Publications

Refereed Journal Publications

2024

  • H Bektas, R Cai, L Brody, and F Li. “Structural and Thermodynamic Assessment of Ba and Ba/Mg Substituted SrFeO3−δ for “Low-Temperature” Chemical Looping Air Separation”. 2024Energy and Fuels.
  • C Ruan, K Yang, C Beckett, W Martin, E.D. Walter, W Hu, J Liu, N Zayan, B Lessin, J,K. Faherty, R Akutsu, J.Z. Hu, F Li. “Metal-facilitated, sustainable nitroarene hydrogenation under ambient conditions”. 2024. Journal of Catalysis.
  • V Haribal, S Iftikhar, A Tong, A Rayer, C Sanderson, F Li, L Neal. “Technoeconomic and Emissions Analysis of the Hybrid Redox Process for the Production of Acetic Acid with CO2 Utilization”. 2024. Advanced Sustainable Systems, 2300453
  • R Cai, E Krzystowczyk, B Braunberger, F Li, L Neal. “Techno-economic analysis of chemical looping air separation using a perovskite oxide sorbent”. 2024. International Journal of Greenhouse Gas Control. 
  • X Yuan, K Yang, C Grazon, C Wang, L Vallan, J-D Isasa, PM Resende, F Li, C Brochon, H Remita, G Hadziioannou, E Cloutet, J Li. “Tuning the Aggregates of Thiophene‐based Trimers by Methyl Side‐chain Engineering for Photocatalytic Hydrogen Evolution”. 2024. Angewandte Chemie. 
  • V Rahmanian, M Ziauddin A Ebrahim, S Razavi, M Abdelmigeed, E Barbieri, S Menegatti, GN Parsons, F Li, T Pirzada, SA Khan. “Vapor phase synthesis of metal–organic frameworks on a nanofibrous aerogel creates enhanced functionality”. 2024Journal of Materials Chemistry A. 

2023

  • C Ruan, R Akutsu, K Yang, NM Zayan, J Dou, J Liu, A Bose, L Brody, HH Lamb, F Li. “Hydrogenation of bio-oil-derived oxygenates at ambient conditions via a two-step redox cycle”. 2023. Cell Reports Physical Science 4 (7).
  • S Zhu, Y Chen, V Somayaji, P Novello, D Chacko, F Li, J Liu. “One-Step Synthesis of a High Entropy Oxide-Supported Rhodium Catalyst for Highly Selective CO Production in CO2 Hydrogenation”. 2023. ACS Applied Materials & Interfaces.
  • Y Tian, PR Westmoreland, F Li. “CaMn0.9Ti0.1O3 based redox catalysts for chemical looping–Oxidative dehydrogenation of ethane: Effects of Na2MoO4 promoter and degree of reduction on the reaction kinetics”. 2023Catalysis Today, 417, 113725
  • L Brody, M Rukh, R Cai, A Saberi Bosari, R Schomäcker, F Li. “Sorption-enhanced steam reforming of toluene using multifunctional perovskite phase transition sorbents in a chemical looping scheme”. 2023Journal of Physics: Energy.
  • R Cai, L Brody, Y Tian, L Neal, A Bose, F Li. “Numerical Modeling of Chemical Looping Oxidative Dehydrogenation of Ethane in Parallel Packed Beds”. 2023. Chemical Engineering Journal, 143930
  • V Rahmanian, T Pirzada, E Barbieri, S Iftikhar, F Li, SA Khan. “Mechanically robust, thermally insulating and photo-responsive aerogels designed from sol-gel electrospun PVP-TiO2 nanofibers”. 2023. Applied Materials Today 32, 101784
  • R Cai, H Bektas, X Wang, K McClintock, L Teague, K Yang, F Li. “Accelerated Perovskite Oxide Development for Thermochemical Energy Storage by a High‐Throughput Combinatorial Approach”. 2023. Advanced Energy Materials, 2203833

