Citation: | Qiao Luo, Congcong Lu, Lingran Liu, Maiyong Zhu. A review on the synthesis of transition metal nitride nanostructures and their energy related applications. Green Energy&Environment, 2023, 8(2): 406-437. doi: 10.1016/j.gee.2022.07.002 |
[1] |
X. Zhang, R.M. Kong, H. Du, L. Xia, F. Qu, Chem. Commun. 54 (2018) 5323-5325.
|
[2] |
Z.H. Sun, J.Q. Zhang, L.C. Yin, G.J. Hu, R.P. Fang, H.M. Cheng, F. Li, Nat. Commun. 8 (2017) 14627.
|
[3] |
Y. Liu, L. Liu, L. Kang, F. Ran, Energy Environ. Mater. 5 (2022) 565-571
|
[4] |
Z.H. Wen, S.M. Cui, H.H. Pu, S. Mao, K.H. Yu, X.L. Feng, J.H. Chen, Adv. Mater. 23 (2011) 5445-5450.
|
[5] |
S. Yang, J. Kim, Y.J. Tak, A. Soon, H. Lee, Angew. Chem., Int. Ed. 55 (2016) 2058-2062.
|
[6] |
A. Korobenko, S. Saha, A.T.K. Godfrey, M. Gertsvolf, A.Y. Naumov, D.M. Villeneuve, A. Boltasseva, V.M. Shalaev, P.B. Corkum, Nat. Commun. 12 (2021) 4981.
|
[7] |
M. Wu, X. Lin, Y. Wang, L. Wang, W. Guo, D. Qi, X. Peng, A. Hagfeldt, M. Gratzel, T. Ma, J. Am. Chem. Soc. 134 (2012) 3419-3428.
|
[8] |
P. Chanhom, K.E. Fritz, L.A. Burton, J. Kloppenburg, Y. Filinchuk, A. Senyshyn, M.Y. Wang, Z.X. Feng, N. Insin, J. Suntivich, G. Hautier, J. Am. Chem. Soc. 141 (2019) 10595-10598.
|
[9] |
J. Bendix, C. Anthon, M. Schau-Magnussen, T. Brock-Nannestad, J. Vibenholt, M. Rehman, S.P.A. Sauer, Angew. Chem., Int. Ed. 50 (2011) 4480-4483.
|
[10] |
R.S. Ningthoujam, N.S. Gajbhiye, Prog. Mater. Sci. 70 (2015) 50-154.
|
[11] |
B. Gao, X. Li, K. Ding, C. Huang, Q. Li, P.K. Chu, K. Huo, J. Mater. Chem. A 7 (2019) 14-37.
|
[12] |
H. Wang, J.M. Li, K. Li, Y.P. Lin, J.M. Chen, L.J. Gao, V. Nicolosi, X. Xiao, J.M. Lee, Chem. Soc. Rev. 50 (2021) 1354-1390.
|
[13] |
Y. Zhang, B. Ouyang, J. Xu, S. Chen, R.S. Rawat, H.J. Fan, Adv. Energy Mater. 6 (2016) 1600221.
|
[14] |
J.G. Chen, Chem. Rev. 96 (1996) 1477-1498.
|
[15] |
S. Xi, G. Lin, L. Jin, H. Li, K. Xie, Nat. Commun. 10 (2019) 4727.
|
[16] |
M.-S. Balogun, W. Qiu, W. Wang, P. Fang, X. Lu, Y. Tong, J. Mater. Chem. A 3 (2015) 1364-1387.
|
[17] |
A.-M. Alexander, J.S.J. Hargreaves, Chem. Soc. Rev. 39 (2010) 4388-4401.
|
[18] |
W.F. Chen, K. Sasaki, C. Ma, A.I. Frenkel, N. Marinkovic, J.T. Muckerman, Y.M. Zhu, R.R. Adzic, Angew. Chem., Int. Ed. 51 (2012) 6131-6135.
|
[19] |
D.H. Youn, S. Han, J.Y. Kim, J.Y. Kim, H. Park, S.H. Choi, J.S. Lee, ACS Nano 8 (2014) 5164-5173.
|
[20] |
X.B. Yang, W.Z. Liu, M. De Bastiani, T. Allen, J.X. Kang, H. Xu, E. Aydin, L.J. Xu, Q.Y. Bi, H. Dang, E. Alhabshi, K. Kotsovos, A. Alsaggaf, I. Gereige, Y.M. Wan, J. Peng, C. Samundsett, A. Cuevas, S. De Wolf, Joule 3 (2019) 1314-1327.
|
[21] |
G.R. Li, J. Song, G.L. Pan, X.P. Gao, Energy Environ. Sci. 4 (2011) 1680-1683.
|
[22] |
A.V. Linde, V.V. Grachev, R.M. Marin-Ayral, Chem. Eng. J. 155 (2009) 542-547.
