Tahun: 2023

117. G.T.M. Kadja, E. Dwihermiati, F. Sagita, K. Mukhoibibah, K. Umam, M. Ledyastuti, C.L. Radiman “Mercapto functionalized–natural zeolites/PVDF mixed matrix membrane for enhanced removal of methylene blue”. Inorganic Chemistry Communications, 157, 111263. (2023).

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117. G.T.M. Kadja, E. Dwihermiati, F. Sagita, K. Mukhoibibah, K. Umam, M. Ledyastuti, C.L. Radiman “Mercapto functionalized–natural zeolites/PVDF mixed matrix membrane for enhanced removal of methylene blue”. Inorganic Chemistry Communications, 157, 111263. (2023).

117. G.T.M. Kadja, E. Dwihermiati, F. Sagita, K. Mukhoibibah, K. Umam, M. Ledyastuti, C.L. Radiman “Mercapto functionalized–natural zeolites/PVDF mixed matrix membrane for enhanced removal of methylene blue”. Inorganic Chemistry Communications, 157, 111263. (2023).

116. K. Umam, F. Sagita, E. Pramono, M. Ledyastuti, G.T.M. Kadja, C.L. Radiman. “Polyvinylidenefluoride (PVDF)/surface functionalized-mordenite mixed matrix membrane for congo red dyes removal: Effect of types of organosilane”. JCIS Open, 11, 100093. (2023).

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116. K. Umam, F. Sagita, E. Pramono, M. Ledyastuti, G.T.M. Kadja, C.L. Radiman. “Polyvinylidenefluoride (PVDF)/surface functionalized-mordenite mixed matrix membrane for congo red dyes removal: Effect of types of organosilane”. JCIS Open, 11, 100093. (2023).

116. K. Umam, F. Sagita, E. Pramono, M. Ledyastuti, G.T.M. Kadja, C.L. Radiman. “Polyvinylidenefluoride (PVDF)/surface functionalized-mordenite mixed matrix membrane for congo red dyes removal: Effect of types of organosilane”. JCIS Open, 11, 100093. (2023).

115. M. Isroni, F. Sagita, N.T.U. Culsum, G.T.M. Kadja. “Molecule gated mesoporous silica for on-command drug delivery: A review” Results in Chemistry, 6, 101053. (2023).

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115. M. Isroni, F. Sagita, N.T.U. Culsum, G.T.M. Kadja. “Molecule gated mesoporous silica for on-command drug delivery: A review” Results in Chemistry, 6, 101053. (2023).

115. M. Isroni, F. Sagita, N.T.U. Culsum, G.T.M. Kadja. “Molecule gated mesoporous silica for on-command drug delivery: A review” Results in Chemistry, 6, 101053. (2023).

114. M. Khalil, M. Lesa, A.G. Juandito, A.R. Sanjaya, T.A. Ivandini, G.T.M. Kadja, M.H. Mahyuddin, M. Sookhakian, Y. Alias “A SBA-15-templated mesoporous NiFe 2 O 4/MXene nanocomposite for the alkaline hydrogen evolution reaction”. Materials Advances 4 (17), 3853-3862. (2023). 

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114. M. Khalil, M. Lesa, A.G. Juandito, A.R. Sanjaya, T.A. Ivandini, G.T.M. Kadja, M.H. Mahyuddin, M. Sookhakian, Y. Alias “A SBA-15-templated mesoporous NiFe 2 O 4/MXene nanocomposite for the alkaline hydrogen evolution reaction”. Materials Advances 4 (17), 3853-3862. (2023). 

114. M. Khalil, M. Lesa, A.G. Juandito, A.R. Sanjaya, T.A. Ivandini, G.T.M. Kadja, M.H. Mahyuddin, M. Sookhakian, Y. Alias “A SBA-15-templated mesoporous NiFe 2 O 4/MXene nanocomposite for the alkaline hydrogen evolution reaction”. Materials Advances 4 (17), 3853-3862. (2023).

113. G.T.M. Kadja, N.F. Himma, N. Prasetya, A. Sumboja, M.Z. Bazant, I.G. Wenten. “Advances and challenges in the development of nanosheet membranes”. Reviews in Chemical Engineering, 39(4), 631-668. (2023).

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113. G.T.M. Kadja, N.F. Himma, N. Prasetya, A. Sumboja, M.Z. Bazant, I.G. Wenten. “Advances and challenges in the development of nanosheet membranes”. Reviews in Chemical Engineering, 39(4), 631-668. (2023).

