Innovating Greener Catalytic Processes for Carbon Dioxide Utilization, Storage and Hydrogen Production
Full List of Publications
2017
219. Z Bian, S Das, MH Wai, P Hongmanorom, S Kawi
A Review on Bimetallic Nickel‐Based Catalysts for CO2 Reforming of Methane
ChemPhysChem, 2017, 18, 3177.
218. JLX Hong, T Maneerung, SN Koh, S Kawi, CH Wang
Conversion of coal fly ash into zeolite materials: synthesis and characterizations, process design, and its cost-benefit analysis
Industrial & Engineering Chemistry Research, 2017, 56, 11565.
217. Y Kathiraser, Z Wang, ML Ang, L Mo, Z Li, U Oemar, S Kawi
Highly active and coke resistant Ni/SiO2 catalysts for oxidative reforming of model biogas: Effect of low ceria loading
Journal of CO2 Utilization, 2017, 19, 284.
216. Z Wang, J Ashok, Z Pu, S Kawi
Low temperature partial oxidation of methane via BaBi0.05Co0.8Nb0.15O3−δ-Ni phyllosilicate catalytic hollow fiber membrane reactor
Chemical Engineering Journal, 2017, 315, 315.
215. E Soghrati, C Choong, CK Poh, S Kawi, A Borgna
Single‐Pot Conversion of Tetrahydrofurfuryl Alcohol into Tetrahydropyran over a Ni/HZSM‐5 Catalyst under Aqueous‐Phase Conditions
ChemCatChem, 2017, 9, 1402.
214. T Maneerung, K Hidajat, S Kawi
K-doped LaNiO3 perovskite for high-temperature water-gas shift of reformate gas: Role of potassium on suppressing methanation
International Journal of Hydrogen Energy, 2017, 42, 9840.
213. Z Bian, S Kawi
Highly carbon-resistant Ni–Co/SiO2 catalysts derived from phyllosilicates for dry reforming of methane
Journal of CO2 Utilization, 2017, 18, 345.
212. J Ashok, ML Ang, S Kawi
Enhanced activity of CO2 methanation over Ni/CeO2-ZrO2 catalysts: Influence of preparation methods
Catalysis Today, 2017, 281, 304.
211. U Oemar, K Hidajat, S Kawi
High catalytic stability of Pd-Ni/Y2O3 formed by interfacial Cl for oxy-CO2 reforming of CH4
Catalysis Today, 2017, 281, 276.
210. X Gao, Z Tan, K Hidajat, S Kawi
Highly reactive Ni-Co/SiO2 bimetallic catalyst via complexation with oleylamine/oleic acid organic pair for dry reforming of methane
Catalysis Today, 2017, 281, 250.
209. P Yazdani, B Wang, Y Du, S Kawi, A Borgna
Lanthanum oxycarbonate modified Cu/Al2O3 catalysts for selective hydrogenolysis of glucose to propylene glycol: base site requirements
Catalysis Science & Technology, 2017, 7, 4680.
2016
208. J Ni, J Zhao, L Chen, J Lin, S Kawi
Lewis Acid Sites Stabilized Nickel Catalysts for Dry (CO2) Reforming of Methane
ChemCatChem, 2016, 8, 3732.
207. IA Karimi, S Kawi
Technoeconomic perspectives on sustainable CO2 capture and utilization
Environmental Science and Pollution Research, 2016, 23, 22223.
206. Z Bian, IY Suryawinata, S Kawi
Highly carbon resistant multicore-shell catalyst derived from Ni-Mg phyllosilicate nanotubes@ silica for dry reforming of methane
Applied Catalysis B: Environmental, 2016, 195, 1.
205. T Maneerung, K Hidajat, S Kawi
Triple-layer catalytic hollow fiber membrane reactor for hydrogen production
Journal of Membrane Science, 2016, 514, 1.
204. T Maneerung, S Kawi, Y Dai, CH Wang
Sustainable biodiesel production via transesterification of waste cooking oil by using CaO catalysts prepared from chicken manure
Energy Conversion and Management, 2016, 123, 487.