|
[23] |
S.T. Oyama (Ed.), The chemistry of transition metal carbides and nitrides, Blackie Academic and Professional, Glasgow, 1996, pp. 1-27
|
[24] |
S. Wang, F. Ichihara, H. Pang, H. Chen, J. Ye, Adv. Funct. Mater. 28 (2018) 1803309.
|
[25] |
B. Cao, G.M. Veith, J.C. Neuefeind, R.R. Adzic, P.G. Khalifah, J. Am. Chem. Soc. 135 (2013) 19186-19192.
|
[26] |
B. Liu, J. Cheng, H.Q. Peng, D. Chen, X. Cui, D. Shen, K. Zhang, T. Jiao, M. Li, C.S. Lee, W. Zhang, J. Mater. Chem. A 7 (2019) 775-782.
|
[27] |
Y. Li, R. Horia, W.X. Tan, N. Larbaram, W.A. Sasangka, W. Manalastas, S. Madhavi, K.W. Tan, Langmuir 36 (2020) 10803-10810.
|
[28] |
S. He, Y. Chen, M. Wang, K. Liu, P. Novello, X. Li, S. Zhu, J. Liu, Nano Energy 80 (2021) 105528.
|
[29] |
Y. Lu, M. Zhao, Y. Yang, M. Zhang, N. Zhang, H. Yan, T. Peng, X. Liu, Y. Luo, Nanoscale Horiz. (2022) 543-553.
|
[30] |
J. Zheng, W. Zhang, J. Zhang, M. Lv, S. Li, H. Song, Z. Cui, L. Du, S. Liao, J. Mater. Chem. A 8 (2020) 20803-20818.
|
[31] |
Z. Cheng, W. Qi, C.H. Pang, T. Thomas, T. Wu, S. Liu, M. Yang, Adv. Funct. Mater. 31 (2021) 2100553.
|
[32] |
X. Peng, C. Pi, X. Zhang, S. Li, K. Huo, P.K. Chu, Sustainable Energy Fuels 3 (2019) 366-381.
|
[33] |
X. Yu, T. Zhou, J. Ge, C. Wu, ACS Mater. Lett. 2 (2020) 1423-1434.
|
[34] |
Y. Zheng, X. Li, C. Pi, H. Song, B. Gao, P.K. Chu, K. Huo, FlatChem 19 (2020) 100149.
|
[35] |
S.A. Rounaghi, H. Eshghi, S. Scudino, A. Vyalikh, D.E.P. Vanpoucke, W. Gruner, S. Oswald, A.R. Kiani Rashid, M. Samadi Khoshkhoo, U. Scheler, J. Eckert, Sci. Rep. 6 (2016) 33375.
|
[36] |
Y. Liu, Y. Wang, Y. Meng, R. Plamthottam, W.W. Tjiu, C. Zhang, T. Liu, ACS Appl. Mater. Interfaces 14 (2022) 4490-4499.
|
[37] |
L. Wang, K. Zhang, H. Pan, L. Wang, D. Wang, W. Dai, H. Qin, G. Li, J. Zhang, Nanoscale 10 (2018) 18936-18941.
|
[38] |
B. Soundiraraju, B.K. George, ACS Nano 11 (2017) 8892-8900.
|
[39] |
L. Ma, L.R.L. Ting, V. Molinari, C. Giordano, B.S. Yeo, J. Mater. Chem. A 3 (2015) 8361-8368.
|
[40] |
C. Giordano, C. Erpen, W. Yao, M. Antonietti, Nano Lett. 8 (2008) 4659-4663.
|
[41] |
T. Deepalakshmi, D.T. Tran, N.H. Kim, K.T. Chong, J.H. Lee, ACS Appl. Mater. Interfaces 10 (2018) 35847-35858.
|
[42] |
Q. Chen, R. Wang, M. Yu, Y. Zeng, F. Lu, X. Kuang, X. Lu, Electrochim. Acta 247 (2017) 666-673.
|
[43] |
K. Xu, P. Chen, X. Li, Y. Tong, H. Ding, X. Wu, W. Chu, Z. Peng, C. Wu, Y. Xie, J. Am. Chem. Soc. 137 (2015) 4119-4125.
|
[44] |
W. Li, C.-Y. Cao, C.-Q. Chen, Y. Zhao, W.-G. Song, L. Jiang, Chem. Commun. 47 (2011) 3619-3621.
|
[45] |
B. Cao, J.C. Neuefeind, R.R. Adzic, P.G. Khalifah, Inorg. Chem. 54 (2015) 2128-2136.
|
[46] |
Y.Q. Wang, B.H. Zhang, W. Pan, H.Y. Ma, J.T. Zhang, Chemsuschem 10 (2017) 4170-4177.
|
[47] |
P. Zhou, X. Lv, D. Xing, F. Ma, Y. Liu, Z. Wang, P. Wang, Z. Zheng, Y. Dai, B. Huang, Appl. Catal., B 263 (2020) 118330.
|
[48] |
Y. Wei, J. Bu, H. Wei, Y. Cui, Y. Yu, Z. Dong, J. Synth. Cryst. 44 (2015) 1838-1842.
|
[49] |
Y.J. Lee, D.Y. Kim, K.H. Lee, M.H. Han, K.S. Kang, K.K. Bae, J.H. Lee, Nanoscale Res. Lett. 8 (2013) 126.
|
[50] |
P. Urbankowski, B. Anasori, K. Hantanasirisakul, L. Yang, L. Zhang, B. Haines, S.J. May, S.J.L. Billinge, Y. Gogotsi, Nanoscale 9 (2017) 17722-17730.
