Citation: | Jiajun Liu, Kui Wu, Zhengke Li, Wensong Li, Yuqing Ning, Weiyan Wang, Yunquan Yang. Preparation of bimetal Co-Ni supported on Mg-Al oxide for chemocatalytic upgrading of tailored fermentation products to energy intensive fuels. Green Energy&Environment, 2022, 7(3): 457-466. doi: 10.1016/j.gee.2020.10.011 |
[1] |
S. Chu, A. Majumdar, Nature 488 (2012) 294-303.
|
[2] |
N. Savage, Nature 474 (2011) S9-S11.
|
[3] |
S. Atsumi, T. Hanai, J.C. Liao, Nature 451 (2008) 86-89.
|
[4] |
M. Kaldstrom, M. Lindblad, K. Lamminpaa, S. Wallenius, S. Toppinen, Ind. Eng. Chem. Res. 56 (2017) 13356-13366.
|
[5] |
H. Li, A. Riisager, S. Saravanamurugan, A. Pandey, R.S. Sangwan, S. Yang, R. Luque, ACS Catal. 8 (2018) 148-187.
|
[6] |
N.M. Eagan, M.D. Kumbhalkar, J.S. Buchanan, J.A. Dumesic, G.W. Huber, Nat. Rev. Chem. 3 (2019) 223-249.
|
[7] |
J.T. Kozlowski, R.J. Davis, ACS Catal. 3 (2013) 1588-1600.
|
[8] |
Y. Wang, M. Peng, J. Zhang, Z. Zhang, J. An, S. Du, H. An, F. Fan, X. Liu, P. Zhai, D. Ma, F. Wang, Nat. Commun. 9 (2018) 5183.
|
[9] |
M. Balakrishnan, E.R. Sacia, S. Sreekumar, G. Gunbas, A.A. Gokhale, C.D. Scown, F.D. Toste, A.T. Bell, Proceedings of the National Academy of Sciences 112 (2015) 7645-7649.
|
[10] |
K. Taguchi, H. Nakagawa, T. Hirabayashi, S. Sakaguchi, Y. Ishii, J. Am. Chem. Soc. 126 (2004) 72-73.
|
[11] |
M.S. Kwon, N. Kim, S.H. Seo, I.S. Park, R.K. Cheedrala, J. Park, Angew. Chem. Int. Ed. 44 (2005) 6913-6915.
|
[12] |
P. Anbarasan, Z.C. Baer, S. Sreekumar, E. Gross, J.B. Binder, H.W. Blanch, D.S. Clark, F.D. Toste, Nature 491 (2012) 235-239.
|
[13] |
G. Xu, Q. Li, J. Feng, Q. Liu, Z. Zhang, X. Wang, X. Zhang, X. Mu, ChemSusChem 7 (2014) 105-109.
|
[14] |
H.T. Vo, S.M. Yeo, D. Dahnum, J. Jae, C.S. Hong, H. Lee, Chem. Eng. J. 313 (2017) 1486-1493.
|
[15] |
B. Fridrich, M.C.A. Stuart, K. Barta, ACS Sustainable Chem. Eng. 6 (2018) 8468-8475.
|
[16] |
S. Sreekumar, Z.C. Baer, A. Pazhamalai, G. Gunbas, A. Grippo, H.W. Blanch, D.S. Clark, F.D. Toste, Nat. Protoc. 10 (2015) 528-537.
|
[17] |
L.-B. Sun, X.-Q. Liu, H.-C. Zhou, Chem. Soc. Rev. 44 (2015) 5092-5147.
|
[18] |
X. Sheng, N. Li, G. Li, W. Wang, A. Wang, Y. Cong, X. Wang, T. Zhang, Green Chem. 18 (2016) 3707-3711.
|
[19] |
Q. Zhu, C. Shen, J. Wang, T. Tan, ACS Sustainable Chem. Eng. 5 (2017) 8181-8191.
|
[20] |
W. Shen, K. Komatsubara, T. Hagiyama, A. Yoshida, S. Naito, Chem. Commun. (2009) 6490-6492.
|
[21] |
J. Blanco, A.L. Petre, M. Yates, M.P. Martin, S. Suarez, J.A. Martin, Adv. Mater. 18 (2006) 1162-1165.
|
[22] |
Z. An, W. Wang, S. Dong, J. He, Catal. Today 319 (2019) 128-138.
|
[23] |
L. Lu, Z. Rong, W. Du, S. Ma, S. Hu, ChemCatChem 1 (2009) 369-371.
|
[24] |
W.-Z. Li, L. Kovarik, D. Mei, J. Liu, Y. Wang, C.H.F. Peden, Nat. Commun. 4 (2013) 2481.
|
[25] |
N. Blanch-Raga, A.E. Palomares, J. Martinez-Triguero, M. Puche, G. Fetter, P. Bosch, Appl. Catal. B:Environ. 160-161 (2014) 129-134.
