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Abuliti ABUDULA Professor

Japanese

Message: Welcome those who are interested in the energy and environment studies in our laboratory from all over the world to contact us. We will provide you with the nice research environment. Those with solid background on Chemical Engineering, Chemistry, Energy and Environmental Materials are more than welcome.

Name: Abuliti Abudula

Telephone: +81-172-39-3719

E-mail: abuliti@hirosaki-u.ac.jp

Current Position:

Professor, Graduate School of Science and Technology and Department of Sustainable Energy, Hirosaki University

Education:

Year               Degree           Institution and location
1981-1985 B.S. Dalian University of Technology
1992-1997 Dr.Eng The University of Tokyo

Professional experiences

2016-present Professor, Graduate School of Science and Technology and Department of Sustainable Energy, Hirosaki University
2009-2016 Professor, Graduate School of Science and Technology and North Japan Research Institute for Sustainable Energy, Hirosaki University
2004-2009 Chief Engineer, Aomori Prefectural Industrial Technology Research Center, Japan
1999-2004 Associate Professor, School of Science and Technology, Hirosaki University
1997-1999 Postdoctoral Fellow, New Energy and Industrial Technology Development Organization (NEDO), Japan
1985-1992 Assistant Professor, Xinjiang Institute of Technology, P.R.China

Society membership:

The Society of Chemical Engineers of Japan, Society of Automotive Engineers of Japan, The Japan Institute of Energy, The Electrochemical Society of Japan

Major Research Interests:

Hydrogen, Fuel Cells, Electric vehicles (Battery), Biomass conversion, Environmental technology/ environmental material, Energy analysis

Main and recent publications:

*2023

  • “Electro-thermal model of all-solid-state lithium battery with composite solid-state electrolyte,” EcoEnergy 1(2)(2023) 414-424.
  • “Addition of torrefied algal biomass to improve land-based biomass gasification for hydrogen-rich gas production,” Algal Research 74(2023) 103236.
  • “Highly durable FeNiSx/NiFe(OH)x electrocatalyst for selective oxygen evolution reaction in alkaline simulated seawater at high current densities,” International Journal of Hydrogen Energy 48(2023)34255-34271.
  • “High-entropy NiFeCoV Disulfides for Enhanced Alkaline Water/Seawater Electrolysis,” Journal of Colloid & Interface Science 645(9)(2023),724-734.
  • “Utilization of fruit waste for H2-rich syngas production via steam co-gasification with brown coal,” Carbon Resources Conversion 6(2023)315-325.
  • “Biostarch-assisted synthesis of microscopic heterogeneous manganese-cobalt oxides for efficient catalytic combustion of toluene,” Chemical Engineering Journal 464, 15(5)(2023)142739.
  • “Construction of Cobalt Sulfide/Molybdenum Disulfide Heterostructure as the Anode Material for Sodium Ion Batteries,” Advanced Composites and Hybrid Materials 6(2023),85.
  • “Effect of nano Al2O3 addition on cycling performance of poly(ether block amide) based solid-state lithium metal batteries,” Resources Chemicals and Materials 2(2023),167-176.
  • “Feasibility Evaluation of a New Approach of Seawater Flooding for Offshore Natural Gas Hydrate Exploitation,” Energy Fuels 37(6)(2023)4349–4364.
  • “Tuning octahedron sites in MnFe2O4 spinel by boron doping for highly efficient seawater splitting,” Applied Catalysis B: Environmental 330(2023) 122577.
  • “Synthesis of MnOx from pectin-driven sol-gel for catalytic oxidation of toluene,” JCIS Open 9(2023) 100076.
  • “Micro-flower-like MoS2-modified Co9S8 Heterostructure as Anode Material for Sodium-ion Batteries with Superior Reversibility and Rate Capacity,” Journal of Materials Science & Technology 145(2023) 210-220.
  • “F-doped In(OH)3 for Electrochemical Reduction of CO2 to formate,” Chemical Engineering Journal455 (2023): 140720.
  • “Ti3C2Tx nanosheets with uniformly anchored Ru nanoparticles for efficient acidic and basic hydrogen evolution reaction,” International Journal of Hydrogen Energy48.25 (2023): 9163-9171.
  • “Modification of spinel MnCo2O4 nanowire with NiFe-layered double hydroxide nanoflakes for stable seawater oxidation,” Journal of Colloid & Interface Science 632(PartA)(2023) 54-64.
  • “A poly(ether block amide) based solid polymer electrolyte for solid-state lithium metal batteries,” Journal of Colloid & Interface Science 630(2023) 595-603.
  • “Nanosheet-state cobalt-manganese oxide with multifarious active regions derived from oxidation-etching of metal organic framework precursor for catalytic combustion of toluene,” Journal of Colloid & Interface Science 629 (A)(2023) 706-722.
  • “Heterojunction engineering of Ni3S2/NiS nanowire for electrochemical hydrogen evolution,” Fuel 331(2023) 125794.

