Citation: | Guangkai Li, Haeseong Jang, Zijian Li, Jia Wang, Xuqiang Ji, Min Gyu Kim, Xien Liu, Jaephil Cho. Oxygen-deficient SnO2 nanoparticles with ultrathin carbon shell for efficient electrocatalytic N2 reduction. Green Energy&Environment, 2022, 7(4): 672-679. doi: 10.1016/j.gee.2020.11.004 |
[1] |
B. H. R. Suryanto, H. L. Du, D. Wang, J. Chen, A. N. Simonov, D. R. MacFarlane, Nature Catal. 2 (2019) 290-296
|
[2] |
Y. Fang, Z. Liu, J. Han, Z. Jin, Y. Han, F. Wang, Y. Niu, Y. Wu, Y. Xu, Adv. Energy Mater. 9 (2019) 1803406
|
[3] |
E. E. Stueeken, R. Buick, B. M. Guy, M. C. Koehler, Nature 520 (2015) 666-669
|
[4] |
J. G. Chen, R. M. Crooks, L. C. Seefeldt, K. L. Bren, R. M. Bullock, M. Y. Darensbourg, P. L. Holland, B. Hoffman, M. J. Janik, A. K. Jones, Science 360 (2018) eaar6611
|
[5] |
R. Zhao, H. Xie, L. Chang, X. Zhang, X. Sun, J. Energ. Chem. 1 (2019) 100011
|
[6] |
J. W. Erisman, M. A. Sutton, J. Galloway, Z. Klimont, W. Winiwarter, Nature Geosci. 1 (2008) 636-639
|
[7] |
X. Chen, Y. Guo, X. Du, Y. Zeng, J. Chu, C. Gong, J. Huang, C. Fan, X. Wang, J. Xiong, Adv. Energy Mater. 10 (2020) 1903172
|
[8] |
H. Jin, L. Li, X. Liu, C. Tang, W. Xu, S. Chen, L. Song, Y. Zheng, S. Z. Qiao, Adv. Mater. 31 (2019) e1902709
|
[9] |
J. Wang, B. Huang, Y. Ji, M. Sun, T. Wu, R. Yin, X. Zhu, Y. Li, Q. Shao, X. Huang, Adv. Mater. 32 (2020) 1907112
|
[10] |
W. Wang, S. Sun, Q. An, L. Zhang, J. Liu, I. Goddard, A. Willioam, J. Mater. Chem. A. 5 (2017) 201-209
|
[11] |
V. Fourmond, C. J. Leger, Angew. Chem. Int. Ed. 56 (2017) 4388-4390
|
[12] |
Y. Shiraishi, M. Hashimoto, K. Chishiro, K. Moriyama, S. Tanaka, T. Hirai, J. Am. Chem. Soc. 142 (2020) 7574-7583
|
[13] |
X. Liu, H. Jang, P. Li, J. Wang, Angew. Chem. Int. Ed. 58 (2019) 13329-13334
|
[14] |
N. Cao, Z. Chen, K. Zang, J. Xu, G. Zheng, Nature Commun. 10 (2019) 2877
|
[15] |
K. Kugler, M. Luhn, J. A. Schramm, K. Rahimi, M. Wessling, Phys. Chem. Chem. phys. 17 (2015) 3768-3782
|
[16] |
H.-M. Liu, S. H. Han, Y. Zhao, Y. Y. Zhu, X.-L. Tian, J.-H. Zeng, J.-X. Jiang, B. Y. Xia, Y. Chen, J. Mater. Chem. A. 6 (2018) 3211-3217
|
[17] |
M.-M. Shi, D. Bao, B.-R. Wulan, Y.-H. Li, Y.-F. Zhang, J.-M. Yan, Q. J. Jiang, Adv. Mater. 29 (2017) 1606550
|
[18] |
H. Huang, L. Xia, X. Shi, A. M. Asiri, X. Sun, Chem. Commun. 54 (2018) 11427-11430
|
[19] |
M. Nazemi, S. R. Panikkanvalappil, M. A. El-Sayed, Nano. Energy 49 (2018) 316-323
|
[20] |
X. Li, T. Li, Y. Ma, Q. Wei, W. Qiu, H. Guo, X. Shi, P. Zhang, A. M. Asiri, L. Chen, B. Tang, X. Sun, Adv. Energy Mater. 8 (2018) 1801357
|
[21] |
