References
[1] B. Tabah, I.N. Pulidindi, V.R. Chitturi, L.M.R. Arava, A. Varvak, E. Foran, A. Gedanken, J. Mater. Chem. A. 5 (2017) 15486–15506.
[2] Q. Ma, Q. Zhang, Z. Zheng, Fuel 288 (2021) 119832–119840.
[3] J. Cho, W. Si, W. Jang, D. Jin, C.L. Myung, S. Park, Appl. Energy 160 (2015) 592–602.
[4] H. Gürbüz, Environ. Prog. Sustain Energy 41 (2022) 13718–13727.
[5] H.Y. Kim, J.C. Ge, N.J. Choi, Appl. Sci. 10 (2020) 1–15.
[6] N. Kosaric, Z. Duvnjak, A. Farkas, H. Sahm, S. Bringer-Meyer, O. Goebel, D. Mayer, Ethanol, Wiley-Ullmann’s Encyclopedia of Industrial Chemistry, New York, 2011.
[7] R. Alviany, A. Wahyudi, I. Gunardi, A. Roesyadi, F. Kurniawansyah, D.H. Prajitno, MATEC Web. Conf. 156 (2018) 1–8.
[8] I. Sezer, Energy Environ. 31 (2020) 179–214.
[9] E. Chaichana, N. Boonsinvarothai, N. Chitpong, B. Jongsomjit, J. Porous Mater. 26 (2019) 599–610.
[10] D.T. Sarve, S.K. Singh, J.D. Ekhe, React. Kinet. Mech. Catal. 131 (2020) 261–281.
[11] C. Autthanit and B. Jongsomjit, J. Oleo Sci. 67 (2018) 235–243.
[12] C. Krutpijit, B. Jongsomjit, J. Oleo Sci. 65 (2016) 347–355.
[13] M. Limlamthong, N. Chitpong, B. Jongsomjit, Bull. Chem. React. Eng. Catal. 14 (2019) 1–8.
[14] G. Garbarino, R.P.P. Vijayakumar, P. Riani, E. Finocchio, G. Busca, Appl. Catal. B Environ. 236 (2018) 490–500.
[15] K. Wijaya, A.R. Putri, S. Sudiono, S. Mulijani, A. Patah, A.C. Wibowo, W.D. Saputri, Catalysts 11 (2021) 1492–1504.
[16] K. Wijaya, M.L.L. Malau, M. Utami, S. Mulijani, A. Patah, A.C. Wibowo, M. Chadrasekaran, J.R. Rajabathar, H.A. Al-Lohedan, Catalysts 11 (2021) 1511–1523.
[17] A.A. Fragoso-Mores de Oca, J.G. Hernández-Cortez, C. Angeles-Chaves, J.S. Valente, J.A. Toledo-Antonio, Mater. Chem. Phys. 291 (2022) 126659–126707.
[18] I.S. Pieta, A. Michalik, E. Kraleva, D. Mrdenovic, A. Sek, E. Wahaczyk, A. Lewalska-Graczyk, M. Krysa, A. Sroka-Bartnicka, P. Pieta, R. Nowakowski, A. Lew, E. M. Serwicka, Catalysts 11 (2021) 660–680.
[19] W. Alharbi, E. Brown, E.F. Kozhevnikova, I.V. Kozhevnikov, J. Catal. 319 (2014) 174–181.
[20] M.F. Hanafi, N. Sapawe, Mater. Today Proc. 19 (2019) 1533–1536.
[21] E. Dahdah, J. Estephane, C. Gennequin, A. Aboukaïs, E. Abi-Aad, S. Aouad, Int. J. Hydrogen Energy 45 (2020) 4457–4467.
[22] A.R. Puigdollers, F. Illas, G. Pacchioni, J. Phys. Chem. C 120 (2016) 4392–4402.
[23] L. Hauli, K. Wijaya, R. Armunanto, Orient. J. Chem. 34 (2018) 1559–1564.
[24] F. Maleki, G. Pacchioni, Top. Catal. 63 (2020) 1717–1730.
[25] Y. Zhou, W. Yang, X. Wang, S. Wang, Y. Wang, L. Zhang, J. Zhang, S. Tao, Ind. Eng. Chem. Res. 59 (2020) 21592–21601.