*2022

  • “Heterointerface Engineering of Ni3S2@NiCo-LDH Core-shell Structure for Efficient Oxygen Evolution Reaction under Intermittent Conditions,” Electrochimica Acta 435(2022)141438.
  • “Catalytic upgrading of bio-oils derived from terrestrial and marine biomass over various types of zeolites,” Journal of Analytical and Applied Pyrolysis 168(2022)105735.
  • “State of Health Trajectory Prediction Based on Multi-Output Gaussian Process Regression for Lithium-Ion Batteries,” Batteries 2022, 8(10)134.
  • “A separate-type autothermal CH4 dry reforming system with exergy recuperation,” Carbon Resources Conversion 5(4)(2022)310-319.
  • “Effects of different lithium compound electrodes on the electrochemical performance of the ceramic fuel cells,” International of Hydrogen Energy 47(86)(2022)36640-36649.
  • “A two-stage circulated fluidized bed process to minimize tar generation of biomass gasification for fuel gas production,,” Applied Energy 323(2022) 119639.
  • “Hydro-upgrading of low-rank oil with CO2-containing H2 gas generated online from methanol steam reforming,” Fuel 327(2022) 125172.
  • “Prussian Blue Analog Derived Cobalt Sulfide Nanoparticles Embedded in N/S Co-doped Carbon Frameworks as a High-Performance Anode Material for Sodium-ion Batteries,” ACS Applied Energy Materials 5(2022) 8697-8708.
  • “Trimetallic sulfides derived from tri-metal-organic frameworks as anode materials for advanced sodium ion batteries,” Journal of Colloid Interface Science 625(2022) 248-256.
  • “ZIF-8 derived carbon with confined sub-nanometer pores for electrochemically selective separation of chloride ions,” Separation and Purification Technology 295 (2022) 121222.
  • “Selective dehydrogenation of aqueous formic acid over multifunctional γ-Mo2N catalysts at a temperature lower than 100 ℃,” Applied Catalysis B: Environmental 313 (2022) 121445.
  • “A flexible Li2SnO3-coupled PEO-based single-ion conducting composite solid-state electrolyte for highly-stable Li metal batteries,” Journal of Alloys and Compounds 911(5)(2022)165138.
  • “Foldable nano-Li2MnO3 integrated composite polymer solid electrolyte for all-solid-state Li metal batteries with stable interface,” Journal of Colloid and Interface Science 621(2022)232-240.
  • “State of health estimation based on modified Gaussian process regression for lithium-ion batteries,” Journal of Energy Storage 51(2022)104512.
  • “An organosulfide-based energetic liquid as the catholyte in high-energy density lithium metal batteries for large-scale grid energy storage,” Nano Research 2022, (2022) 1-10.
  • “Modelling of pseudocapacitive ion adsorption of electrochemically switched ion exchange based on electroactive site concentration,” ACS Applied Energy Material 5 (2022) 149-158.
  • “Early Prognostics of Lithium-Ion Battery Pack Health,” Sustainability 14(2022)2313.
  • “Multi-hierarchical Porous Mn Doped CoP Catalyst on Nickel Phosphide Foam for Hydrogen Evolution Reaction,” ACS Applied Energy Material 5(2022)149-158.
  • “Facile fabrication of O vacancy rich CuVOx nanobelt@NiO nanosheet array for hydrogen evolution reaction,” Electrochimica Acta 405(2022)139623.
  • “ Zn-VOx-Co nanosheets with amorphous/crystalline heterostructure for highly efficient hydrogen evolution reaction,” Chemical Engineering Journal 432(2022)134329.
  • “An electrochemically induced dual-site adsorption composite film of Ni-MOF derivative/NiCo LDH for selective bromide-ion extraction,” Separation and Purification Technology 283(2022)120175.
  • “Metal organic frameworks derived CoS2/NiS2 heterostructure toward high-performance sodium storage anode materials,” Chemical Engineering Journal 431(2022)134091.
  • “Trace holmium assisting delaminated OMS-2 catalysts for total toluene oxidation at low temperature,” Journal of Colloid Interface Science 608 (2022) 1662-1675.
  • “Microwave-assisted synthesis of manganese oxide catalysts for total toluene oxidation” Journal of Colloid Interface Science”, Fuel 607 (2022) 100-110.
  • “Pilot verification of a two-stage fluidized bed gasifier with a downer pyrolyzer using oxygen-rich air”, Fuel 307 (2022) 121816.
  • “A novel photo-assisted electrochemically switched ion exchange technology for selective recovery of bromide ions”, Chemical Engineering Journal 427 (2022) 131693.