2022

  • S Iftikhar, W Martin, X Wang, J Liu, Y Gao, and F Li. “Ru-promoted perovskites as effective redox catalysts for CO2 splitting and methane partial oxidation in a cyclic redox scheme”. 2022Nanoscale.
  • J Liu, and F. Li. “Mixed oxides as multi-functional reaction media for chemical looping catalysis”. 2022Chemical Communications.
  • J Liu, S Yusuf, D Jackson, W Martin, D Chacko, K Vogt-Lowell, L Neal, and F Li. “Redox oxide@ molten salt as a generalized catalyst design strategy for oxidative dehydrogenation of ethane via selective hydrogen combustion”. 2022. Applied Catalysis A: General.
  • S Iftikhar, W Martin, Y Gao, X Yu, I Wang, Z Wu, and F Li. “LaNixFe1-xO3 as flexible oxygen or carbon carriers for tunable syngas production and CO2 utilization”. 2022Catalysis Today.
  • Y Tian, G Luongo, F Donat, C Muller, Y Larring, P Westmoreland, and F Li. “Oxygen Nonstoichiometry and Defect Models of Brownmillerite-Structured Ca2MnAlO5+δ for Chemical Looping Air Separation”. 2022. ACS Sustainable Chemistry & Engineering.
  • Y Gao, X Wang, N Corolla, T Eldred, A Bose, W Gao, and F Li. “Alkali metal halide–coated perovskite redox catalysts for anaerobic oxidative dehydrogenation of n-butane”. 2022Science Advances. 
  • L Brody, L Neal, J Liu, and F Li. “Autothermal Chemical Looping Oxidative Dehydrogenation of Ethane: Redox Catalyst Performance, Longevity, and Process Analysis” 2022Energy and Fuels.
  • H Gu, G Song, S Zhao, Y Gao, and F Li. “Sr2CeO4 as a robust high temperature sorbent for CO2 capture with near 100% sorbent conversion efficiency” 2022Chemical Engineering Journal.
  • L Brody, R Cai, A Thornton, J Liu, H Yu, and F Li. “Perovskite-Based Phase Transition Sorbents for Sorption-Enhanced Oxidative Steam Reforming of Glycerol” 2022ACS Sustainable Chemistry and Engineering. 10(19).
  • Y Tian, PR Westmoreland, and F Li. “CaMn0. 9Ti0. 1O3 Based Redox Catalysts for Chemical Looping–Oxidative Dehydrogenation of Ethane: Effects of Na2MoO4 Promoter and Degree of Reduction on the Reaction Kinetics” 2022Catalysis Today.
  • X Wang, Y Gao, E Krzystowczyk,  S Iftikhar, J Dou, R Cai, H Wang, C Ruan, S Ye, and F Li. “High-Throughput Oxygen Chemical Potential Engineering of Perovskite Oxides for Chemical Looping Applications” 2022Energy and Environmental Science. 15(4).
  • C Ruan, X Wang, C Wang, L Zheng, L Li, X Liu, F Li, and X Wang. “Selective catalytic oxidation of ammonia to nitric oxide via chemical looping” 2022Nature Communications. 13(1), 1-12.
  • H Gu, Y Gao, S Iftikhar, F Li. “Ce stabilized Ni-SrO as a catalytic phase transition sorbent for integrated CO2 capture and CH4 reforming” 2022. Journal of Materials Chemistry A.

2021

  • S Iftikhar, Q Jiang, Y Gao, J Liu, H Gu, L Neal, F Li. “LaNi x Fe 1– x O 3−δ as a Robust Redox Catalyst for CO 2 Splitting and Methane Partial Oxidation” 2021Energy and Fuels. 35(17).
  • R Cai, E Krzystowczyk, A Richard, F Li. “Chemical looping air separation with Sr0. 8Ca0. 2Fe0. 9Co0. 1O3-δ perovskite sorbent: packed bed modeling, verification, and optimization” 2021Chemical Engineering Journal. 429, 132370.
  • E Krzystowczyk, V Haribal, J Dou, F Li. “Chemical Looping Air Separation Using a Perovskite-Based Oxygen Sorbent: System Design and Process Analysis” 2021ACS Sustainable Chemistry and Engineering. 9(36).
  • J Liu, Y Gao, X Wang, F Li. “Molten-salt-mediated carbon dioxide capture and superequilibrium utilization with ethane oxidative dehydrogenation”. 2021Cell Reports Physical Science. 2(7).
  • I Wang, Y Gao, X Wang, R Cai, C Chung, S Iftikhar, W Wang, F Li. “Liquid Metal Shell as an Effective Iron Oxide Modifier for Redox-Based Hydrogen Production at Intermediate Temperatures”. 2021ACS Catalysis. 11.
  • R Dudek, F Li. “Selective hydrogen combustion as an effective approach for intensified chemical production via the chemical looping strategy”. 2021Fuel Processing Technology. 218(306).
  • X Zhu, Y Gao, X Wang, V Haribal, J Liu, L Neal, Z Bao, Z Wu, H Wang, F Li. “A tailored multi-functional catalyst for ultra-efficient styrene production under a cyclic redox scheme”. 2021Nature Communications. 12(1).
  • M Li, Y Gao, K Zhao, H Li, F He, P Lv, Z Huang. “Mg-doped La1.6Sr0.4FeCoO6 for anaerobic oxidative dehydrogenation of ethane using surface-absorbed oxygen with tuned electronic structure”. 2021Fuel Processing Technology. 216, 106771.
  • L Brody, L Neal, V Haribal, F Li. “Ethane to liquids via a chemical looping approach – Redox catalyst demonstration and process analysis”. 2021Chemical Engineering Journal. 417, 128886.
  • F Hao, Y Gao, J Liu, R Dudek, L Neal, S Wang, P Liu, F Li. “Zeolite-assisted core-shell redox catalysts for efficient light olefin production via cyclohexane redox oxidative cracking”. 2021Chemical Engineering Journal. 409, 128192.