113. G.T.M. Kadja, N.F. Himma, N. Prasetya, A. Sumboja, M.Z. Bazant, I.G. Wenten. “Advances and challenges in the development of nanosheet membranes”. Reviews in Chemical Engineering, 39(4), 631-668. (2023).

112. C.B. Rasrendra, E.G. Maulidanti, S.E.P. Darlismawantyani, N. Nurdini, W. Rustyawan, Subagjo, G.T.M. Kadja. “Bifunctional NiMo/HY-γ-Al2O3 catalysts for an effective production of ultra-low sulfur diesel”. Case Studies in Chemical and Environmental Engineering, 8, 100427. (2023).

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112. C.B. Rasrendra, E.G. Maulidanti, S.E.P. Darlismawantyani, N. Nurdini, W. Rustyawan, Subagjo, G.T.M. Kadja. “Bifunctional NiMo/HY-γ-Al2O3 catalysts for an effective production of ultra-low sulfur diesel”. Case Studies in Chemical and Environmental Engineering, 8, 100427. (2023).

112. C.B. Rasrendra, E.G. Maulidanti, S.E.P. Darlismawantyani, N. Nurdini, W. Rustyawan, Subagjo, G.T.M. Kadja. “Bifunctional NiMo/HY-γ-Al2O3 catalysts for an effective production of ultra-low sulfur diesel”. Case Studies in Chemical and Environmental Engineering, 8, 100427. (2023).

111. M.L. Gunawan, T.H. Novita, F. Aprialdi, D. Aulia, A.S.F. Nanda, C.B. Rasrendra, Z. Addarojah, D. Mujahidin, G.T.M. Kadja. “Palm-oil transformation into green and clean biofuels: Recent advances in the zeolite-based catalytic technologies”. Bioresource Technology Reports, 23, 101546. (2023).

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111. M.L. Gunawan, T.H. Novita, F. Aprialdi, D. Aulia, A.S.F. Nanda, C.B. Rasrendra, Z. Addarojah, D. Mujahidin, G.T.M. Kadja. “Palm-oil transformation into green and clean biofuels: Recent advances in the zeolite-based catalytic technologies”. Bioresource Technology Reports, 23, 101546. (2023).

111. M.L. Gunawan, T.H. Novita, F. Aprialdi, D. Aulia, A.S.F. Nanda, C.B. Rasrendra, Z. Addarojah, D. Mujahidin, G.T.M. Kadja. “Palm-oil transformation into green and clean biofuels: Recent advances in the zeolite-based catalytic technologies”. Bioresource Technology Reports, 23, 101546. (2023).

110. G.T.M. Kadja, M.M. Ilmi, S. Mardiana, M. Khalil, F. Sagita, N.T.U. Culsum, A.T.N. Fajar. “Recent advances of carbon nanotubes as electrocatalyst for in-situ hydrogen production and CO2 conversion to fuels”. Results in Chemistry, 6, 101037. (2023).

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110. G.T.M. Kadja, M.M. Ilmi, S. Mardiana, M. Khalil, F. Sagita, N.T.U. Culsum, A.T.N. Fajar. “Recent advances of carbon nanotubes as electrocatalyst for in-situ hydrogen production and CO2 conversion to fuels”. Results in Chemistry, 6, 101037. (2023).

110. G.T.M. Kadja, M.M. Ilmi, S. Mardiana, M. Khalil, F. Sagita, N.T.U. Culsum, A.T.N. Fajar. “Recent advances of carbon nanotubes as electrocatalyst for in-situ hydrogen production and CO2 conversion to fuels”. Results in Chemistry, 6, 101037. (2023).

109. G.T.M. Kadja, N.J. Azhari, F. Apriadi, T.H. Novita, I.R. Safira, C.B. Rasrendra. “Low-temperature synthesis of three-pore system hierarchical ZSM-5 zeolite for converting palm oil to high octane green gasoline”. Microporous and Mesoporous Materials, 360, 112731. (2023).

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109. G.T.M. Kadja, N.J. Azhari, F. Apriadi, T.H. Novita, I.R. Safira, C.B. Rasrendra. “Low-temperature synthesis of three-pore system hierarchical ZSM-5 zeolite for converting palm oil to high octane green gasoline”. Microporous and Mesoporous Materials, 360, 112731. (2023).

109. G.T.M. Kadja, N.J. Azhari, F. Apriadi, T.H. Novita, I.R. Safira, C.B. Rasrendra. “Low-temperature synthesis of three-pore system hierarchical ZSM-5 zeolite for converting palm oil to high octane green gasoline”. Microporous and Mesoporous Materials, 360, 112731. (2023).