|
[26] |
H. Chen, J. Zhao, S. Li, J. Xu, J. Shen, Chin. J. Catal. 36 (2015) 380-388.
|
[27] |
L. He, H. Berntsen, E. Ochoa-Fernandez, J.C. Walmsley, E.A. Blekkan, D. Chen, Top. Catal. 52 (2009) 206-217.
|
[28] |
Z. Wang, C. Wang, S. Chen, Y. Liu, Int. J. Hydrogen Energy 39 (2014) 5644-5652.
|
[29] |
J. Pang, M. Zheng, L. He, L. Li, X. Pan, A. Wang, X. Wang, T. Zhang, J. Catal. 344 (2016) 184-193.
|
[30] |
C. Rudolf, B. Dragoi, A. Ungureanu, A. Chirieac, S. Royer, A. Nastro, E. Dumitriu, Catal. Sci. Technol. 4 (2014) 179-189.
|
[31] |
L. Zhang, X. Chen, Y. Chen, Z. Peng, C. Liang, Catal. Sci. Technol. 9 (2019) 1108-1116.
|
[32] |
H. Li, H. Li, J. Zhang, W. Dai, M. Qiao, J. Catal. 246 (2007) 301-307.
|
[33] |
J. Fang, X. Chen, B. Liu, S. Yan, M. Qiao, H. Li, H. He, K. Fan, J. Catal. 229 (2005) 97-104.
|
[34] |
X. Feng, H. Wang, X. Bo, L. Guo, ACS Appl. Mater. Interfaces 11 (2019) 8018-8024.
|
[35] |
C. Huang, H. Li, J. Yang, C. Wang, F. Hu, X. Wang, Z.-H. Lu, G. Feng, R. Zhang, Appl. Surf. Sci. 478 (2019) 708-716.
|
[36] |
H. Wu, H. Liu, W. Yang, D. He, Catal. Sci. Technol. 6 (2016) 5631-5646.
|
[37] |
S. Ribet, D. Tichit, B. Coq, B. Ducourant, F. Morato, J. Solid State Chem. 142 (1999) 382-392.
|
[38] |
Q. Tang, Q. Zhang, P. Wang, Y. Wang, H. Wan, Chem. Mater. 16 (2004) 1967-1976.
|
[39] |
I. Luisetto, S. Tuti, E. Di Bartolomeo, Int. J. Hydrogen Energy 37 (2012) 15992-15999.
|
[40] |
B.M. Xaba, J.P.R. De Villiers, Ind. Eng. Chem. Res. 55 (2016) 9397-9407.
|
[41] |
X. Zhang, J. Long, W. Kong, Q. Zhang, L. Chen, T. Wang, L. Ma, Y. Li, Energy Fuels 28 (2014) 2562-2570.
|
[42] |
X. Liao, R. Gerdts, S.F. Parker, L. Chi, Y. Zhao, M. Hill, J. Guo, M.O. Jones, Z. Jiang, PCCP 18 (2016) 17311-17319.
|
[43] |
W.-C. Li, A.-H. Lu, C. Weidenthaler, F. Schuth, Chem. Mater. 16 (2004) 5676-5681.
|
[44] |
L. Bromberg, X. Su, T.A. Hatton, Chem. Mater. 25 (2013) 1636-1642.
|
[45] |
H. Oh, Y.I. Lee, G. Lee, K. Min, J.S. Yi, J. Power Sources 345 (2017) 67-77.
|
[46] |
G. Ye, H. Wang, X. Zhou, F.J. Keil, M.-O. Coppens, W. Yuan, AlChE J. 65 (2019) e16687.
|
[47] |
E. Ruckenstein, H.Y. Wang, J. Catal. 205 (2002) 289-293.
|
[48] |
Z. Liu, P. Lustemberg, R.A. Gutierrez, J.J. Carey, R.M. Palomino, M. Vorokhta, D.C. Grinter, P.J. Ramirez, V. Matolin, M. Nolan, M.V. Ganduglia-Pirovano, S.D. Senanayake, J.A. Rodriguez, Angew. Chem. Int. Ed. 56 (2017) 13041-13046.
|
[49] |
S. Sreekumar, Z.C. Baer, E. Gross, S. Padmanaban, K. Goulas, G. Gunbas, S. Alayoglu, H.W. Blanch, D.S. Clark, F.D. Toste, ChemSusChem 7 (2014) 2445-2448.
|
[50] |
K.A. Goulas, S. Sreekumar, Y. Song, P. Kharidehal, G. Gunbas, P.J. Dietrich, G.R. Johnson, Y.C. Wang, A.M. Grippo, L.C. Grabow, A.A. Gokhale, F.D. Toste, J. Am. Chem. Soc. 138 (2016) 6805-6812.
|
[51] |
K.A. Goulas, G. Gunbas, P.J. Dietrich, S. Sreekumar, A. Grippo, J.P. Chen, A.A. Gokhale, F.D. Toste, ChemCatChem 9 (2017) 677-684.
|
[52] |
H. Petitjean, K. Tarasov, F. Delbecq, P. Sautet, J.M. Krafft, P. Bazin, M.C. Paganini, E. Giamello, M. Che, H. Lauron-Pernot, G. Costentin, J. Phys. Chem. C 114 (2010) 3008-3016
|