| Thermodynamic analysis on mid/low temperature solar methane steam reforming with hydrogen permeation membrane reactors H Wang, M Liu, H Kong, Y Hao Applied Thermal Engineering 152, 925-936, 2019 | 85 | 2019 |
| A solar methane reforming reactor design with enhanced efficiency J Jin, X Wei, M Liu, Y Yu, W Li, H Kong, Y Hao Applied energy 226, 797-807, 2018 | 77 | 2018 |
| Sequential Separation-driven Solar Methane Reforming for H 2 Derivation under Mild Conditions Y Ling, H Wang, M Liu, B Wang, S Li, X Zhu, Y Shi, H Xia, K Guo, Y Hao, ... Energy & Environmental Science, 2022 | 29 | 2022 |
| Ultrahigh temperature processing by concentrated solar energy with accurate temperature measurement J Jin, M Liu, P Lin, T Fu, Y Hao, H Jin Applied Thermal Engineering 150, 1337-1344, 2019 | 15 | 2019 |
| Light-enhanced thermochemical production of solar fuels from methane via nickel-based redox cycle M Liu, J Zhang, T Yang, Q Rao, Z Gai, J Zhao, Y Pan, D Su, H Jin Fuel 335, 127035, 2023 | 7 | 2023 |
| Feasibility of solar thermochemical natural gas desulphurization and hydrogen generation with a membrane reactor Q Zhao, X Zhang, H Wang, M Liu, STB Lundin, S Shu, H Kong, X Hu Journal of Cleaner Production 312, 127835, 2021 | 6 | 2021 |
| Mid-temperature chemical looping methane reforming for hydrogen production via iron-based oxygen carrier particles Y Li, M Liu, J Zhang, T Yang, Q Rao, Z Gai, X Wang, Y Pan, H Jin Fuel Processing Technology 253, 108026, 2024 | 5 | 2024 |
| Theoretical Thermodynamic Efficiency Limit of Isothermal Solar Fuel Generation from H2O/CO2 Splitting in Membrane Reactors H Wang, H Kong, J Wang, M Liu, B Su, STB Lundin Molecules 26 (22), 7047, 2021 | 4 | 2021 |
| Synergistic promotions between high purity H2 production and CO2 capture via sorption enhanced chemical looping reforming M Liu, Y Li, X Wang, Z Gai, Q Rao, T Yang, J Zhang, S Tang, Y Pan*, H Jin Fuel Processing Technology 254, 108042, 2024 | 2 | 2024 |
| Reversible exsolution of iron from perovskites for highly selective syngas production via chemical looping dry reforming of methane T Yang, J Zhang, Q Rao, Z Gai, Y Li, P Li, M Liu, Y Pan, H Jin Fuel 366, 131386, 2024 | | 2024 |
| Enhancement of Fe/Ce oxygen carrier performance in chemical looping dry reforming of methane J Zhang, T Yang, Q Rao, Z Gai, P Li, Y Shen, M Liu, Y Pan, H Jin Fuel 366, 131344, 2024 | | 2024 |
| Industrialized Bimetallic Nano Oxygen Carrier for Dual-Stage Hydrogen Production from Mid-Temperature Chemical Looping Reforming S Tang, Z Gai, Y Li, Y Liu, M Liu, Y Pan, H Jin Available at SSRN 4695649, 2024 | | 2024 |
| Hydrogen production and solar energy storage with thermo-electrochemically enhanced steam methane reforming K Guo, M Liu, B Wang, J Lou, Y Hao, G Pei, H Jin Science Bulletin 69 (8), 1109-1121, 2024 | | 2024 |
| Scalable Fe2O3-NiO Oxygen Carrier for Dual-stage Hydrogen Production from Mid-temperature Methane Chemical Looping Steam Reforming S Tang, Z Gai, Y Li, Y Liu, M Liu, Y Pan Energy Proceedings 41, 2024 | | 2024 |
| Methane reforming reaction system Y Hao, H Wang, Y Ling, H Jin, M Liu WO Patent PCT/CN2023070 442, 2023 | | 2023 |
| Iron-Based Oxygen Carrier Particles With High Performance for Mid-Temperature Chemical Looping Methane Reforming Y Li, M Liu, J Zhang, T Yang, Q Rao, Z Gai, Y Pan Energy Proceedings 36, 2023 | | 2023 |
| Hydrogen Production via Methane Steam Reforming with Simultaneous Separation of Hydrogen and Carbon Dioxide K Guo, M Liu, B Wang, Y Hao Energy 2004, 2965, 2023 | | 2023 |
| From Lab to Industry: Scaling-Up Fe-Ni Bimetallic Nano Oxygen Carrier for Mid-Temperature Methane Chemical Looping Reforming S Tang, Z Gai, Y Li, Y Liu, M Liu, Y Pan, H Jin Available at SSRN 4812241, 0 | | |
Yong HaoVerified email at iet.cn