[26] E. Hong, H.I. Sim, C.H. Shin, Chem. Eng. J. 292 (2016) 156–162.
[27] K. Saravanan, B. Tyagi, H.C. Bajaj, Appl. Catal. B Environ. 192 (2016) 161–170.
[28] Z. Mossayebi, M.J. Parnian, S. Rowshanzamir, Macromol. Mater. Eng. 303 (2018) 1–12.
[29] X. Zhang, A.I.M. Rabee, M. Isaacs, A.F. Lee, K. Wilson, ACS Sustain. Chem. Eng. 6 (2018) 14704–14712.
[30] Y. Qu, Y. Zhao, S. Xiong, C. Wang, S. Wang, L. Zhu, L. Ma, Energy Fuels 34 (2020) 11041–11049.
[31] S. Yu, S. Wu, L. Li, X. Ge, Fuel 276 (2020) 118019–118024.
[32] A.K. Amin, W. Trisunaryanti, K. Wijaya, J. Nano Res. 57 (2019) 31–39.
[33] G. Shi, F. Yu, Y. Wang, D. Pan, H. Wang, R. Li, Renew. Energy 92 (2016) 22–29.
[34] A. Kumar, S. Singhal, S. Agarwal, R.P. Badoni, A.R. Tripathi, Int. J. Chem. Tech. Res. 10 (2017) 350–358.
[35] A.E.A.A. Said, M.A. El-Aal, J. Fuel Chem. Technol. 46 (2018) 67–74.
[36] M. Utami, W. Trisunaryanti, K. Shida, M. Tsushida, H. Kawakita, K. Ohto, K. Wijaya, M. Tominaga, RSC Adv. 9 (2019) 41392–41401.
[37] M. Ejtemaei, A. Tavakoli, N. Charchi, B. Bayati, A.A. Babaluo, Y. Bayat, Adv. Powder Technol. 25 (2014) 840–846.
[38] A.K. Shah, M. Kumar, S.H.R. Abdi, R.I. Kureshy, N.H. Khan, H.C. Bajaj, Appl. Catal. A Gen. 486 (2014) 105–114.
[39] M. Pérez, H. Armendáriz, J.A. Toledo, A. Vázquez, J. Navarrette, A. Montoya, A. Gárcia, J. Mol. Catal. A Chem. 149 (1999)169–178.
[40] M.S.L. Ore, K. Wijaya, W. Trisunaryanti, W.D. Saputri, E. Heraldy, N.W. Yuwana, P.L. Hariani, A. Budiman, S. Sudiono, J. Environ. Chem. Eng. 8 (2020) 104205–104214.
[41] A. Patel, V. Brahmkhatri, N. Singh, Renew. Energy 51 (2013) 227–233.
[42] A.E.A.A. Said, M.M.A. El-Wahab, M.A. El-Aal, J. Mol. Catal. A Chem. 394 (2014) 40–47.
[43] D. Spielbauer, G.A.H. Mekhemer, M.I. Zaki, H. Knözinger, Catal. Letters 40 (1996) 71–79.
[44] I.T.A. Aziz, W.D. Saputri, W. Trisunaryanti, S. Sudiono, A. Syoufian, A. Budiman, K. Wijaya, Period. Polytech. Chem. Eng. 66 (2022) 101–113.
[45] A.I. Ahmed, S.A.El-Hakam, S.E. Samra, A.A. El-Khouly, A.S. Khder, Colloids Surf. A: Physicochem. Eng. Asp. 317 (2008) 62–70.
[46] F. Heshmatpour, R.B. Aghakhanpour, Adv. Powder Technol. 23 (2012) 80–87.
[47] V.S. Marakatti, S. Marappa, E.M. Gaigneaux, New J. Chem. 43 (2019) 7733–7742.
[48] H. Yuan, Z. Dong, J. He, Y. Wang, H. Zhang, Chem. Eng. Commun. 206 (2019) 1618–1627.
[49] T. Kamsuwan, P. Praserthdam, B. Jongsomjit, J. Oleo Sci. 66 (2017) 199–207.
[50] M.J. Marbun, F. Kurniawansyah, D.H. Prajitno, A. Roesyadi, IOP Conf. Ser. Mater. Sci. Eng. 543 (2019) 012058–012063.