[1] |
Nahar S., Zain M. F. M., Kadhum A. A. H., Hasan H. A., Hasan M. R., Materials(Basel), 2017, 10(6), 629-655
|
[2] |
Indrakanti V. P., Kubicki J. D., Schobert H. H., Fuel Process. Technol.,2011, 92(4), 805-811
|
[3] |
Habisreutinger S. N., Schmidt-Mende L., Stolarczyk J. K., Angew. Chem. Int. Ed. Engl.,2013, 52(29), 7372-7408
|
[4] |
Yamazaki Y., Takeda H., Ishitani O., J. Photochem. Photobio. C: Photochem. Rev.,2015, 25, 106-137
|
[5] |
Ran J., Jaroniec M., Qiao S. Z., Adv. Mater.,2018, 30(7), 1704649-1704680
|
[6] |
Kumar B., Llorente M., Froehlich J., Dang T., Sathrum A., Kubiak C. P., Annu. Rev. Phys. Chem.,2012, 63, 541-569
|
[7] |
Yu L., Li G., Zhang X., Ba X., Shi G., Li Y., Wong P. K., Yu J. C., Yu Y., ACS Catalysis,2016, 6(10), 6444-6454
|
[8] |
Ba X., Yan L. L., Huang S., Yu J., Xia X. J., Yu Y., J. Phys. Chem. C,2014, 118(42), 24467-24478
|
[9] |
Wang A., Li X., Zhao Y., Wu W., Chen J., Meng H., Powder Technol.,2014, 261, 42-48
|
[10] |
Yu L., Xiong L., Yu Y., J. Phys. Chem. C,2015, 119(40), 22803-22811
|
[11] |
McShane C. M., Choi K. S., J. Am. Chem. Soc.,2009, 131(7), 2561-2569
|
[12] |
Lin C. Y., Lai Y. H., Mersch D., Reisner E., Chem. Sci.,2012, 3(12), 3482-3487
|
[13] |
Yin G., Nishikawa M., Nosaka Y., Srinivasan N., Atarashi D., Sakai E., Miyauchi M., ACS Nano,2015, 9(2), 2111-2119
|
[14] |
Sato S., Morikawa T., Saeki S., Kajino T., Motohiro T., Angew. Chem.,2010, 122(30), 5227-5231
|
[15] |
Suzuki T. M., Nakamura T., Saeki S., Matsuoka Y., Tanaka H., Yano K., Kajino T., Morikawa T., J. Mater. Chem.,2012, 22(47), 24584-24590
|
[16] |
Ye R., Xiang C., Lin J., Peng Z., Huang K., Yan Z., Cook N. P., Samuel E. L., Hwang C. C., Ruan G., Ceriotti G., Raji A. R., Marti A. A., Tour J. M., Nat. Commun.,2013, 4(2943), 1-6
|
[17] |
Hu C., Yu C., Li M., Wang X., Yang J., Zhao Z., Eychmuller A., Sun Y. P., Qiu J., Small,2014, 10(23), 4926-4933
|
[18] |
Hu S., Wei Z., Chang Q., Trinchi A., Yang J., Appl. Surf. Sci.,2016, 378, 402-407
|
[19] |
Shan Z., Wu J., Xu F., Huang F. Q., Ding H., J. Phys. Chem. C,2008, 112(39), 15423-15428
|
[20] |
Zhang D. D., Maimaiti H., Awati A., Yisilamu G., Sun F. C., Wang M., Chem. Phys. Lett.,2018, 700, 27-35
|
[21] |
Li Y., Zhang W., Shen X., Peng P., Xiong L., Yu Y., Chinese J. Catal.,2015, 36(12), 2229-2236
|
[22] |
Zhang Y. F., Maimaiti H., Zhang B., RSC Adv.,2017, 7(5), 2842-2850
|
[23] |
Li Z., Zhu L., Wu W., Wang S., Qiang L., Appl. Catal. B: Environ.,2016, 192, 277-285