2020

  • Xiangbiao Liao, Hang Xiao, Vasudev Haribal, Xiaoyang Shi, Zhen Huang, Liangliang Zhu, Kongzhai Li, Fanxing Li, Hua Wang, Xi Chen. “Highly efficient reduction of O2-containing CO2 via chemical looping based on perovskite nanocomposites”. 2020. Nano Energy. 78, 105320.
  • Y Tian, RB Dudek, PR Westmoreland, F Li. “Effect of Sodium Tungstate Promoter on the Reduction Kinetics of CaMn0.9Fe0.1O3 for Chemical Looping – Oxidative Dehydrogenation of Ethane”. 2020Chemical Engineering Journal. 398, 125583.
  • Y Gao, S Wang, F Hao, Z Dai, F Li. “Zeolite–Perovskite Composites as Effective Redox Catalysts for Autothermal Cracking of n-Hexane”. 2020. ACS Sustainable Chemistry & Engineering. 8 (38), 14268-14273.
  • RB Dudek, Y Tian, G Jin, M Blivin, F Li. “Reduction Kinetics of Perovskite Oxides for Selective Hydrogen Combustion in the Context of Olefin Production”. 2020Energy Technology. 8 (8), 1900738.
  • Amit Mishra, Arya Shafiefarhood, Jian Dou, Fanxing Li. “Rh promoted perovskites for exceptional “low temperature” methane conversion to syngas”. 2020Catalysis Today. 350, 149-155.
  • Fang Hao, Yunfei Gao, Luke Neal, Ryan B Dudek, Wenyuan Li, Chingchang Chung, Bo Guan, Pingle Liu, Xingbo Liu, Fanxing Li. “Sodium tungstate-promoted CaMnO3 as an effective, phase-transition redox catalyst for redox oxidative cracking of cyclohexane”. 2020. Journal of Catalysis. 385, 213-223.
  • Jian Dou, Emily Krzystowczyk, Xijun Wang, Anthony R Richard, Thomas Robbins, Fanxing Li. “Sr1-xCaxFe1-yCoyO3-δ as facile and tunable oxygen sorbents for chemical looping air separation”. 2020Journal of Physics: Energy. 2 (2), 025007.
  • Y Gao, X Wang, J Liu, C Huang, K Zhao, Z Zhao, X Wang, F Li. “A molten carbonate shell modified perovskite redox catalyst for anaerobic oxidative dehydrogenation of ethane”. Science Advances. 2020. 6 (17), eaaz9339.
  • Petr Novotný, Seif Yusuf, Fanxing Li, H Henry Lamb. “MoO3/Al2O3 catalysts for chemical-looping oxidative dehydrogenation of ethane”. The Journal of Chemical Physics2020. 152 (4), 044713.
  • J Dou, E Krzystowczyk, X Wang, T Robbins, L Ma, X Liu, F Li. “A‐ and B‐site Codoped SrFeO3 Oxygen Sorbents for Enhanced Chemical Looping Air Separation”. ChemSusChem. 2020. 13 (2), 385-393.
  • Q Jiang, Y Gao, VP Haribal, H Qi, X Liu, H Hong, H Jin, F Li. “Mixed conductive composites for ‘Low-Temperature’ thermo-chemical CO2 splitting and syngas generation”. Journal of Materials Chemistry A2020. 8 (26), 13173-13182
  • Emily Krzystowczyk, Xijun Wang, Jian Dou, Vasudev Haribal, Fanxing Li. “Substituted SrFeO3 as robust oxygen sorbents for thermochemical air separation: correlating redox performance with compositional and structural properties”. Physical Chemistry Chemical Physics2020. 22 (16), 8924-8932.
  • Zachary S Campbell, Daniel Jackson, Jacob Lustik, Amur K Al-Rashdi, Jeffrey A Bennett, Fanxing Li, Milad Abolhasani. “Continuous flow synthesis of phase transition-resistant titania microparticles with tunable morphologies”. RCS Advances2020. 10 (14), 8340-8347.

