Chem. J. Chinese Universities ›› 2021, Vol. 42 ›› Issue (5): 1501.doi: 10.7503/cjcu20200679
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GAO Juan1, SUN Quanhu1,2, HUANG Changshui1,2()
Received:
2020-09-14
Online:
2021-05-10
Published:
2020-11-27
Contact:
HUANG Changshui
E-mail:huangcs@qibebt.ac.cn
Supported by:
CLC Number:
TrendMD:
GAO Juan, SUN Quanhu, HUANG Changshui. Graphdiyne-based Nanostructured Materials and Their Applications in Energy Storage and Conversion[J]. Chem. J. Chinese Universities, 2021, 42(5): 1501.
1 | Inagaki M., Qiu J., Guo Q., Carbon, 2015, 87, 128—152 |
2 | Luo Y., Yan Y., Zheng S., Xue H., Pang H., J. Mater. Chem. A, 2019, 7(3), 901—924 |
3 | Chen J., Wu F., Appl. Phys. A⁃Mater., 2004, 78(7), 989—994 |
4 | Sun L., Wang X., Wang Y., Zhang Q., Carbon, 2017, 122, 462—474 |
5 | El⁃Kady M. F., Shao Y., Kaner R. B., Nat. Rev. Mater., 2016, 1(7), 16033 |
6 | Jain V., Kandasubramanian B., J. Mater. Sci., 2020, 55(5), 1865—1903 |
7 | Wang Z., Gao H., Zhang Q., Liu Y., Chen J., Guo Z., Small, 2019, 15(3), 1803858 |
8 | Wu S., Xu R., Lu M., Ge R., Iocozzia J., Han C., Jiang B., Lin Z., Adv. Energy Mater., 2015, 5(21), 1500400 |
9 | Seman R. N. A. R., Azam M. A., Mohamad A. A., Renew. Sust. Energy Rev., 2017, 75, 644—659 |
10 | Zhang R., Palumbo A., Kim J. C., Ding J., Yang E.H., Annalen Der Physik, 2019, 531(10), 1800507 |
11 | Abdullah M., Kamarudin S. K., Renew. Sust. Energy Rev.,2017, 76, 212—225 |
12 | Lu Z., Raad R., Safaei F., Xi J., Liu Z., Foroughi J., Front. Mater., 2019, 6, 138 |
13 | Afzal A., Abuilaiwi F. A., Habib A., Awais M., Waje S. B., Atieh M. A., J. Power Sources, 2017, 352, 174—186 |
14 | Jang Y., Kim S. M., Spinks G. M., Kim S. J., Adv. Mater., 2020, 32(5), 1902670 |
15 | Jia Z., Li Y., Zuo Z., Liu H., Huang C., Li Y., Acc. Chem. Res., 2017, 50(10), 2470—2478 |
16 | Huang C., Li Y., Wang N., Xue Y., Zuo Z., Liu H., Li Y., Chem. Rev., 2018, 118(16), 7744—7803 |
17 | Li G., Li Y., Liu H., Guo Y., Li Y., Zhu D., Chem. Commun., 2010, 46(19), 3256—3258 |
18 | Zhang H., Zhao M., He X., Wang Z., Zhang X., Liu X., J. Phys. Chem. C, 2011, 115(17), 8845—8850 |
19 | Jang B., Koo J., Park M., Lee H., Nam J., Kwon Y., Lee H., Appl. Phys. Lett., 2013, 103(26), 263904 |
20 | Srinivasu K., Ghosh S. K., J. Phys. Chem. C, 2012, 116(9), 5951—5956 |
21 | Zhang H., Xia Y., Bu H., Wang X., Zhang M., Luo Y., Zhao M., J. Appl. Phys., 2013, 113(4), 263904 |
22 | Du H., Zhang Z., He J., Cui Z., Chai J., Ma J., Yang Z., Huang C., Cui G., Small, 2017, 13(44), 1702277 |
23 | Huang C., Zhang S., Liu H., Li Y., Cui G., Li Y., Nano Energy, 2015, 11, 481—489 |
24 | Li X., Wang N., He J., Yang Z., Tu Z., Zhao F., Wang K., Yi Y., Huang C., Carbon, 2020, 162, 579—585 |
25 | Shen X., Li X., Zhao F., Wang N., Xie C., He J., Si W., Yi Y., Yang Z., Li X., Lu F., Huang C., 2D Materials, 2019, 6(3), 035020 |
26 | Shen X., He J., Wang K., Li X., Wang X., Yang Z., Wang N., Zhang Y., Huang C., ChemSusChem, 2019, 12(7), 1342—1348 |
27 | Yang Z., Shen X., Wang N., He J., Li X., Wang X., Hou Z., Wang K., Gao J., Jiu T., Huang C., ACS Appl. Mater. Interfaces, 2019, 11(3), 2608—2617 |
28 | Zhao F., Wang N., Zhang M., Sapi A., Yu J., Li X., Cui W., Yang Z., Huang C., Chem. Commun., 2018, 54(47), 6004—6007 |
29 | Shen X., Yang Z., Wang K., Wang N., He J., Du H., Huang C., ChemElectrochem, 2018, 5(11), 1435—1443 |