|
[24] |
Khan M. A., Wahab Y., Muhammad R., Tahir M., Sakrani S., Appl. Surf. Sci.,2018, 435, 718-732
|
[25] |
Krishna Sadhanala H., Maddegalla A., Nanda K. K., New J. Chem.,2017, 41(22), 13742-13746
|
[26] |
Liu L., Qi Y., Hu J., An W., Lin S., Liang Y., Cui W., Mater. Lett.,2015, 158, 278-281
|
[27] |
Huang C., Ye W., Liu Q., Qiu X., ACS Appl. Mater. Interface,2014, 6(16), 14469-14476
|
[28] |
Guo Y., Wang H., Ma X., Jin J., Ji W., Wang X., Song W., Zhao B., He C., ACS Appl. Mater. Interface,2017, 9(22), 19074-19081
|
[29] |
Ms S., Sankararaman S., J. Mater. Sci. Nanotechnol.,2017, 5(1), 104-110
|
[30] |
Wang M. X., Guo Z., Huang Z. H., Kang F., Catal. Commun.,2015, 62, 83-88
|
[31] |
Ishizaki T., Wada Y., Chiba S., Kumagai S., Lee H., Serizawa A., Li O. L., Panomsuwan G., Phys. Chem. Chem. Phys.,2016, 18(31), 21843-21851
|
[32] |
Yang J., Li Z., Zhao C., Wang Y., Liu X., Mater. Res. Bull.,2014, 60, 530-536
|
[33] |
Tulumello D., Cooper G., Koprinarov I., Hitchcock A. P., Rightor E. G., Mitchell G. E., Rozeveld S., Meyers G. F., Stokich T. M., J. Phys. Chem. B,2005, 109(13), 6343-6354
|
[34] |
Zhang T., Li C., Gu Y., Yan X., Zheng B., Li Y., Liu H., Lu N., Zhang Z., Feng G., Talanta,2017, 165, 143-151
|
[35] |
Bian S., Shen C., Qian Y., Liu J., Xi F., Dong X., Sens. Actua. B: Chem.,2017, 242, 231-237
|
[36] |
Wuang S. C., Neoh K. G., Kang E. T., Pack D. W., Leckband D. E., Adv. Funct. Mater.,2006, 16(13), 1723-1730
|
[37] |
Yang Y. T., Yang X. X., Wang Y. T., Luo J., Zhang F., Yang W. J., Chen J. H., Fuel,2018, 219, 166-175
|
[38] |
Ma Y., Li X., Yang Z., Xu S., Zhang W., Su Y., Hu N., Lu W., Feng J., Zhang Y., Langmuir,2016, 32(37), 9418-9427
|
[39] |
Jin J., Yu J., Guo D., Cui C., Ho W., Small,2015, 11(39), 5262-5271
|
[40] |
Witoon T., Kachaban N., Donphai W., Kidkhunthod P., Faungnawakij K., Chareonpanich M., Limtrakul J., Energy Convers. Manage.,2016, 118, 21-31
|
[41] |
Hsu H. C., Shown I., Wei H. Y., Chang Y. C., Du H. Y., Lin Y. G., Tseng C. A., Wang C. H., Chen L. C., Lin Y. C., Chen K. H., Nanoscale,2013, 5(1), 262-268
|
[42] |
Wang F., Chen P., Feng Y., Xie Z., Liu Y., Su Y., Zhang Q., Wang Y., Yao K., Lv W., Liu G., Appl. Catal. B: Environ.,2017, 207, 103-113
|
[43] |
Ong W. J., Tan L. L., Chai S. P., Yong S. T., Dalton Trans.,2015, 44(3), 1249-1257
|
[44] |
Li M., Wang M., Zhu L., Li Y., Yan Z., Shen Z., Cao X., Appl. Catal. B: Environ.,2018, 231, 269-276
|