|
[51] |
W. Yan, Z. Zhang, Y. Zhang, L. Chen, X. Zhang, B. Liao, M. Ying, Surf. Interfaces 26 (2021) 101426.
|
[52] |
X. Liu, I.S. Amiinu, S. Liu, Z. Pu, W. Li, B. Ye, D. Tan, S. Mu, Adv. Mater. Interfaces 4 (2017) 1601227.
|
[53] |
V. Glibin, G.X. Zhang, J.P. Dodelet, S.H. Sun, J. Electrochem. Soc. 168 (2021) 094502.
|
[54] |
Y.P. Fan, K.G. Liu, A. Ali, X.F. Chen, P.K. Shen, Electrochim. Acta 384 (2021) 138187.
|
[55] |
T. Nakamura, H. Hayashi, T. Ebina, J. Nanopart. Res. 16 (2014) 2699.
|
[56] |
A. Gomathi, C.N.R. Rao, Mater. Res. Bull. 41 (2006) 941-947.
|
[57] |
S.H. Park, T.H. Jo, M.H. Lee, K. Kawashima, C.B. Mullins, H.-K. Lim, D.H. Youn, J. Mater. Chem. A 9 (2021) 4945-4951.
|
[58] |
A. Lundstrom, B. Andersson, L. Olsson, Chem. Eng. J. 150 (2009) 544-550.
|
[59] |
L. Costa, G. Camino, J. Therm. Anal. 34 (1988) 423-429.
|
[60] |
H.Z. Zhao, M. Lei, X.L. Chen, W.H. Tang, J. Mater. Chem. 16 (2006) 4407-4412.
|
[61] |
X. Ma, X. Xiong, J. Zeng, P. Zou, Z. Lin, M. Liu, J. Mater. Chem. A 8 (2020) 6768-6775.
|
[62] |
M. Lu, M. Zhang, C.G. Liu, J. Liu, L.J. Shang, M. Wang, J.N. Chang, S.L. Li, Y.Q. Lan, Angew. Chem., Int. Ed. 60 (2021) 4864-4871.
|
[63] |
T. Nyokong, J. Porphyrins Phthalocyanines 12 (2008) 1005-1021.
|
[64] |
J.M. Liu, C.B. Wang, H.M. Sun, H. Wang, F.L. Rong, L.H. He, Y.F. Lou, S. Zhang, Z.H. Zhang, M. Du, Appl. Catal., B 279 (2020) 119407.
|
[65] |
H. Su, S. Zhou, X. Zhang, H. Sun, H. Zhang, Y. Xiao, K. Yu, Z. Dong, X. Dai, X. Huang, Dalton Transactions 47 (2018) 16567-16577.
|
[66] |
P. Yang, R. Wang, H. Tao, Y. Zhang, M.-M. Titirici, X. Wang, Appl. Catal., B 280 (2021) 119454.
|
[67] |
A. Fischer, J.O. Muller, M. Antonietti, A. Thomas, ACS Nano 2 (2008) 2489-2496.
|
[68] |
S. Dutta, A. Indra, Y. Feng, H. Han, T. Song, Appl. Catal., B 241 (2019) 521-527.
|
[69] |
K.S. Novoselov, A.K. Geim, S.V. Morozov, D. Jiang, Y. Zhang, S.V. Dubonos, I.V. Grigorieva, A.A. Firsov, Science 306 (2004) 666-669.
|
[70] |
H. Sun, X. Kong, H. Park, F. Liu, Z. Lee, F. Ding, Adv. Mater. 34 (2022) 2107587.
|
[71] |
S.M. Wang, H. Ge, W.P. Han, Y.J. Li, J.Z. Zhang, X.H. Yu, J.Q. Qin, Z.W. Quan, X.D. Wen, X.K. Li, L.P. Wang, L.L. Daemen, D.W. He, Y.S. Zhao, J. Phys. Chem. C 121 (2017) 19451-19460.
|
[72] |
N. Fechler, T.P. Fellinger, M. Antonietti, Chem. Mater. 24 (2012) 713-719.
|
[73] |
T. Welton, Chem. Rev. 99 (1999) 2071-2083.
|
[74] |
R.P. Swatloski, S.K. Spear, J.D. Holbrey, R.D. Rogers, J. Am. Chem. Soc. 124 (2002) 4974-4975.
|
[75] |
L. Crowhurst, P.R. Mawdsley, J.M. Perez-Arlandis, P.A. Salter, T. Welton, Phys. Chem. Chem. Phys. 5 (2003) 2790-2794.
|
[76] |
T. Jin, X. Sang, R.R. Unocic, R.T. Kinch, X. Liu, J. Hu, H. Liu, S. Dai, Adv. Mater. 30 (2018) 1707512.
|
[77] |
X. Pan, X. Song, S. Lin, K. Bi, Y. Hao, Y. Du, J. Liu, D. Fan, Y. Wang, M. Lei, Ceram. Int. 42 (2016) 16017-16022.
|
[78] |
Q. Chen, X. Li, R. Xie, L. Xu, L. Liu, Ceram. Int. 46 (2020) 2580-2584.
|
[79] |
Y. Li, K. Xiao, J. Li, P. Jiang, Y. Jiang, S. Du, Y. Leng, ChemCatChem 10 (2018) 4317-4323.
|
[80] |
J. Choi, E.G. Gillan, Inorg. Chem. 44 (2005) 7385-7393.
|
[81] |
J. Choi, E.G. Gillan, Inorg. Chem. 48 (2009) 4470-4477.
|
[82] |
X. Meng, W. Qi, W. Kuang, S. Adimi, H. Guo, T. Thomas, S. Liu, Z. Wang, M. Yang, J. Mater. Chem. A 8 (2020) 15774-15781.
|
[83] |
D.D. Vaughn Ii, J. Araujo, P. Meduri, J.F. Callejas, M.A. Hickner, R.E. Schaak, Chem. Mater. 26 (2014) 6226-6232.