2019

  • Jian Dou, Emily Krzystowczyk, Xijun Wang, Thomas Robbins, Liang Ma, Xingbo Liu, and Fanxing Li. “A and B-site Co-Doped SrFeO3 Oxygen Sorbents for Enhanced Chemical Looping Air Separation.” ChemSusChem. In Press.
  • Vasudev Haribal, Xijun Wang, Ryan Dudek, Courtney Paulus, Brian Turk, Raghubir Gupta, and Fanxing Li. “Modified Ceria for ‘Low-Temperature’ CO2 Utilization: A Chemical Looping Route to Exploit Industrial Waste Heat.” Advanced Energy Materials. 2019, 9 (41), 1901963.
  • Amit Mishra, Ryan Dudek, Anne Gaffney, Dong Ding, and Fanxing Li. “Spinel Oxides as Coke-Resistant Supports for NiO-Based Oxygen Carriers in Chemical Looping Combustion of Methane.” Catalysis Today. 2019.
  • Yunfei Gao, Luke Neal, Dong Ding, Wei Wu, Chimoy Baroi, Anne Gaffney, and Fanxing Li. “Recent Advances in Intensified Ethylene Production — A Review.” ACS Catalysis. 2019. 9 (9), 8592.
  • Ryan B. Dudek, Yuan Tian, Gaochen Jin, Millicent Blivin, and Fanxing Li. “Reduction Kinetics of Perovskite Oxides for Selective Hydrogen Combustion in the Context of Olefin Production.” Energy Technology. 2019. 1900738.
  • Luke Neal, Vasudev Haribal, and Fanxing Li. “Intensified Ethylene Production via Chemical Looping through an Exergetically Efficient Redox Scheme.” IScience. 2019. 19, 894.
  • Seif Yusuf, Vasudev Haribal, Dan Jackson, Luke Neal, and Fanxing Li. “Mixed Iron-Manganese Oxides as Redox Catalysts for Chemical Looping–Oxidative Dehydrogenation of Ethane with Tailorable Heat of Reactions.” Applied Catalysis B: Environmental. 2019, 257.
  • Ryan B Dudek, Xin Tian, Millicent Blivin, Luke Neal, Haibo Zhao, and Fanxing Li. “Perovskite oxides for redox oxidative cracking of n-hexane under a cyclic redox scheme.” Applied Catalysis B: Environmental. 2019, 246, 30-40.
  • Amit Mishra, Arya Shafiefarhood, Jian Dou, and Fanxing Li. “Rh Promoted Perovskites for Exceptional ‘Low Temperature’ Methane Conversion to Syngas.” Catalysis Today. 2019.
  • Luke Neal, Vasudev Haribal, Joseph McCaig, H. Henry Lamb, and Fanxing Li. “Modular‐scale ethane to liquids via chemical looping oxidative dehydrogenation: Redox catalyst performance and process analysis.” Journal of Advanced Manufacturing and Processing. 2019, 1 (1-2).
  • Seif Yusuf, Luke Neal, Zhenghong Bao, Zili Wu, and Fanxing Li. “Effects of Sodium and Tungsten Promoters on Mg6MnO8-Based Core–Shell Redox Catalysts for Chemical Looping—Oxidative Dehydrogenation of Ethane.” ACS Catalysis. 2019, 9 (4), 3174-3186.
  • Xin Tian, Ryan B Dudek, Yunfei Gao, Haibo Zhao, and Fanxing Li. “Redox oxidative cracking of n-hexane with Fe-substituted barium hexaaluminates as redox catalysts.” Catalysis Science & Technology. 2019, 9 (9), 2211-2220.

