Tahun: 2022

83. W.W. Lestari, A.N.L Aqna, F.I. Prihadiyono, R. Putra, M. Firdaus, V.A. Rosari, U.S.F. Arrozi, G.T.M. Kadja. “Zirconium(IV)-BTC-Based MOF Modified with Nickel as a Catalyst for Hydrogenation of Citronellal”. Sains Malaysiana 51(9), 2937-2954. (2022).

83. W.W. Lestari, A.N.L Aqna, F.I. Prihadiyono, R. Putra, M. Firdaus, V.A. Rosari, U.S.F. Arrozi, G.T.M. Kadja. “Zirconium(IV)-BTC-Based MOF Modified with Nickel as a Catalyst for Hydrogenation of Citronellal”. Sains Malaysiana 51(9), 2937-2954. (2022).

83. W.W. Lestari, A.N.L Aqna, F.I. Prihadiyono, R. Putra, M. Firdaus, V.A. Rosari, U.S.F. Arrozi, G.T.M. Kadja. “Zirconium(IV)-BTC-Based MOF Modified with Nickel as a Catalyst for Hydrogenation of Citronellal”. Sains Malaysiana 51(9), 2937-2954. (2022).

82. E. Ratnaningsih, S.I. Sukandar, R.M. Putri, G.T.M. Kadja, I.G. Wenten. “Optimization of haloacid dehalogenase production by recombinant E. coli BL21 (DE3)/pET-hakp1 containing haloacid dehalogenase gene from Klebsiella pneumoniae ITB1 using Response Surface Methodology (RSM)”. Heliyon, 8(11) E11546 (2022).

82. E. Ratnaningsih, S.I. Sukandar, R.M. Putri, G.T.M. Kadja, I.G. Wenten. “Optimization of haloacid dehalogenase production by recombinant E. coli BL21 (DE3)/pET-hakp1 containing haloacid dehalogenase gene from Klebsiella pneumoniae ITB1 using Response Surface Methodology (RSM)”. Heliyon, 8(11) E11546 (2022).

82. E. Ratnaningsih, S.I. Sukandar, R.M. Putri, G.T.M. Kadja, I.G. Wenten. “Optimization of haloacid dehalogenase production by recombinant E. coli BL21 (DE3)/pET-hakp1 containing haloacid dehalogenase gene from Klebsiella pneumoniae ITB1 using Response Surface Methodology (RSM)“. Heliyon, 8(11) E11546 (2022).

80. N.J. Azhari, D. Erika, S. Mardiana, T. Ilmi, M.L. Gunawan, I.G.B.N. Makertihartha, G.T.M. Kadja. “Methanol synthesis from CO2: A mechanistic overview”. Results in Engineering, 100711. (2022).

80. N.J. Azhari, D. Erika, S. Mardiana, T. Ilmi, M.L. Gunawan, I.G.B.N. Makertihartha, G.T.M. Kadja. “Methanol synthesis from CO2: A mechanistic overview”. Results in Engineering, 100711. (2022).

80. N.J. Azhari, D. Erika, S. Mardiana, T. Ilmi, M.L. Gunawan, I.G.B.N. Makertihartha, G.T.M. Kadja. “Methanol synthesis from CO2: A mechanistic overview”. Results in Engineering, 100711. (2022).

79. W. Rahmah, G.T.M. Kadja, M.H. Mahyuddin, A.G. Saputro, H.K. Dipojono, I.G. Wenten. “Small-pore Zeolite and Zeotype Membranes for CO2 Capture and Sequestration–A Review”. Journal of Environmental Chemical Engineering, 108707. (2022).

79. W. Rahmah, G.T.M. Kadja, M.H. Mahyuddin, A.G. Saputro, H.K. Dipojono, I.G. Wenten. “Small-pore Zeolite and Zeotype Membranes for CO2 Capture and Sequestration–A Review”. Journal of Environmental Chemical Engineering, 108707. (2022).

79. W. Rahmah, G.T.M. Kadja, M.H. Mahyuddin, A.G. Saputro, H.K. Dipojono, I.G. Wenten. “Small-pore Zeolite and Zeotype Membranes for CO2 Capture and Sequestration–A Review”. Journal of Environmental Chemical Engineering, 108707. (2022).

78. F.I. Prihadiyono, W.W. Lestari, R. Putra, A.N.L. Aqna, I.S. Cahyani, G.T.M. Kadja. “Heterogeneous Catalyst based on Nickel Modified into Indonesian Natural Zeolite in Green Diesel Production from Crude Palm Oil”. International Journal of Technology, 13,4 (2022).

78. F.I. Prihadiyono, W.W. Lestari, R. Putra, A.N.L. Aqna, I.S. Cahyani, G.T.M. Kadja. “Heterogeneous Catalyst based on Nickel Modified into Indonesian Natural Zeolite in Green Diesel Production from Crude Palm Oil”. International Journal of Technology, 13,4 (2022).

78. F.I. Prihadiyono, W.W. Lestari, R. Putra, A.N.L. Aqna, I.S. Cahyani, G.T.M. Kadja. “Heterogeneous Catalyst based on Nickel Modified into Indonesian Natural Zeolite in Green Diesel Production from Crude Palm Oil”. International Journal of Technology, 13,4 (2022).