|
[84] |
W. Lei, Y. Liu, X. Si, J. Xu, W. Du, J. Yang, T. Zhou, J. Lin, Phys. Lett. A 381 (2017) 314-318.
|
[85] |
H. Qi, X. Roy, K.E. Shopsowitz, J.K.H. Hui, M.J. Maclachlan, Angew. Chem., Int. Ed. 49 (2010) 9740-9743.
|
[86] |
Y.S. Liu, Y.L. Bai, X. Liu, C. Ma, X.Y. Wu, X. Wei, Z. Wang, K.X. Wang, J.S. Chen, Chem. Eng. J. 378 (2019) 122208.
|
[87] |
A. Djire, P. Pande, A. Deb, J.B. Siegel, O.T. Ajenifujah, L. He, A.E. Sleightholme, P.G. Rasmussen, L.T. Thompson, Nano Energy 60 (2019) 72-81.
|
[88] |
M. Chen, H. Fan, Y. Zhang, X. Liang, Q. Chen, X. Xia, Small 16 (2020) 2003434.
|
[89] |
Y. Liu, L. Liu, L. Kang, F. Ran, J. Power Sources 450 (2020) 227687.
|
[90] |
Y.Q. Zhang, B. Ouyang, J. Xu, G.C. Jia, S. Chen, R.S. Rawat, H.J. Fan, Angew. Chem., Int. Ed. 55 (2016) 8670-8674.
|
[91] |
H. Zhang, W. Hu, B. Wei, J. Zheng, Z. Qi, Z. Wang, Ceram. Int. 47 (2021) 3267-3271.
|
[92] |
P. Chen, K. Xu, Z. Fang, Y. Tong, J. Wu, X. Lu, X. Peng, H. Ding, C. Wu, Y. Xie, Angew. Chem., Int. Ed. 54 (2015) 14710-14714.
|
[93] |
Y. Wang, D. Liu, Z. Liu, C. Xie, J. Huo, S. Wang, Chem. Commun. 52 (2016) 12614-12617.
|
[94] |
R. Adalati, A. Kumar, M. Sharma, P. Tiwari, R. Chandra, Appl. Phys. Lett. 117 (2020) 123904.
|
[95] |
Y. Fang, D. Sun, S. Niu, J. Cai, Y. Zang, Y. Wu, L. Zhu, Y. Xie, Y. Liu, Z. Zhu, A. Mosallanezhad, D. Niu, Z. Lu, J. Shi, X. Liu, D. Rao, G. Wang, Y. Qian, Sci. China: Chem. 63 (2020) 1563-1569.
|
[96] |
X.D. Jia, Y.F. Zhao, G.B. Chen, L. Shang, R. Shi, X.F. Kang, G.I.N. Waterhouse, L.Z. Wu, C.H. Tung, T.R. Zhang, Adv. Energy Mater. 6 (2016) 1502585.
|
[97] |
G. Jaysiva, S. Manavalan, S.M. Chen, P. Veerakumar, M. Keerthi, H.S. Tu, ACS Sustainable Chem. Eng. 8 (2020) 11088-11098.
|
[98] |
S. Joshi, Q. Wang, A. Puntambekar, V. Chakrapani, ACS Energy Lett. 2 (2017) 1257-1262.
|
[99] |
G. Durai, P. Kuppusami, T. Maiyalagan, M. Ahila, P. Vinoth Kumar, Ceram. Int. 45 (2019) 17120-17127.
|
[100] |
H.E. Cheng, W.J. Lee, C.M. Hsu, Thin Solid Films 485 (2005) 59-65.
|
[101] |
J.S. Park, S.W. Kang, H. Kim, J. Vac. Sci. Technol., B 24 (2006) 1327-1332.
|
[102] |
C. Zhu, P. Yang, D. Chao, X. Wang, X. Zhang, S. Chen, B.K. Tay, H. Huang, H. Zhang, W. Mai, H.J. Fan, Adv. Mater. 27 (2015) 4566-4571.
|
[103] |
X. Liu, W. Zang, C. Guan, L. Zhang, Y. Qian, A.M. Elshahawy, D. Zhao, S.J. Pennycook, J. Wang, ACS Energy Lett. 3 (2018) 2462-2469.
|
[104] |
G.F. Zou, J. Zhao, H.M. Luo, T.M. Mccleskey, A.K. Burrell, Q.X. Jia, Chem. Soc. Rev. 42 (2013) 439-449.
