| Core–shell structured catalysts for thermocatalytic, photocatalytic, and electrocatalytic conversion of CO 2 S Das, J Pérez-Ramírez, J Gong, N Dewangan, K Hidajat, BC Gates, ... Chemical Society Reviews 49 (10), 2937-3004, 2020 | 684 | 2020 |
| Recent progress in the development of catalysts for steam reforming of biomass tar model reaction J Ashok, N Dewangan, S Das, P Hongmanorom, MH Wai, K Tomishige, ... Fuel Processing Technology 199, 106252, 2020 | 177 | 2020 |
| Silica-based micro-and mesoporous catalysts for dry reforming of methane Z Li, S Das, P Hongmanorom, N Dewangan, MH Wai, S Kawi Catalysis Science & Technology 8 (11), 2763-2778, 2018 | 153 | 2018 |
| Z-scheme transition metal bridge of Co9S8/Cd/CdS tubular heterostructure for enhanced photocatalytic hydrogen evolution T Zhang, F Meng, Y Cheng, N Dewangan, GW Ho, S Kawi Applied Catalysis B: Environmental 286, 119853, 2021 | 150 | 2021 |
| Recent progress on layered double hydroxide (LDH) derived metal-based catalysts for CO2 conversion to valuable chemicals N Dewangan, WM Hui, S Jayaprakash, AR Bawah, AJ Poerjoto, T Jie, ... Catalysis Today 356, 490-513, 2020 | 140 | 2020 |
| Conversion of CO2 to C1 chemicals: catalyst design, kinetics and mechanism aspects of the reactions A Jangam, S Das, N Dewangan, P Hongmanorom, WM Hui, S Kawi Catalysis Today 358, 3-29, 2020 | 116 | 2020 |
| Cobalt‐Based catalyst supported on different morphologies of alumina for non‐oxidative propane dehydrogenation: Effect of metal support interaction and lewis acidic sites N Dewangan, J Ashok, M Sethia, S Das, S Pati, H Kus, S Kawi ChemCatChem 11 (19), 4923-4934, 2019 | 94 | 2019 |
| A minireview on nickel‐based heterogeneous electrocatalysts for water splitting Y Li, X Bao, D Chen, Z Wang, N Dewangan, M Li, Z Xu, J Wang, S Kawi, ... ChemCatChem 11 (24), 5913-5928, 2019 | 88 | 2019 |
| Low temperature catalytic reverse water-gas shift reaction over perovskite catalysts in DBD plasma L Liu, S Das, T Chen, N Dewangan, J Ashok, S Xi, A Borgna, Z Li, S Kawi Applied Catalysis B: Environmental 265, 118573, 2020 | 81 | 2020 |
| Catalytic Pd0. 77Ag0. 23 alloy membrane reactor for high temperature water-gas shift reaction: Methane suppression S Pati, A Jangam, Z Wang, N Dewangan, MH Wai, S Kawi Chemical Engineering Journal 362, 116-125, 2019 | 73 | 2019 |
| Ultra-thin (~ 1 μm) Pd–Cu membrane reactor for coupling CO2 hydrogenation and propane dehydrogenation applications S Pati, J Ashok, N Dewangan, T Chen, S Kawi Journal of Membrane Science 595, 117496, 2020 | 72 | 2020 |
| Recent developments in dielectric barrier discharge plasma-assisted catalytic dry reforming of methane over Ni-based catalysts X Gao, Z Lin, T Li, L Huang, J Zhang, S Askari, N Dewangan, A Jangam, ... Catalysts 11 (4), 455, 2021 | 65 | 2021 |
| H2S and NOx tolerance capability of CeO2 doped La1− xCexCo0. 5Ti0. 5O3− δ perovskites for steam reforming of biomass tar model reaction J Ashok, S Das, N Dewangan, S Kawi Energy Conversion and Management: X 1, 100003, 2019 | 65 | 2019 |
| Mesoporous-silica-stabilized cobalt (II) oxide nanoclusters for propane dehydrogenation Z Bian, N Dewangan, Z Wang, S Pati, S Xi, A Borgna, H Kus, S Kawi ACS Applied Nano Materials 4 (2), 1112-1125, 2021 | 62 | 2021 |
| High temperature water permeable membrane reactors for CO2 utilization Z Li, Y Deng, N Dewangan, J Hu, Z Wang, X Tan, S Liu, S Kawi Chemical Engineering Journal 420, 129834, 2021 | 60 | 2021 |
| High-performance catalytic perovskite hollow fiber membrane reactor for oxidative propane dehydrogenation Z Wang, Z Bian, N Dewangan, J Xu, S Kawi Journal of Membrane Science 578, 36-42, 2019 | 55 | 2019 |
| Catalytic mixed conducting ceramic membrane reactors for methane conversion Z Wang, T Chen, N Dewangan, Z Li, S Das, S Pati, Z Li, JYS Lin, S Kawi Reaction Chemistry & Engineering 5 (10), 1868-1891, 2020 | 54 | 2020 |
| Incinerator bottom ash derived from municipal solid waste as a potential catalytic support for biomass tar reforming J Ashok, S Das, TY Yeo, N Dewangan, S Kawi Waste Management 82, 249-257, 2018 | 54 | 2018 |
| State-of-art modifications of heterogeneous catalysts for CO2 methanation–Active sites, surface basicity and oxygen defects X Gao, Z Wang, Q Huang, M Jiang, S Askari, N Dewangan, S Kawi Catalysis Today 402, 88-103, 2022 | 53 | 2022 |
| High oxygen permeable and CO2-tolerant SrCoxFe0. 9-xNb0. 1O3-δ (x= 0.1–0.8) perovskite membranes: Behavior and mechanism Z Wang, N Dewangan, S Das, MH Wai, S Kawi Separation and Purification Technology 201, 30-40, 2018 | 50 | 2018 |
Sibudjing KawiNational University of Singapore確認したメール アドレス: nus.edu.sg