. Liu, Y. Xing, H. Zhang, Dalton Trans. 41 (2012) 10472-10476.
[30] N. Dahal, S. García, J. Zhou, S.M. Humphrey, ACS Nano 6 (2012) 9433-9446.
[31] H. Hu, X. Wang, F. Liu, J. Wang, C. Xu, Synthetic Met. 161 (2011) 404-410.
[32] A. Tadjarodi, A.H. Cheshmekhavar, M. Imani, Appl. Surf. Sci. 263 (2012) 449-456.
[33] T. Lin, Z. Liu, M. Zhou, H. Bi, K. Zhang, F. Huang, D. Wan, Y. Zhong, ACS App. Mater. Inter. 6 (2014) 3088-3092.
[34] Y. Choi, G.H. Ryu, S.H. Min, B.R. Lee, M.H. Song, Z. Lee, B.-S. Kim, ACS Nano 8 (2014) 11377-11385.
[35] K. Zhang, J. Huang, H. Wang, G. Yu, B. Wang, S. Deng, J. Kano, Q. Zhang, RSC Adv. 4 (2014) 14719-14724.
[36] M. Mączka, L. Kępiński, L. Macalik, J. Hanuza, Mater. Chem. Phys. 125 (2011) 93-101.
[37] F. Dong, T. Xiong, R. Wang, Y. Sun, Y. Jiang, Dalton Trans. 43 (2014) 6631-6642.
[38] G. Li, F. Qin, R. Wang, S. Xiao, H. Sun, R. Chen, J. Colloid Interface Sci. 409 (2013) 43-51.
[39] J. Xiong, G. Cheng, G. Li, F. Qin, R. Chen, RSC Adv. 1 (2011) 1542-1553.
[40] P. Balaz, M. Achimovicova, M. Balaz, P. Billik, Z. Cherkezova-Zheleva, J.M. Criado, F. Delogu, E. Dutkova, E. Gaffet, F.J. Gotor, R. Kumar, I. Mitov, T. Rojac, M. Senna, A. Streletskii, K. Wieczorek-Ciurowa, Chem. Soc. Rev. 42 (2013) 7571-7637.
[41] J. Shang, W. Hao, X. Lv, T. Wang, X. Wang, Y. Du, S. Dou, T. Xie, D. Wang, J. Wang, ACS Catal. 4 (2014) 954-961.
[42] T. Wu, G. Liu, J. Zhao, H. Hidaka, N. Serpone, J. Phys. Chem. B 102 (1998) 5845-5851.
[43] A. Sivakumar, B. Murugesan, A. Loganathan, P. Sivakumar, J. Taiwan Inst. Chem. Eng. 45 (2014) 2300-2306.
[44] A.R. Khataee, M.B. Kasiri, J. Mol. Catal. A: Chem. 328 (2010) 8-26.
[45] J. Liqiang, Q. Yichun, W. Baiqi, L. Shudan, J. Baojiang, Y. Libin, F. Wei, F. Honggang, S. Jiazhong, Sol. Energy Mater. Sol. Cells 90 (2006) 1773-1787.
[46] S.K. Apte, S.N. Garaje, S.D. Naik, R.P. Waichal, B.B. Kale, Green Chem. 15 (2013) 3459-3467.
[47] Z. Shan, X. Lin, M. Liu, H. Ding, F. Huang, Solid State Sci. 11 (2009) 1163-1169.
[48] X. Xiao, C. Liu, R. Hu, X. Zuo, J. Nan, L. Li, L. Wang, J. Mater. Chem. 22 (2012) 22840-22843.
[49] L. Cao, F.-J. Spiess, A. Huang, S.L. Suib, T.N. Obee, S.O. Hay, J.D. Freihaut, J. Phys. Chem. B 103 (1999) 2912-2917.
[50] Q. Xiao, Z. Si, J. Zhang, C. Xiao, X. Tan, J. Hazard. Mater. 150 (2008) 62-67.
[51] L. Chen, S.-F. Yin, R. Huang, Y. Zhou, S.-L. Luo, C.-T. Au, Catal. Comm. 23 (2012) 54-57.
[52] G. Tian, Y. Chen, W. Zhou, K. Pan, C. Tian, X.-r. Huang, H. Fu, Cryst. Eng. Comm. 13 (2011) 2994-3000.
[53] X. Zhang, B. Li, J. Wang, Y. Yuan, Q. Zhang, Z. Gao, L.-M. Liu, L. Chen, Phys. Chem. Chem. Phys. 16 (2014) 25854-25861