2018

  • Amit Mishra, Tianyang Li, Fanxing Li, and Erik Santiso. “Oxygen Vacancy Creation Energy in Mn-Containing Perovskites: An Effective Indicator for Chemical Looping with Oxygen Uncoupling.” Chemistry of Materials. 2018, 31 (3), 689-698.
  • Jian Dou, Emily Krzystowczyk, Amit Mishra, Xingbo Liu, and Fanxing Li. “Perovskite Promoted Mixed Co-Fe Oxides for Enhanced Chemical Looping Air Separation.” ACS Sustainable Chemistry & Engineering. 2018, 6 (11), 15528-15540.
  • Seif Yusuf, Luke M Neal, Vasudev P Haribal, Madison Baldwin, H. Henry Lamb, and Fanxing Li. “Manganese silicate based redox catalysts for greener ethylene production via chemical looping-oxidative dehydrogenation of ethane.” Applied Catalysis B: Environmental. 2018, 232, 77-85.
  • Vasudev P Haribal, Yun Chen, Luke M Neal, and Fanxing Li. “Intensification of Ethylene Production from Naphtha via a Redox Oxy-Cracking Scheme: Process Simulations and Analysis.” Engineering. 2018, 4 (5), 714-721.
  • Xing Zhu, Kongzhai Li, Luke M Neal, and Fanxing Li. “Perovskites as Geo-Inspired Oxygen Storage Materials for Chemical Looping and Three-Way Catalysis: A Perspective.” ACS Catalysis. 2018, 8 (9), 8213-8236.
  • Amit Mishra and Fanxing Li. “Chemical looping at the nanoscale — challenges and opportunities.” Current Opinion in Chemical Engineering. 2018, 20, 143-150.
  • Ryan B Dudek, Yunfei Gao, Junshe Zhang, and Fanxing Li. “Manganese-Containing Redox Catalysts for Selective Hydrogen Combustion under a Cyclic Redox Scheme.” AIChE Journal. 2018, 64 (8), 3141-3150.
  • Yunfei Gao, Farrah Haeri, Fang He, and Fanxing Li. “Alkali Metal-Promoted LaxSr2-xFeO4-d Redox Catalysts for Chemical Looping Oxidative Dehydrogenation of Ethane.” ACS Catalysis. 2018, 8 (3), 1757-1766.

2017

  • Vasudev P Haribal, Feng He, Amit Mishra, and Fanxing Li. “Iron-Doped BaMnO3 for Hybrid Water Splitting and Syngas Generation.” ChemSusChem. 2017, 10, 1-8.
  • Junshe Zhang, Vasudev Haribal, and Fanxing Li. “Perovskite nanocomposites as effective CO2-splitting agents in a cyclic redox scheme.” Science Advances. 2017, 3 (8), e1701184.
  • Seif Yusuf, Luke M Neal, and Fanxing Li. “Effect of Promoters on Manganese-Containing Mixed Metal Oxides for Oxidative Dehydrogenation of Ethane via a Cyclic Redox Scheme.” ACS Catalysis. 2017, 7, 5163-5173.
  • Feng He, William P Linak, Shuang Deng, and Fanxing Li. “Particulate Formation from a Copper Oxide-Based Oxygen Carrier in Chemical Looping Combustion for CO2 Capture.” Environmental Science and Technology. 2017, 51 (4), 2482-2490.
  • Vasudev P Haribal, Luke M Neal, and Fanxing Li. “Oxidative dehydrogenation of ethane under a cyclic redox scheme — Process simulations and analysis.” Energy. 2017, 119, 1024-1035.
  • Arya Shafiefarhood, Junshe Zhang, Luke M Neal, and Fanxing Li. “Rh-promoted mixed oxides for “low-temperature” methane partial oxidation in the absence of gaseous oxidants.” Journal of Material Chemistry A. 2017, 5, 11930-11939.

2016

  • Luke M Neal, Seif Yusuf, John A Sofranko, and Fanxing Li. “Oxidative Dehydrogenation of Ethane: A Chemical Looping Approach.” Energy Technology. 2016, 4 (10), 1200-1208.
  • Yunfei Gao, Luke M Neal, and Fanxing Li. “Li-Promoted LaxSr2-xFeO4-d Core-Shell Redox Catalysts for Oxidative Dehydrogenation of Ethane under a Cyclic Redox Scheme.” ACS Catalysis. 2016, 6, 7293-7302.
  • Nathan Galinsky, Marwan Sendi, Lindsay Bowers, and Fanxing Li. “CaMn1-xBxO3-d (B= Al, V, Fe, Co, and Ni) perovskite based oxygen carriers for chemical looping with oxygen uncoupling (CLOU).” Applied Energy. 2016, 174, 80-87.
  • Amit Mishra, Nathan Galinsky, Feng He, Erik Sansiso, and Fanxing Li. “Perovskite-structured AMnxB1-xO3 (A= Ca or Ba; B= Fe or Ni) redox catalysts for partial oxidation of methane.” Catal. Sci. Technol. 2016, DOI: 10.1039/C5CY02186C.
  • J. Zachary Mundy, Arya Shafiefarhood, Fanxing Li, Saad Khan, and Gregory Parsons. “Low temperature platinum atomic layer deposition on nylon-6 for highly conductive and catalytic fiber mats.” J. Vac. Sci. Technol. 2016, A 34, 01A152.