203. XY Gao, K Hidajat, S Kawi
Facile synthesis of Ni/SiO2 catalyst by sequential hydrogen/air treatment: A superior anti-coking catalyst for dry reforming of methane
Journal of CO2 Utilization, 2016, 15, 146.
202. Z Wang, U Oemar, ML Ang, S Kawi
Oxidative steam reforming of biomass tar model compound via catalytic BaBi0.05Co0.8Nb0.15O3− δ hollow fiber membrane reactor
Journal of Membrane Science, 2016, 510, 417.
201. Z Li, M Li, Z Bian, Y Kathiraser, S Kawi
Design of highly stable and selective core/yolk–shell nanocatalysts—A review
Applied Catalysis B: Environmental, 2016, 188, 324.
200. J Ashok, ML Ang, PZL Terence, S Kawi
Promotion of the water‐gas‐shift reaction by nickel hydroxyl species in partially reduced nickel‐containing phyllosilicate catalysts
ChemCatChem, 2016, 8, 1308.
199. T Maneerung, S Kawi, CH Wang
Gasification bottom ash as a CaO catalyst source for biodiesel production from transesterification of palm oil
Energy Conversion and Management, 2016, 112, 199.
198. U Oemar, Z Bian, K Hidajat, S Kawi
Sulfur resistant LaxCe1−xNi0.5Cu0.5O3 catalysts for an ultra-high temperature water gas shift reaction
Catalysis Science & Technology, 2016, 6, 6569.
197. ET Saw, U Oemar, ML Ang, H Kus, S Kawi
High-temperature water gas shift reaction on Ni–Cu/CeO2 catalysts: effect of ceria nanocrystal size on carboxylate formation
Catalysis Science & Technology, 2016, 6, 5336.
196. Y Kathiraser, J Ashok, S Kawi
Synthesis and evaluation of highly dispersed SBA-15 supported Ni–Fe bimetallic catalysts for steam reforming of biomass derived tar reaction
Catalysis Science & Technology, 2016, 6, 4327.
195. ML Ang, JT Miller, Y Cui, L Mo, S Kawi
Bimetallic Ni–Cu alloy nanoparticles supported on silica for the water-gas shift reaction: activating surface hydroxyls via enhanced CO adsorption
Catalysis Science & Technology, 2016, 6, 3394.
194. T Maneerung, J Liew, Y Dai, S Kawi, C Chong, CH Wang
Activated carbon derived from carbon residue from biomass gasification and its application for dye adsorption: kinetics, isotherms and thermodynamic studies
Bioresource Technology, 2016, 200, 350.
193. U Oemar, Y Kathiraser, L Mo, XK Ho, S Kawi
CO 2 reforming of methane over highly active La-promoted Ni supported on SBA-15 catalysts: mechanism and kinetic modelling
Catalysis Science & Technology, 2016, 6, 1173
2015
192. X Gao, H Liu, K Hidajat, S Kawi
Anti‐Coking Ni/SiO2 Catalyst for Dry Reforming of Methane: Role of Oleylamine/Oleic Acid Organic Pair
ChemCatChem, 2015, 7, 4188.
191. S Kawi, Y Kathiraser, J Ni, U Oemar, Z Li, ET Saw
Progress in synthesis of highly active and stable nickel‐based catalysts for carbon dioxide reforming of methane
ChemSusChem, 2015, 8, 3556.
190. T Maneerung, K Hidajat, S Kawi
Co-production of hydrogen and carbon nanofibers from catalytic decomposition of methane over LaNi(1−x)MxO3−α perovskite (where M = Co, Fe and X = 0, 0.2, 0.5, 0.8, 1)
International Journal of Hydrogen Energy, 2015, 40, 13399.
189. L Mo, ET Saw, Y Du, A Borgna, ML Ang, Y Kathiraser, Z Li, W Thitsartarn, M Lin, S Kawi
Highly dispersed supported metal catalysts prepared via in-situ self-assembled core-shell precursor route
International Journal of Hydrogen Energy, 2015, 40, 13388.
188. Y Kathiraser, U Oemar, ET Saw, Z Li, S Kawi
Kinetic and mechanistic aspects for CO2 reforming of methane over Ni based catalysts
Chemical Engineering Journal, 2015, 278, 62.