|
[105] |
G. Zou, M. Jain, H. Zhou, H. Luo, S.A. Baily, L. Civale, E. Bauer, T.M. Mccleskey, A.K. Burrell, Q. Jia, Chem. Commun. (2008) 6022-6024.
|
[106] |
H.M. Luo, Y. Lin, H.Y. Wang, J.H. Lee, N.A. Suvorova, A.H. Mueller, A.K. Burrell, T.M. Mccleskey, E. Bauer, I.O. Usov, M.E. Hawley, T.G. Holesinger, Q.X. Jia, Adv. Mater. 21 (2009) 193-197.
|
[107] |
H. Luo, H. Wang, Z. Bi, D.M. Feldmann, Y. Wang, A.K. Burrell, T.M. Mccleskey, E. Bauer, M.E. Hawley, Q. Jia, J. Am. Chem. Soc. 130 (2008) 15224-15225.
|
[108] |
N. Yao, R. Meng, F. Wu, Z.Y. Fan, G.Z. Cheng, W. Luo, Appl. Catal., B 277 (2020) 119282.
|
[109] |
H. Yang, P. Ning, H. Cao, M. Yuan, J. Feng, J. Yue, Z. Liu, G. Xu, Y. Li, Electrochim. Acta 332 (2020) 135387.
|
[110] |
F.P. Liu, J. Guan, T. Wei, S. Wang, M.Z. Jiao, S.F. Yang, Inorg. Chem. 52 (2013) 3814-3822.
|
[111] |
R. Navarro-Gonzalez, C.P. Mckay, D.N. Mvondo, Nature 412 (2001) 61-64.
|
[112] |
M. Arif, A. Sanger, A. Singh, Mater. Lett. 220 (2018) 213-217.
|
[113] |
G. Durai, P. Kuppusami, T. Maiyalagan, J. Theerthagiri, P. Vinoth Kumar, H.-S. Kim, Ceram. Int. 45 (2019) 12643-12653.
|
[114] |
S.M. George, Chem. Rev. 110 (2010) 111-131.
|
[115] |
T. Suntola, J. Hyvarinen, Annu. Rev. Mater. Sci. 15 (1985) 177-195.
|
[116] |
M. Wang, F. Zhang, C.-S. Lee, Y. Tang, Adv. Energy Mater. 7 (2017) 1700536.
|
[117] |
J. Zhuo, M. Caban-Acevedo, H. Liang, L. Samad, Q. Ding, Y. Fu, M. Li, S. Jin, ACS Catal. 5 (2015) 6355-6361.
|
[118] |
B. Sahoo, D. Formenti, C. Topf, S. Bachmann, M. Scalone, K. Junge, M. Beller, Chemsuschem 10 (2017) 3035-3039.
|
[119] |
M.-S. Balogun, Y. Huang, W. Qiu, H. Yang, H. Ji, Y. Tong, Materials Today 20 (2017) 425-451.
|
[120] |
Z.G. Xue, L. Lv, Y. Tian, S.W. Tan, Q.X. Ma, K. Tao, L. Han, ACS Appl. Nano Mater. 4 (2021) 3033-3043.
|
[121] |
B. Wang, Z. Chen, G. Lu, T. Wang, Y. Ge, Mater. Res. Bull. 76 (2016) 37-40.
|
[122] |
Y. Zhou, W. Guo, T. Li, Ceram. Int. 45 (2019) 21062-21076.
|
[123] |
P. Kossyrev, J. Power Sources 201 (2012) 347-352.
|
[124] |
Z. Yang, J. Tian, Z. Yin, C. Cui, W. Qian, F. Wei, Carbon 141 (2019) 467-480.
|
[125] |
C. An, Y. Zhang, H. Guo, Y. Wang, Nanoscale Adv. 1 (2019) 4644-4658.
|
[126] |
K. Subramani, N. Sudhan, R. Divya, M. Sathish, RSC Adv. 7 (2017) 6648-6659.
|
[127] |
W. Yuan, L. Cheng, H. Wu, Y. Zhang, S. Lv, X. Guo, Chem. Commun. 54 (2018) 2755-2758.
|
[128] |
J. Xu, N. Yang, S. Yu, A. Schulte, H. Schonherr, X. Jiang, Nanoscale 12 (2020) 13618-13625.
|
[129] |
K.D. Fong, T. Wang, S.K. Smoukov, Sustainable Energy Fuels 1 (2017) 1857-1874.
|
[130] |
H. Liu, Q. Zhao, K. Wang, Z. Lu, F. Feng, Y. Guo, RSC Adv. 9 (2019) 6890-6897.
|
[131] |
L.L. Xing, K.J. Huang, L.X. Fang, Dalton Trans. 45 (2016) 17439-17446.
|
[132] |
D.P. Dubal, N.R. Chodankar, S. Qiao, Small 15 (2019) 1804104.
|
[133] |
H. Peng, X. Dai, K. Sun, X. Xie, F. Wang, G. Ma, Z. Lei, New J. Chem. 43 (2019) 12623-12629.
|
[134] |
Y. Yu, W. Gao, Z. Shen, Q. Zheng, H. Wu, X. Wang, W. Song, K. Ding, J. Mater. Chem. A 3 (2015) 16633-16641.
|
[135] |
K. Li, B. Zhao, H. Zhang, H. Lv, J. Bai, H. Ma, P. Wang, W. Li, J. Si, X. Zhu, Y. Sun, Adv. Funct. Mater. 31 (2021) 2103073.