2015

  • Arya Shafiefarhood, J. Clay Hamill, Luke Neal, and Fanxing Li. “Methane partial oxidation using FeOx@La0.8Sr0.2FeO3-δcore-shell catalyst – transient pulse studies.” Phys. Chem. Chem. Phys. 2015, 17, 31297-31307.
  • Junshe Zhang and Fanxing Li. “Coke-resistant Ni@SiO2 catalyst for dry reforming of methane.” Applied Catalysis B: Environmental. 2015, 176-177, 513-521.
  • Luke Neal, Arya Shafiefarhood, and Fanxing Li. “Effect of Core and Shell Compositions on MeOx@LaySr1-yFeO3 Core-Shell Redox Catalysts for Chemical Looping Reforming of Methane.” Applied Energy. 2015, doi:10.1016/j.apenergy.2015.06.028.
  • Nathan Galinsky, Amit Mishra, Jia Zhang, and Fanxing Li. “Ca1-xAxMnO3 (A= Sr and Ba) Perovskite Based Oxygen Carriers for Chemical Looping with Oxygen Uncoupling (CLOU).” Applied Energy. 2015 doi:10.1016/j.apenergy.2015.04.020.
  • Feng He and Fanxing Li. “Perovskite promoted iron oxide for hybrid water-splitting and syngas generation with exceptional conversion.” Energy and Environmental Science. 2015, 8(2), 535-539.

2014

  • Nathan Galinsky, Arya Shafiefarhood, Yanguang Chen, Luke Neal, Fanxing Li “Effect of support on redox stability of iron oxide for chemical looping conversion of methane”. Applied Catalysis B: Environmental. 2014, 164, 371-379.
  • Luke Neal, Arya Shafiefarhood, Fanxing Li “Dynamic methane partial oxidation using a Fe2O3@La0.8Sr0.2FeO3-d Core-Shell redox catalyst in absence of gaseous oxygen”. ACS Catalysis. 2014, 4(10), 3560-3569.
  • Arya Shafiefarhood, Amy Stewart, Fanxing Li “Iron-Containing Mixed-Oxide Composites as Oxygen Carriers for Chemical Looping with Oxygen Uncoupling (CLOU)”. Fuel. 2015, 139, 1-10
  • Yanguang Chen, Feng He, Shivalik Daga, Fanxing Li “Redox conversion of methane with Fe2O3-CaTixM1-xO3 composite oxides for hydrogen and liquid fuel co-production”. Journal of Chemical Industry and Engineering(China), (In Chinese, Festschrift for Prof. Yong Jin)
  • Yanguang Chen, Nathan L Galinsky, Ziren Wang, Fanxing Li “Investigation of Perovskite Supported Composite Oxides for Chemical Looping Conversion of Syngas”. Fuel. 2014, 134, 521-530
  • Feng He and Fanxing Li “Hydrogen production from methane and solar energy – process evaluations and comparison studies”. International Journal of Hydrogen Energy. 2014, 39(31), 18092-18102.
  • Feng He, James Trainham, Gregory Parsons, John S. Newmanbc, and Fanxing Li “A hybrid solar-redox scheme for liquid fuel and hydrogen coproduction”. Energy and Environmental Science. 2014, 7, 2033-2042.
  • Phillip N. Pressley, Tarek N. Aziz, Joseph F. DeCarolis, Morton A. Barlaz, Feng He, Fanxing Li, Anders Damgaardc “Municipal solid waste conversion to transportation fuels: a life-cycle estimation of global warming potential and energy consumption”. Journal of Cleaner Production. 2014, 70: 145-153.
  • Arya Shafiefarhood, Nathan Galinsky, Yan Huang, Yanguang Chen, and Fanxing Li “Fe2O3@LaxSr1-xFeO3 Core-Shell Redox Catalyst for Chemical Looping Reforming of Methane”. ChemCatChem. 2014, 6(3): 790-799.
  • Yang Liu, Weiwei Hu, Kelly Wiltberger, Thomas Ryll, and Fanxing Li “Effects of Bubble-Liquid Two-Phase Turbulent Hydrodynamics on Cell Damage in Sparged Bioreactor”. Biotechnology Progress, 2014, 30(1): 48-58.

2013

  • Feng He, nathan Galinsky, Fanxing Li. “Chemical looping gasification of solid fuels using bimetallic oxygen carrier particles – Feasibility assessment and process simulations” Int. J. Hydrog. Energy, 2013, 38(19): 7839-7854
  • Nathan Galinsky, Yan Huang, Arya Shafiefarhood, Fanxing Li. “Iron Oxide with Facilitated O2- Transport for Facile Fuel Oxidation and CO2 Capture in a Chemical Looping Scheme.” Acs Sustain. Chem. Eng. 2013, 1, 364-373.