187. U Oemar, Y Kathiraser, ML Ang, K Hidajat, S Kawi
Catalytic biomass gasification to syngas over highly dispersed lanthanum‐doped nickel on SBA‐15
ChemCatChem, 2015, 7, 3376.
186. ET Saw, U Oemar, ML Ang, K Hidajat, S Kawi
Highly Active and Stable Bimetallic Nickel–Copper Core–Ceria Shell Catalyst for High‐Temperature Water–Gas Shift Reaction
ChemCatChem, 2015, 7, 3358.
185. U Oemar, K Hidajat, S Kawi
Pd–Ni catalyst over spherical nanostructured Y2O3 support for oxy-CO2 reforming of methane: role of surface oxygen mobility
International Journal of Hydrogen Energy, 2015, 40, 12227.
184. ML Ang, U Oemar, Y Kathiraser, ET Saw, CHK Lew, Y Du, A Borgna, S Kawi
High-temperature water–gas shift reaction over Ni/xK/CeO2 catalysts: Suppression of methanation via formation of bridging carbonyls
Journal of Catalysis, 2015, 329, 130.
183. W Thitsartarn, T Maneerung, S Kawi
Highly active and durable Ca-doped Ce-SBA-15 catalyst for biodiesel production
Energy, 2015, 89, 946.
182. XY Gao, J Ashok, S Widjaja, K Hidajat, S Kawi
Ni/SiO2 catalyst prepared via Ni-aliphatic amine complexation for dry reforming of methane: Effect of carbon chain number and amine concentration
Applied Catalysis A: General, 2015, 503, 34.
181. J Ashok, Y Kathiraser, ML Ang, S Kawi
Bi-functional hydrotalcite-derived NiO–CaO–Al2O3 catalysts for steam reforming of biomass and/or tar model compound at low steam-to-carbon conditions
Applied Catalysis B: Environmental, 2015, 172, 116.
180. Z Wang, Y Kathiraser, ML Ang, S Kawi
High purity oxygen production via BBCN perovskite hollow fiber membrane swept by steam
Industrial & Engineering Chemistry Research, 2015, 54, 6371.
179. S Kawi, Y Kathiraser
CO2 as an oxidant for high-temperature reactions
Frontiers in Energy Research, 2015, 3, 13.
178. T Maneerung, S Kawi, CH Wang
Biomass gasification bottom ash as a source of CaO catalyst for biodiesel production via transesterification of palm oil
Energy Conversion and Management, 2015, 92, 234.
177. J Ashok, S Kawi
Steam reforming of biomass tar model compound at relatively low steam-to-carbon condition over CaO-doped nickel–iron alloy supported over iron–alumina catalysts
Applied Catalysis A: General, 2015, 490, 24.
176. Z Li, Y Kathiraser, S Kawi
Facile Synthesis of High Surface Area Yolk–Shell Ni@Ni Embedded SiO2 via Ni Phyllosilicate with Enhanced Performance for CO2 Reforming of CH4
ChemCatChem, 2015, 7, 160.
175. Z Bian, Z Li, J Ashok, S Kawi
A highly active and stable Ni–Mg phyllosilicate nanotubular catalyst for ultrahigh temperature water-gas shift reaction
Chemical Communications, 2015, 51, 16324.
174. J Ashok, Y Kathiraser, ML Ang, S Kawi
Ni and/or Ni–Cu alloys supported over SiO 2 catalysts synthesized via phyllosilicate structures for steam reforming of biomass tar reaction
Catalysis Science & Technology, 2015, 5, 4398.
173. U Oemar, ML Ang, YC Chin, K Hidajat, S Kawi
Role of lattice oxygen in oxidative steam reforming of toluene as a tar model compound over Ni/La0.8Sr0.2AlO3 catalyst
Catalysis Science & Technology, 2015, 5, 3585.
172. U Oemar, ML Ang, K Hidajat, S Kawi
Enhancing performance of Ni/La 2 O 3 catalyst by Sr-modification for steam reforming of toluene as model compound of biomass tar
RSC Advances, 2015, 5, 17834.