X. Xu, X. Tian, B. Sun, Z. Liang, H. Cui, J. Tian, M. Shao, Appl. Catal. B 272 (2020) 118984
|
[22] |
S. Zhang, M. Jin, T. Shi, M. Han, Q. Sun, Y. Lin, Z. Ding, L. R. Zheng, G. Wang, Y. Zhang, H. Zhang, H. Zhao, Angew. Chem. Int. Ed. 59 (2020) 13423-13429
|
[23] |
L. Zeng, X. Li, S. Chen, J. Wen, W. Huang, J. Mater. Chem. A 8 (2020) 7339-7349
|
[24] |
C. Guo, X. Liu, L. Gao, X. Kuang, Appl. Catal. B 263 (2019) 118296
|
[25] |
X. Zhao, X. Zhang, Z. Xue, W. Chen, Z. Zhou, J. Mater. Chem. A 7 (2019) 27417-27422
|
[26] |
J. Zhang, Y. Ji, P. Wang, Q. Sha, Adv. Funct. Mater. 30 (2019) 1906579
|
[27] |
C. Li, Y. Fu, Z. Wu, J. Xia, Nanoscale 11 (2019) 12997-13006
|
[28] |
L. Zhang, X. Ji, X. Ren, Y. Ma, X. Shi, Z. Tian, A. M. Asiri, L. Chen, B. Tang, X. Sun, Adv. Mater. 30 (2018) 1800191
|
[29] |
L. Zhang, M. Cong, X. Ding, Y. Jin, F. Xu, Y. Wang, L. Chen, L. Zhang, Angew. Chem. Int Ed. 59 (2020) 10888-10893
|
[30] |
L. Zhang, X. Ren, Y. Luo, X. Shi, A. M. Asiri, X. Sun, Chem. Commun. 54 (2018) 12966-12969
|
[31] |
Y.-p. Liu, Y.-b. Li, H. Zhang, Inorg. Chem. 58 (2019) 10424-10431
|
[32] |
R. Ge, L. Li, J. Su, Y. Lin, Z. Tian, L. Chen, Adv. Energy Mater. 9 (2019) 1901313
|
[33] |
J. Su, R. Ge, K. Jiang, Y. Dong, F. Hao, Z. Tian, G. Chen, L. Che, Adv. Mater. 30 (2018) 1801351
|
[34] |
J. Su, R. Ge, K. Jiang, Y. Dong, F. Hao, Z. Tian, G. Chen, L. Chen, Appl. Catal. B-Environ. 267 (2020) 118693
|
[35] |
Z. Han, C. Choi, S. Hong, T.-S. Wu, Y. Soo, Y. Jung, J. Qiu, Z. Sun, Appl. Catal. B-Environ. 257 (2019) 117896
|
[36] |
Z. Sun, R. Huo, C. Choi, S. Hong, T.-S. Wu, J. Qiu, C. Yan, Z. Han, Y. Liu, Y.-L. Soo, Y. Jung, Nano Energy 62 (2019) 869-875
|
[37] |
A. Dutta, A. Kuzume, M. Rahama, S. Vesztergom, P. Broekmann, ACS Catal. 5 (2015) 7498-7502
|
[38] |
Y. Xu, L. Zheng, C. Yang, W. Zheng, X. Liu, J. Zhang, ACS Appl. Mater. Interfaces. 12 (2020) 20704-20713
|
[39] |
Q. Zeng, Y. Cui, L. Zhu, Y. Yao, Mater. Sci. Semicond. Process. 111 (2020) 104962
|
[40] |
X. Qu, L. Shen, Y. Mao, J. Lin, Y. Li, G. Li, Y. Zhang, Y. Jiang, S. Sun, ACS Appl. Mater. Interfaces. 11 (2019) 31869-31877
|
[41] |
C. J. Pelliccione, E. V. Timofeeva, C. U. Segre, J. Phys. Chem. C 120 (2016) 5331-5339
|
[42] |
Q. Shi, Y. Ji, W. Chen, Y. Zhu, J. Li, H. Liu, Z. Li, S. Tian, L. Wang, Z. Zhong, L. Wang, J. Ma, Y. Li, F. Su, Natl. Sci. Re. 7 (2020) 600-608
|
[43] |
Y. Orikasa, T. Ina, T. Nakao, A. Mineshige, K. Amezawa, M. Oishi, H. Arai, Z. Ogumi, Y. Uchimoto, Phys. Chem. Chem. Phys. 13 (2011) 16637-16643
|
[44] |
Y. Zhu, L. Zhang, B. Zhao, H. Chen, X. Liu, R. Zhao, X. Wang, J. Liu, Y. Chen, M. Liu, Adv. Funct. Mater. 29 (2019) 1901783
|