|
[136] |
A. Djire, J.B. Siegel, O. Ajenifujah, L. He, L.T. Thompson, Nano Energy 51 (2018) 122-127.
|
[137] |
X. Xiao, H. Yu, H. Jin, M. Wu, Y. Fang, J. Sun, Z. Hu, T. Li, J. Wu, L. Huang, Y. Gogotsi, J. Zhou, ACS Nano 11 (2017) 2180-2186.
|
[138] |
O. Bondarchuk, A. Morel, D. Belanger, E. Goikolea, T. Brousse, R. Mysyk, J. Power Sources 324 (2016) 439-446.
|
[139] |
X. Lu, M. Yu, T. Zhai, G. Wang, S. Xie, T. Liu, C. Liang, Y. Tong, Y. Li, Nano Lett. 13 (2013) 2628-2633.
|
[140] |
J. Shi, B. Jiang, Z. Liu, C. Li, F. Yan, X. Liu, H. Li, Chaoyang, D. Dong, Ceram. Int. 47 (2021) 18540-18549.
|
[141] |
B. Wei, H. Liang, D. Zhang, Z. Wu, Z. Qi, Z. Wang, J. Mater. Chem. A 5 (2017) 2844-2851.
|
[142] |
B. Wei, H. Liang, D. Zhang, Z. Qi, H. Shen, Z. Wang, Mater. Renew. Sust. Energy 7 (2018) 11.
|
[143] |
P. Yang, D. Chao, C. Zhu, X. Xia, Y. Zhang, X. Wang, P. Sun, B.K. Tay, Z.X. Shen, W. Mai, H.J. Fan, Adv. Sci. 3 (2016) 1500299.
|
[144] |
R. Prakash, A. Kumar, A. Pandey, D. Kaur, Int. J. Hydrogen Energy 44 (2019) 10823-10832.
|
[145] |
H. Cui, G. Zhu, X. Liu, F. Liu, Y. Xie, C. Yang, T. Lin, H. Gu, F. Huang, Adv. Sci. 2 (2015) 1500126.
|
[146] |
H. Shen, B. Wei, D. Zhang, Z. Qi, Z. Wang, Mater. Lett. 229 (2018) 17-20.
|
[147] |
J. Huang, Z. Peng, Y. Xiao, Y. Xu, L. Chen, Y. Xiong, L. Tan, K. Yuan, Y. Chen, Adv. Sci. 6 (2019) 1900550.
|
[148] |
X. Ma, L. Huang, F. Wu, S. Xiong, B. Xi, Eur. J. Inorg. Chem. (2016) 3722-3727.
|
[149] |
J.M. Clark, P. Barpanda, A. Yamada, M.S. Islam, J. Mater. Chem. A 2 (2014) 11807-11812.
|
[150] |
M. Ma, S. Zhang, Y. Yao, H. Wang, H. Huang, R. Xu, J. Wang, X. Zhou, W. Yang, Z. Peng, X. Wu, Y. Hou, Y. Yu, Adv. Mater. 32 (2020) 2000958.
|
[151] |
M. Ding, P. Wang, Z. Zhang, L. Yin, ACS Appl. Energy Mater. 4 (2020) 61-71.
|
[152] |
M.-S. Balogun, Y. Zeng, W. Qiu, Y. Luo, A. Onasanya, T.K. Olaniyi, Y. Tong, J. Mater. Chem. A 4 (2016) 9844-9849.
|
[153] |
Y. Dong, Y. Li, H. Shi, J. Qin, S. Zheng, R. He, Z.-S. Wu, Carbon 159 (2020) 213-220.
|
[154] |
L. Xu, P. Xiong, L. Zeng, R. Liu, J. Liu, F. Luo, X. Li, Q. Chen, M. Wei, Q. Qian, Nanoscale 12 (2020) 10693-10702.
|
[155] |
W. Shi, B. Hu, H. Zhang, J. Li, J. Yang, J. Liu, ACS Appl. Energy Mater. 3 (2020) 12652-12661.
|
[156] |
B.G. Kim, C. Jo, J. Shin, Y. Mun, J. Lee, J.W. Choi, ACS Nano 11 (2017) 1736-1746.
|
[157] |
W.-B. Luo, T.V. Pham, H.-P. Guo, H.-K. Liu, S.-X. Dou, ACS Nano 11 (2017) 1747-1754.
|
[158] |
L. Leng, J. Li, X. Zeng, X. Tian, H. Song, Z. Cui, T. Shu, H. Wang, J. Ren, S. Liao, Nanoscale 10 (2018) 2983-2989.
|
[159] |
G. He, X. Han, B. Moss, Z. Weng, S. Gadipelli, F. Lai, A.G. Kafizas, D.J.L. Brett, Z.X. Guo, H. Wang, I.P. Parkin, Energy Storage Mater. 15 (2018) 380-387.
|
[160] |
X.L. Tian, L. Wang, B. Chi, Y. Xu, S. Zaman, K. Qi, H. Liu, S. Liao, B.Y. Xia, ACS Catal. 8 (2018) 8970-8975.
