Recent advances in intensified ethylene production—a review Y Gao, L Neal, D Ding, W Wu, C Baroi, AM Gaffney, F Li ACS Catalysis 9 (9), 8592-8621, 2019 | 254 | 2019 |
Perovskites as geo-inspired oxygen storage materials for chemical looping and three-way catalysis: a perspective X Zhu, K Li, L Neal, F Li Acs Catalysis 8 (9), 8213-8236, 2018 | 182 | 2018 |
Dynamic Methane Partial Oxidation Using a Fe2O3@La0.8Sr0.2FeO3-δ Core–Shell Redox Catalyst in the Absence of Gaseous Oxygen LM Neal, A Shafiefarhood, F Li ACS Catalysis 4 (10), 3560-3569, 2014 | 182 | 2014 |
Steam reforming of methanol using Cu-ZnO catalysts supported on nanoparticle alumina SD Jones, LM Neal, HE Hagelin-Weaver Applied Catalysis B: Environmental 84 (3-4), 631-642, 2008 | 162 | 2008 |
Effect of support on redox stability of iron oxide for chemical looping conversion of methane NL Galinsky, A Shafiefarhood, Y Chen, L Neal, F Li Applied Catalysis B: Environmental 164, 371-379, 2015 | 142 | 2015 |
Oxidative dehydrogenation of ethane: a chemical looping approach LM Neal, S Yusuf, JA Sofranko, F Li Energy Technology 4 (10), 1200-1208, 2016 | 111 | 2016 |
Effect of core and shell compositions on MeOx@ LaySr1− yFeO3 core–shell redox catalysts for chemical looping reforming of methane L Neal, A Shafiefarhood, F Li Applied energy 157, 391-398, 2015 | 111 | 2015 |
Effect of promoters on manganese-containing mixed metal oxides for oxidative dehydrogenation of ethane via a cyclic redox scheme S Yusuf, LM Neal, F Li ACS Catalysis 7 (8), 5163-5173, 2017 | 106 | 2017 |
Li-Promoted LaxSr2–xFeO4−δ Core–Shell Redox Catalysts for Oxidative Dehydrogenation of Ethane under a Cyclic Redox Scheme Y Gao, LM Neal, F Li ACS Catalysis 6 (11), 7293-7302, 2016 | 104 | 2016 |
Methane partial oxidation using FeO x@ La 0.8 Sr 0.2 FeO 3− δ core–shell catalyst–transient pulse studies A Shafiefarhood, JC Hamill, LM Neal, F Li Physical Chemistry Chemical Physics 17 (46), 31297-31307, 2015 | 83 | 2015 |
Oxidative dehydrogenation of ethane under a cyclic redox scheme–Process simulations and analysis VP Haribal, LM Neal, F Li Energy 119, 1024-1035, 2017 | 82 | 2017 |
Manganese silicate based redox catalysts for greener ethylene production via chemical looping–oxidative dehydrogenation of ethane S Yusuf, L Neal, V Haribal, M Baldwin, HH Lamb, F Li Applied Catalysis B: Environmental 232, 77-85, 2018 | 68 | 2018 |
Parahydrogen-induced polarization by pairwise replacement catalysis on Pt and Ir nanoparticles R Zhou, EW Zhao, W Cheng, LM Neal, H Zheng, RE Quiñones, ... Journal of the American Chemical Society 137 (5), 1938-1946, 2015 | 67 | 2015 |
Intensification of ethylene production from naphtha via a redox oxy-cracking scheme: Process simulations and analysis VP Haribal, Y Chen, L Neal, F Li Engineering 4 (5), 714-721, 2018 | 62 | 2018 |
Effects of Sodium and Tungsten Promoters on Mg6MnO8-Based Core–Shell Redox Catalysts for Chemical Looping—Oxidative Dehydrogenation of Ethane S Yusuf, L Neal, Z Bao, Z Wu, F Li ACS Catalysis 9 (4), 3174-3186, 2019 | 60 | 2019 |
Characterization of ZrO2-promoted Cu/ZnO/nano-Al2O3 methanol steam reforming catalysts SD Jones, LM Neal, ML Everett, GB Hoflund, HE Hagelin-Weaver Applied surface science 256 (24), 7345-7353, 2010 | 60 | 2010 |
Rh-promoted mixed oxides for “low-temperature” methane partial oxidation in the absence of gaseous oxidants A Shafiefarhood, J Zhang, LM Neal, F Li Journal of materials chemistry A 5 (23), 11930-11939, 2017 | 58 | 2017 |
Mixed iron-manganese oxides as redox catalysts for chemical looping–oxidative dehydrogenation of ethane with tailorable heat of reactions S Yusuf, V Haribal, D Jackson, L Neal, F Li Applied Catalysis B: Environmental 257, 117885, 2019 | 54 | 2019 |
A tailored multi-functional catalyst for ultra-efficient styrene production under a cyclic redox scheme X Zhu, Y Gao, X Wang, V Haribal, J Liu, LM Neal, Z Bao, Z Wu, H Wang, ... Nature communications 12 (1), 1329, 2021 | 49 | 2021 |
C–H activation and C–C coupling of 4-methylpyridine using palladium supported on nanoparticle alumina LM Neal, HE Hagelin-Weaver Journal of Molecular Catalysis A: Chemical 284 (1-2), 141-148, 2008 | 47 | 2008 |