2012

  • Liang Zeng, Feng He, Fanxing Li, and L.-S. Fan. “Coal-Direct Chemical Looping Gasification for Hydrogen Production: Reactor Modeling and Process Simulation.” Energy and Fuels. 2012, 26, 3680-3690.
  • Deepak Shridhar, Andrew Tong, Hyung Ray Kim, Liang Zeng, Fanxing Li, and L.-S. Fan. “syngas chemical looping process: design and construction of a 25kwth sub-pilot unit.” Energy Fuels, 2012, 26 (4), 2292-2302
  • Liang Zeng, Siwei Luo, Fanxing Li, and L.-S. Fan. “Chemical looping technology and its applications in fossil fuel conversion and CO2 capture.” Science China Chemistry. 2012, 42(3): 260-281 (in Chinese).

2011 and earlier

  • Fanxing Li, Siwei Luo, Zhenchao Sun, and L.-S. Fan. “Role of Metal Oxide Support in Redox Reactions of Iron Oxide for Chemical Looping Applications: Experiments and Density Functional Theory Calculations.” Energy and Environmental Science. 2011, 4: 3661-3667.
  • Zhenchao Sun, Fu-Chen Yu, Fanxing Li, Songgeng Li, and Liang-Shih Fan. “Experimental Study of HCl Capture Using CaO Sorbents: Activation, Deactivation, Reactivation, and Ionic Transfer Mechanism” Industrial and Engineering Chemistry Research. 2011, 50(10): 6034-6043.
  • Fanxing Li, Zhenchao Sun, Siwei Luo, and L.-S. Fan. “Ionic Diffusion in Iron Oxidation – Effect of Support and Its Implications to Chemical Looping Applications” Energy and Environmental Science. 2011, 4, 876-880.
  • Fanxing Li, Liang Zeng, and L.-S. Fan. “Biomass Direct Chemical Looping Process: Process Simulations”, Fuel, 2010, 89(12): 3773 – 3784.
  • Fanxing Li, Liang Zeng, Luis G. Velazquez-Vargas, Zack Yosevich, and L.-S. Fan. “Syngas Chemical Looping Gasification Process: Bench Studies and Reactor Simulations”, AIChE Journal. 2010, 56(8): 2186-2199.
  • Fanxing Li, Hyung Rae Kim, Deepak Sridhar, Fei Wang, Liang Zeng, and L.-S. Fan. “Syngas Chemical Looping Gasification Process: Oxygen Carrier Particle Selection and Performance.” Energy and Fuel, 2009, 23(8): 4182 – 4189.
  • Fanxing Li, Liang Zeng, and L.-S. Fan. “Techno-Economic Analysis of Coal Based Hydrogen and Electricity Co-Generation Processes with CO2 Capture”, Industrial and Engineering Chemistry Research. 2010, 49 (21), 11018 – 11028.
  • L.-S. Fan and Fanxing Li. “Chemical Looping Technology and Its Fossil Energy Conversion Applications”, Industrial and Engineering Chemistry Research. 2010, 49 (21), 10200 – 10211.
  • Fanxing Li, L.-S. Fan. “Clean Coal Conversion Processes – Progress and Challenges.” Energy and Environmental Science. 2008, 1:248-267. (Rated as “most downloaded article” in 2008 – 2009 by RSC)
  • L.-S. Fan, Fanxing Li, Shwetha Ramkumar. “Utilization of Chemical Looping in Coal Gasification Processes.” Particuology (on coverpage), 2008, 6(3):131-142.
  • Fanxing Li, Yao Wang, Dezheng Wang, Fei Wei. “Characterization of single-wall carbon nanotubes by N2 adsorption.” Carbon, 2004, 42: 2375-2383.
  • Dezheng Wang, Fanxing Li, Xueliang Zhao. “Diffusion Limitation in Fast Transient Experiments.” Chemical Engineering Science. 59(2004), 5615-5622.
  • Xueliang Zhao, Fanxing Li, Dezheng Wang. “Comparison of Microkinetics and Langmuir -Hinshelwood Models of the Partial Oxidation of Methane to Synthesis Gas.” Studies in Surface Science and Catalysis. 2004, 147: 235-240.