|
[161] |
L. Chen, Y. Zhang, X. Liu, L. Long, J. Jia, Carbon 151 (2019) 10-17.
|
[162] |
N. Mosavati, S.O. Salley, K.Y.S. Ng, J. Power Sources 340 (2017) 210-216.
|
[163] |
G. Jiang, F. Xu, S. Yang, J. Wu, B. Wei, H. Wang, J. Power Sources 395 (2018) 77-84.
|
[164] |
Y. Xie, J. Cai, Y. Wu, Y. Zang, X. Zheng, J. Ye, P. Cui, S. Niu, Y. Liu, J. Zhu, X. Liu, G. Wang, Y. Qian, Adv. Mater. 31 (2019) 1807780.
|
[165] |
A. Kulkarni, S. Siahrostami, A. Patel, J.K. Norskov, Chem. Rev. 118 (2018) 2302-2312.
|
[166] |
S. Li, C. Xi, Y.-Z. Jin, D. Wu, J.-Q. Wang, T. Liu, H.-B. Wang, C.-K. Dong, H. Liu, S.A. Kulinich, X.-W. Du, ACS Energy Lett. 4 (2019) 1823-1829.
|
[167] |
J. Xie, Y. Xie, Chem. - Eur. J. 22 (2016) 3588-3598.
|
[168] |
Y. Men, P. Li, J. Zhou, G. Cheng, S. Chen, W. Luo, ACS Catal. 9 (2019) 3744-3752.
|
[169] |
M. Shalom, D. Ressnig, X. Yang, G. Clavel, T.P. Fellinger, M. Antonietti, J. Mater. Chem. A 3 (2015) 8171-8177.
|
[170] |
L. Han, K. Feng, Z. Chen, Energy Technol. 5 (2017) 1908-1911.
|
[171] |
J. Lai, B. Huang, Y. Chao, X. Chen, S. Guo, Adv. Mater. 31 (2019) 1805541.
|
[172] |
F. Song, W. Li, J. Yang, G. Han, T. Yan, X. Liu, Y. Rao, P. Liao, Z. Cao, Y. Sun, ACS Energy Lett. 4 (2019) 1594-1601.
|
[173] |
M. Chen, D. Liu, B. Zi, Y. Chen, D. Liu, X. Du, F. Li, P. Zhou, Y. Ke, J. Li, K.H. Lo, C.T. Kwok, W.F. Ip, S. Chen, S. Wang, Q. Liu, H. Pan, J. Energy Chem. 65 (2022) 405-414.
|
[174] |
H. Yang, Y. Hu, D. Huang, T. Xiong, M. Li, M.S. Balogun, Y. Tong, Mater. Today Chem. 11 (2019) 1-7.
|
[175] |
N. Zhang, L. Cao, L. Feng, J. Huang, K. Kajiyoshi, C. Li, Q. Liu, D. Yang, J. He, Nanoscale 11 (2019) 11542-11549.
|
[176] |
J. Xie, S. Li, X. Zhang, J. Zhang, R. Wang, H. Zhang, B. Pan, Y. Xie, Chem. Sci. 5 (2014) 4615-4620.
|
[177] |
Y. Zhu, G. Chen, X. Xu, G. Yang, M. Liu, Z. Shao, ACS Catal. 7 (2017) 3540-3547.
|
[178] |
C. Wang, H. Shi, H. Liu, J. Fu, D. Wei, W. Zeng, Q. Wan, G. Zhang, H. Duan, Electrochim. Acta 292 (2018) 727-735.
|
[179] |
H. Zhang, X. Chen, Z. Lin, L. Zhang, H. Cao, L. Yu, G. Zheng, Int. J. Hydrogen Energy 45 (2020) 6461-6475.
|
[180] |
H.-P. Guo, B.-Y. Ruan, W.-B. Luo, J. Deng, J.-Z. Wang, H.-K. Liu, S.-X. Dou, ACS Catal. 8 (2018) 9686-9696.
|
[181] |
T. Xiong, X. Yao, Z. Zhu, R. Xiao, Y.-W. Hu, Y. Huang, S. Zhang, M.-S. Balogun, Small 18 (2022) 2105331.
|
[182] |
B. Liu, B. He, H.-Q. Peng, Y. Zhao, J. Cheng, J. Xia, J. Shen, T.-W. Ng, X. Meng, C.-S. Lee, W. Zhang, Adv. Sci. 5 (2018) 1800406.
|
[183] |
X. Chen, P. Gao, H. Liu, J. Xu, B. Zhang, Y. Zhang, Y. Tang, C. Xiao, Electrochim. Acta 267 (2018) 8-14.
|
[184] |
X. Wang, Q. Li, P. Shi, J. Fan, Y. Min, Q. Xu, Small 15 (2019) 1901530.
|
[185] |
T. Liu, S. Cai, Z. Mei, G. Zhao, L. Xu, Q. An, Y. Fu, H. Wang, M. Li, H. Guo, Sustainable Energy Fuels 5 (2021) 3632-3639.
