| 1 |
Reaction mechanism and kinetic modeling of olefin conversion over phosphorus modified ZSM-5 catalyst
Berta AH, Hwang HD, Asfha HB, Kang NY, Kim KW, Park YK
Inpress KJChE, 1000(1000), 1, 2022 |
| 2 |
Catalytic Conversion of Chloromethane to Olefins and Aromatics Over Zeolite Catalysts
Zhu D, Wang Z, Meng F, Zhao BF, Kanitkar S, Tang YC
Catalysis Letters, 151(4), 1038, 2021 |
| 3 |
Effects of Lanthanum Incorporation on Stability, Acidity and Catalytic Performance of Y Zeolites
Yu SQ, Yan JS, Lin W, Long J, Liu SB
Catalysis Letters, 151(3), 698, 2021 |
| 4 |
Investigation the Synthesis of Nano-SAPO-34 Catalyst Prepared by Different Templates for MTO Process
Liu HY, Kianfar E
Catalysis Letters, 151(3), 787, 2021 |
| 5 |
Idaho National Laboratory's Advanced Design and Manufacturing Initiative
Ramirez-Corredores MM, Ding D, Gaffney AM
Catalysis Today, 363, 67, 2021 |
| 6 |
Propylene and aromatics from ethylene conversion over ZSM-5: Effect of zeolite composition
Fernandes DD, Veloso CD, Henriques CA
Catalysis Today, 381, 108, 2021 |
| 7 |
Upgrading of biomass-derived liquids in a biorefinery context: Hydroisomerization and fluid catalytic cracking of heavy naphtha on bench and pilot scale
Heracleous E, Iliopoulou EF, Drakaki K, Papapetrou MC, Iatridis DK, Lappas AA
Catalysis Today, 379, 141, 2021 |
| 8 |
Features of petrochemical cracking catalysts produced by aluminosilicate technology
Doronin VP, Potapenko OV, Sorokina TP, Lipin PV, Dmitriev KI, Plekhova KS, Kondrashev DO, Kleimenov AV
Catalysis Today, 378, 75, 2021 |
| 9 |
Enhanced alpha-olefins selectivity by promoted CO adsorption on ZrO2@FeCu catalyst
Guo XY, Guo LS, Cui Y, Vitidsant T, Reubroycharoen P, Liu GB, Wu JH, Yoneyama Y, Yang GH, Tsubaki N
Catalysis Today, 375, 290, 2021 |
| 10 |
CO2 hydrogenation to methanol at high reaction temperatures over In2O3/ ZrO2 catalysts: Influence of calcination temperatures of ZrO2 support
Numpilai T, Kidkhunthod P, Cheng CK, Wattanakit C, Chareonpanich M, Limtrakul J, Witoon T
Catalysis Today, 375, 298, 2021 |
