[1] X. Yao, X. Niu, K.X Ma, P. Huang, J. Grothe, S. Kaskel, Y. Zhu, Small, 13 (2017) 1602225 (1-11).
[2] F. Yang, A. Skripka, M.S. Tabatabaei, S.H Hong, F. Ren, Y. Huang, J.K. Oh, S. Martel, X. Liu, F. Vetrone, D Ma, Chem. Mater. 31 (2019) 3201-3210.
[3] Z. Naghshbandi, N. Arsalani, M.S. Zakerhamidi, K.E. Geckeler, Appl. Surf. Sci. 443 (2018) 484-491.
[4] Y. Fang, C. Xing, S. Zhan, M. Zhao, M. Li, H. Liu, C. Wang, ACS Biomater. Sci. Eng. 5 (2019) 6779-6793.
[5] F. Arteaga-Cardona, J.O. Estévez, M.A. Méndez-Rojas, S. Hidalgo-Tobón, P. Dies-Suarez, N.R. Silva-González, J.M.G. Jiménez, G.N. Cherr, U. Salazar-Kuri, Dalton Trans. 49 (2020) 4376-4389.
[6] S. Li, X. Shi, H. Wang, L. Xiao, J. Biomed Mater Res. 108 (2020) 1-12.
[7] Q. Zhuang, X. Wang, Z. Geng, H. Peng, Nanotechnology. 31 (2020) 065101 (1-7).
[8] Q. Li, Z. Liao, L. Han, L. Li, Y. Song, E. Song, Adv. Funct. Mater. 30 (2020) 2004963 (1-11).
[9] S. Fu, Y. Ding, T. Cong, X. Yang, X. Hong, B. Yu, Y. Li, Y. Liu, Dalton Trans. 48 (2019) 12850-12857.
[10] Q. Ma, Y. Nakane, Y. Mori, M. Hasegawa, Y. Yoshioka, T.M. Watanabe, K. Gonda, N. Ohuchi, T. Jin, Biomaterials 33 (2012) 8486-8494.
[11] J.C. Park, M.K. Yu, G. An, S. Park, J. Oh, H.J. Kim, J. Kim, E.K. Wang, H. Hong, Y.S. Ha, T.H. Choi, K. Jeong, Y. Chang, M.J. Welch, S. Jon, J. Yoo, Small, 24 (2010) 2863-2868.
[12] S.S. Syamchand, G. Sony, J Lumin, 165 (2015) 190-215.
[13] H. Zhang, H. Song, B. Dong, L. Han, G. Pan, X. Bai, L. Fan, S. Lu, H. Zhao, F. Wang, J. Phys. Chem. C 112 (2008) 9155-9162.
[14] Q. Zuo, B. Li, L. Zhang, Y. Wang, Y. Liu, J. Zhang, Y. Chen, L. Guo, J Solid State Chem. 183 (2010) 1715-1720.
[15] P. Yang, Z. Quan, Z. Hou, C. Li, X. Kang, Z. Cheng, J. Lin, Biomaterials, 30 (2009) 4786-4795.
[16] M. Pooresmaeil, H. Namazi, J. Alloys Compd, 846 (2020) 156419 (1-12).
[17] N. Akram, W. Ma, J. Guo, Y. Guo, Z. Yansong, A. Hassan, J. Wang, Chem. Phys. 540 (2021) 110974 (1-11).
[18] L.L. Zhang, S. Tong, Q.B. Zhang, G. Bao, ACS Appl. Nano Mater. 3 (2020) 6785-6797.
[19] H.X. Peng, G.X. Liu, X.T. Dong, J.X. Wang, J. Xu, W.S. Yu, J. Alloys compd. 509 (2011) 6930-6974.
[20] Z.W. Sun, L.Z. Tong, D.M. Liu, J.H. Shi, H. Yang, J. Mater. Chem. 22 (2012) 6280-6284.
[21] X. Li, Q. Ma, J. Tian, X. Xi, D. Li, X. Dong, W. Yu, X. Wang, J. Wang, G. Liu, Nanoscale, 9 (2017) 18918-18930.
[22] J. Tian, Q. Ma, W. Yu, D. Li, X. Dong, G. Liu, J. Wang, Mater. Design. 170 (2019) 107701 (1-11).
[23] Y. Xie, Q. Ma, H. Qi, Y. Song, J. Tian, W. Yu, X. Dong, D. Li, G. Liu, J. Wang, J. Mater. Chem. C, 7 (2019) 9075-9086.
[24] F. Zhan, X. Yan, J. Li, F. Sheng, B, Li, Food Chem. 337 (2021) 127763 (1-9).
[25] N. Yoshiyasu, K. Mikiya, S. Shin-ichiiro, RSC Adv. 10 (2020) 38045-38054.
[26] H. Bauer, J. Blanc, D.L. Ross, J. Am. Chem. Soc.86 (1964): 5125-5131.
[27] Y.H. Zhang, Z.S Su, B. Li, L.M. Zhang, D. Fan, H.P. Ma, ACS Appl. Mater. Interfaces 8 (2016) 12344-12351.
[28] L. Liu, B. Li, J. Zhang, R. Qin, H. Zhao, X. Ren, Mater. Res. Bull. 44 (2009) 2081-2086.
[29] L. Liu, B. Li, R. Qin, H. Zhao, X. Ren, Z. Su, Nanotechnology, 21 (2010) 285701 (1-8).
[30] H. Zhang, H. Song, H. Yu, X. Bai, S. Li, G. Pan, Q. Dai, T. Wang, W. Li, S. Lu, X. Ren, H. Zhao, J. Phys. Chem. C 111 (2007) 6524-6527.
[31] S. Li, H. Song, W. Li, X. Ren, S. Lu, G. Pan, L. Fan, H. Yu, H. Zhang, R. Qin, Q. Dai, T. Wang, J. Phys. Chem. B 110 (2006) 23164-23169.
[32] H. Zhang, H. Song, H. Yu, S. Li, X. Bai, G. Pan, Q. Dai, T. Wang, W. Li, S. Lu, X. Ren, H. Zhao, X. Kong, Appl. Phys. Lett. 90 (2007) 103103 (1-3).
[33] X. Sun, B. Dong, H. Xu, S. Xu, X. Zhang, Y. Lin, L. Xu, X. Bai, S. Zhang, H. Song, ACS Appl. Mater. Interfaces. 9(2017) 11451-11460.
[34] X. Xu, C. Deng, M. Gao, W. Yu, P. Yang, X. Zhang, Adv. Mater. 18(2006) 3289-3293.