|
[186] |
D. Guo, Z. Zeng, Z. Wan, Y. Li, B. Xi, C. Wang, Adv. Funct. Mater. 31 (2021) 2101324.
|
[187] |
X. Zhao, Q. Han, J. Li, X. Du, G. Liu, Y. Wang, L. Wu, Z. Chen, Chem. Eng. J. 433 (2022) 133509.
|
[188] |
Z. Zheng, X. Du, Y. Wang, C.M. Li, T. Qi, ACS Sustainable Chem. Eng. 6 (2018) 11473-11479.
|
[189] |
P. Wang, J. Qi, C. Li, X. Chen, T. Wang, C. Liang, Chemelectrochem 7 (2020) 745-752.
|
[190] |
Y. Chen, Y. Wang, J. Yu, G. Xiong, H. Niu, Y. Li, D. Sun, X. Zhang, H. Liu, W. Zhou, Adv. Sci. 9 (2022) 2105869.
|
[191] |
J. Ding, P. Wang, S. Ji, H. Wang, V. Linkov, R. Wang, Electrochim. Acta 296 (2019) 653-661.
|
[192] |
X. Peng, X. Jin, N. Liu, P. Wang, Z. Liu, B. Gao, L. Hu, P.K. Chu, Appl. Surf. Sci. 567 (2021) 150779.
|
[193] |
G. Li, K. Li, L. Yang, J. Chang, R. Ma, Z. Wu, J. Ge, C. Liu, W. Xing, ACS Appl. Mater. Interfaces 10 (2018) 38117-38124.
|
[194] |
D.H. Youn, G. Bae, S. Han, J.Y. Kim, J.-W. Jang, H. Park, S.H. Choi, J.S. Lee, J. Mater. Chem. A 1 (2013) 8007.
|
[195] |
Y. Dong, Y. Wu, M. Liu, J. Li, Chemsuschem 6 (2013) 2016-2021.
|
[196] |
K. Huang, K. Bi, C. Liang, S. Lin, R. Zhang, W.J. Wang, H.L. Tang, M. Lei, Scientific Reports 5 (2015) 11351.
|
[197] |
Y. Wang, J. Li, Z. Wei, J. Mater. Chem. A 6 (2018) 8194-8209.
|
[198] |
S. Surendran, S. Shanmugapriya, A. Sivanantham, S. Shanmugam, R. Kalai Selvan, Adv. Energy Mater. 8 (2018) 1800555.
|
[199] |
Y. Yang, R. Zeng, Y. Xiong, F.J. Disalvo, H.D. Abruna, J. Am. Chem. Soc. 141 (2019) 19241-19245.
|
[200] |
Y. Liu, Y. Shen, S. Zhu, D. Li, Chem. Eng. J. 400 (2020) 125968.
|
[201] |
Y. Yang, H. Peng, Y. Xiong, Q. Li, J. Lu, L. Xiao, F.J. Disalvo, L. Zhuang, H.D. Abruna, ACS Energy Lett. 4 (2019) 1251-1257.
|
[202] |
F. Yang; T. Xiong, P. Huang, S. Zhou, Q. Tan; H. Yang, Y. Huang, M.S. Balogun, Chem. Eng. J. 423 (2021) 130279.
|
[203] |
N. Han, P. Liu, J. Jiang, L. Ai, Z. Shao, S. Liu, J. Mater. Chem. A 6 (2018) 19912-19933.
|
[204] |
Y. Hu, D. Huang, J. Zhang, Y. Huang, M.S.J.T. Balogun, Y. Tong, ChemCatChem 11 (2019) 6051-6060.
|
[205] |
J. Jiang, P. Yan, Y. Zhou, Z. Cheng, X. Cui, Y. Ge, Q. Xu, Adv. Energy Mater. 10 (2020) 2002214.
|
[206] |
J.D. Xiao, H.L. Jiang, Acc. Chem. Res. 52 (2019) 356-366.
|
[207] |
M. Xiao, Z. Wang, M. Lyu, B. Luo, S. Wang, G. Liu, H.M. Cheng, L. Wang, Adv. Mater. 31 (2019) 1801369.
|
[208] |
Y. Huang, Y. Lu, Y. Lin, Y. Mao, G. Ouyang, H. Liu, S. Zhang, Y. Tong, J. Mater. Chem. A 6 (2018) 24740-24747.
|
[209] |
M.S. Nasir, G. Yang, I. Ayub, S. Wang, L. Wang, X. Wang, W. Yan, S. Peng, S. Ramakarishna, Appl. Catal., B 257 (2019) 117855.
|
[210] |
K.C. Christoforidis, P. Fornasiero, ChemCatChem 11 (2018) 368-382.
|
[211] |
K. Li, X. Lu, Y. Zhang, K. Liu, Y. Huang, H. Liu, Environmental Research 185 (2020) 109409.
|
[212] |
M. Reli, P. Huo, M. Sihor, N. Ambrozova, I. Troppova, L. Matejova, J. Lang, L. Svoboda, P. Kustrowski, M. Ritz, P. Praus, K. Koci, J. Phys. Chem. A 120 (2016) 8564-8573.
|
[213] |
D. Barman, S. Paul, S. Ghosh, S.K. De, ACS Appl. Nano Mater. 2 (2019) 5009-5019.
|
[214] |
Y. Wu, P. Lazic, G. Hautier, K. Persson, G. Ceder, Energy Environ. Sci. 6 (2013) 157-168.
|