Book Chapters and Magazine Articles

  • Yunfei Gao, Fanxing Li. “Natural Gas Conversion” in Direct Natural Gas Conversion to Value-Added Chemicals.
  • L.-S. Fan, Fanxing Li. “Clean Coal.” Physics World. July (The Institute of Physics Publishing), 2007.
  • Fanxing Li, Fei Wang, Deepak Sridhar, Hyung-Rae Kim, Luis G. Velazquez-Vargas, and Liang-Shih Fan. “Chemical Looping Combustion” in Chemical Looping Systems for Fossil Energy Conversions.
  • Fanxing Li, Liang Zeng, Shwetha Ramkumar, Mahesh Iyer, and Liang-Shih Fan. “Chemical Looping Gasification Using Gaseous Fuels” in Chemical Looping Systems for Fossil Energy Conversions.
  • Fanxing Li, Luis G. Velazquez-Vargas, Liang Zeng, Deepak Sridhar, and Liang-Shih Fan. “Chemical Looping Gasification Using Solid Fuels” in Chemical Looping Systems for Fossil Energy Conversions.
  • Puneet Gupta, Fanxing Li, L. G. Velazquez-Vargas, Deepak Sridhar, Mahesh Iyer, S. Ramkumar, and Liang-Shih Fan. “Chemical Looping Particles” in Chemical Looping Systems for Fossil Energy Conversions.
  • Ah-Hyung Alissa Park, Puneet Gupta, Fanxing Li, Deepak Sridhar, and Liang-Shih Fan. “Novel Application of Chemical Looping Technologies” in Chemical Looping Systems for Fossil Energy Conversions.

Patents and Patent Applications

  • L.-S. Fan, Reddy Karri, Fanxing Li, John Findlay, Ted Knowlton, Fei Wang, Ray Cocco, Andrew Tong. Circulating Fluidized Bed with Moving Bed Downcomers and Gas Sealing Between Reactors. Jointly filed between OSU and Particulate Solid Research Inc. (Filed on 11/05/2010)
  • L.-S. Fan, Fanxing Li, Liang Zeng. Synthetic Fuels and Chemicals Production with in-situ CO2 Capture. PCT/US10/48121. 2009.
  • L.-S. Fan, Fanxing Li, Liang Zeng, Deepak Sridhar. Integration of Reforming/Water Splitting and Electrochemical Systems for Power Generation with Integrated Carbon Capture. PCT/US10/48125. 2009. (Various companies including Shell and Babcock & Wilcox have shown interest on the two aforementioned patents. Collaborative development agreement has been signed with Shell and is being negotiated with B&W)
  • L.-S. Fan, Fanxing Li. Methods to Convert Carbonaceous Fuels into Carbon Free Energy Carriers. WO 2010037011. PCT Int. Appl., WO 2010037011, 2008. (Licensed to Industrial Technology Research Institute)
  • L.-S. Fan, Puneet Gupta, Luis G Velazquez-Vargas, Fanxing Li. Systems and Methods of Converting Fuels. PCT Int. Appl. WO 2007082089, 2007.
  • L.-S. Fan, Deepak Sridhar, and Fanxing Li. “Oxygen Carrying Materials”. PCT. WO 2,012,155,059.
  • L.-S. Fan, Puneet Gupta, Luis G Velazquez-Vargas, Fanxing Li. “Systems and Methods of Converting Fuels”. PCT. WO 2007082089, 2007.
  • Fanxing Li and Yanguang Chen. “Mixed-Conductor Enhanced Composite and Core-Shell Oxides for Cyclic Redox Productions of Fuels and Chemicals”. US 61/923,939, 2014.
  • Fanxing Li, Jim Trainham, Feng He, Greg Parsons, and John Newman. “Hybrid Redox Systems and Methods and Oxygen Carriers for Use Therein For Fuel Production”. US 61/973,670, 2014.
  • Fanxing Li, Weiwei Hu, Yang Liu, and Kelly Wiltberger. “Bioreactor Gas Sparging and in-situ Hold-Up Monitoring System”. Jan. 2014.
  • John Sofranko and Fanxing Li. “Improved Electrogenerative Process”. US 61/927,220, 2014.
  • L.-S. Fan, Fanxing Li, Liang Zeng, and Deepak Sridhar. “Integration of reforming/water splitting and electrochemical systems for power generation with integrated carbon capture.” US 15/162,199, 2016.
  • Fanxing Li, Xing Zhu, Yunfei Gao. “Materials and methods for oxidative dehydrogenation of alkyl aromatic compounds involving lattice oxygen of transition metal oxides”. US20200009539A1, 2020.
  • Fanxing Li, Luke M Neal. “Ethylene yield in oxidative dehydrogenation of ethane and ethane containing hydrocarbon mixtures
    Abstract”. 10550051, 2020.
  • F Li, LM Neal, Y Gao, S Yusuf, R Dudek. “Oxygen carrying materials with surface modification for redox-based catalysis and methods of making and uses thereof”. US20200215515A1, 2020.
  • LS Fan, F Li, L Zeng. “Synthetic fuels and chemicals production with in-situ CO2 capture”. US10865346B2, 2020.