30 | Wang N., Li X., Tu Z., Zhao F., He J., Guan Z., Huang C., Yi Y., Li Y., Angew. Chem. Int. Ed., 2018, 57(15), 3968—3973 |
31 | Malko D., Neiss C., Vines F., Goerling A., Phys. Rev. Lett.,2012, 108(8), 086804 |
32 | Kang J., Wei Z., Li J., ACS Appl. Mater. Interfaces, 2019, 11(3), 2692—2706 |
33 | Cranford S. W., Brommer D. B., Buehler M. J., Nanoscale, 2012, 4(24), 7797—7809 |
34 | Zhou J., Gao X., Liu R., Xie Z., Yang J., Zhang S., Zhang G., Liu H., Li Y., Zhang J., Liu Z., J. Am. Chem. Soc., 2015, 137(24), 7596—7599 |
35 | Li J., Xu J., Xie Z., Gao X., Zhou J., Xiong Y., Chen C., Zhang J., Liu Z., Adv. Mater.,2018, 30(20), 1800548 |
36 | Shang H., Zuo Z., Li L., Wang F., Liu H., Li Y., Li Y., Angew. Chem. Int. Ed., 2018, 57(3), 774—778 |
37 | Yu H., Xue Y., Huang B., Hui L., Zhang C., Fang Y., Liu Y., Zhao Y., Li Y., Liu H., Li Y., iScience, 2019, 11, 31—41 |
38 | Si W., Yang Z., Wang X., Lv Q., Zhao F., Li X., He J., Long Y., Gao J., Huang C., ChemSusChem, 2019, 12(1), 173—178 |
39 | Lv Q., Wang N., Si W., Hou Z., Li X., Wang X., Zhao F., Yang Z., Zhang Y., Huang C., Appl. Catal. B: Environ.,2020, 261, 118234 |
40 | He J., Wang N., Cui Z., Du H., Fu L., Huang C., Yang Z., Shen X., Yi Y., Tu Z., Li Y., Nat. Commun., 2017, 8, 1172 |
41 | Qian X., Ning Z., Li Y., Liu H., Ouyang C., Chen Q., Li Y., Dalton Trans., 2012, 41(3), 730—733 |
42 | Xue Y., Guo Y., Yi Y., Li Y., Liu H., Li D., Yang W., Li Y., Nano Energy, 2016, 30, 858—866 |
43 | Lv Q., Si W., He J., Sun L., Zhang C., Wang N., Yang Z., Li X., Wang X., Deng W., Long Y., Huang C., Li Y., Nat. Commun., 2018, 9, 3376 |
44 | Gao J., He J., Wang N., Li X., Yang Z., Wang K., Chen Y., Zhang Y., Huang C., Chem. Eng. J.,2019, 373, 660—667 |
45 | Yu H. D., Xue Y. R., Hui L., He F., Zhang C., Liu Y. X., Fang Y., Xiang C. Y., Li Y. J., Liu H. B., Li Y. L., Nano Energy, 2019, 64, 9, 103928 |
46 | Wang K., Wang N., He J., Yang Z., Shen X., Huang C., Electrochim. Acta, 2017, 253, 506—516 |
47 | Matsuoka R., Sakamoto R., Hoshiko K., Sasaki S., Masunaga H., Nagashio K., Nishihara H., J. Am. Chem. Soc., 2017, 139(8), 3145—3152 |
48 | Shang H., Zuo Z., Yu L., Wang F., He F., Li Y., Adv. Mater., 2018, 30(27), 1801459 |
49 | Wang K., Wang N., He J., Yang Z., Shen X., Huang C., ACS Appl. Mater. Interfaces, 2017, 9(46), 40604—40613 |
50 | Xue Y., Huang B., Yi Y., Guo Y., Zuo Z., Li Y., Jia Z., Liu H., Li Y., Nat. Commun., 2018, 9(1), 1460 |
51 | Hui L., Xue Y., Yu H., Liu Y., Fang Y., Xing C., Huang B., Li Y., J. Am. Chem. Soc., 2019, 141(27), 10677—10683 |
52 | Yu H., Hui L., Xue Y., Liu Y., Fang Y., Xing C., Zhang C., Zhang D., Chen X., Du Y., Wang Z., Gao Y., Huang B., Li Y., Nano Energy, 2020, 72, 104667 |
53 | Lu T., He J., Li R., Wang K., Yang Z., Shen X., Li Y., Xiao J., Huang C., Energy Storage Mater., 2020, 29, 131—139 |
54 | Yang Z., Liu R. R., Wang N., He J. J., Wang K., Li X. D., Shen X. Y., Wang X., Lv Q., Zhang M. J., Luo J., Jiu T. G., Hou Z. F., Huang C. S., Carbon, 2018, 137, 442—450 |
55 | He J., Wang N., Yang Z., Shen X., Wang K., Huang C., Yi Y., Tu Z., Li Y., Energy & Environ. Sci., 2018, 11(10), 2893—2903 |
56 | Wang N., He J., Tu Z., Yang Z., Zhao F., Li X., Huang C., Wang K., Jiu T., Yi Y., Li Y., Angew. Chem. Int. Ed., 2017, 56(36), 10740—10745 |
57 | Li X., Wang N., He J., Yang Z., Zhao F., Wang K., Huang C., Small,2020, 16(26),1907013 |
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