*2021

  • “Catalyst Ni-Mo/Al2O3 Promoted with Infrared Heating Calcination for Hydrodesulfurization of Shale Oil”, Fuel, 305(2021) 121537.
  • “In-situ catalytic upgrading of bio-oil from rapid pyrolysis of biomass over hollow HZSM-5 with mesoporous shell”, Bioresource Technology, 341(2021) 125874.
  • “Numerical evaluation on the effect of horizontal-well systems on the long-term gas hydrate production behavior at the second Shenhu test site”, Journal of Natural Gas Science and Engineering, 95(2021) 104200.
  • “Steam co-gasification of Japanese cedarwood and its commercial biochar for hydrogen-rich gas production”, International Journal of Hydrogen Energy, 46(70)(2021) 34587-34598.
  • “Bilateral growth of monoclinic WO3 and 2D Ti3C2Tx on 3D free-standing hollow graphene foam for all-solid-state supercapacitor”, Chemical Engineering Journal, 421(2)(2021)127883.
  • “One-step synthesized CoNi-embedded N-doped carbon nanotubes as sulfur host to synergistically immobilizing the discharge products in lithium-sulfur batteries”, Journal of Alloys and Compounds, 84 (5)(2021)159952.
  • “Charge induced crystal distortion and morphology remodeling: Formation of Mn-CoP nanowire @ Mn-CoOOH nanosheet electrocatalyst with rich edge dislocation defects”, Applied Catalysis B: Environmental, 292(5)(2021)120172.
  • “Adsorptive removal and photocatalytic decomposition of cationic dyes on niobium oxide with deformed orthorhombic structure”, Journal of hazardous materials, 415(2021)125635.
  • “A novel vanadium-mediated MoS2 with metallic behavior for sodium ion batteries: achieving fast Na+ diffusion to enhance electrochemical kinetics”, Chemical Engineering Journal, 417(8)(2021)128107.
  • “Gas Production Enhancement from a Multi-layered Hydrate Reservoir in the South China Sea by Hydraulic Fracturing”, Energy & Fuels, 35(15)(2021)12104-12118.
  • “Controllable Synthesis of Novel Orderly Layered VMoS2 Anode Materials with Super Electrochemical Performance for Sodium-Ion Batteries”, ACS applied materials & interfaces, 13(22)(2021)26046-26054.
  • “Process analysis of a two-stage fluidized bed gasification system with and without pre-drying of high-water content coal”, The Canadian Journal of Chemical Engineering, 99(7)(2021)1498-1509.
  • “A Small-scale Power Generation System Based on Biomass Direct Chemical Looping Process with Organic Rankine Cycle”, Chemical Engineering and Processing-Process Intensification, 163(2021)108361.
  • “Preparation of various hierarchical HZSM-5 based catalysts for in-situ fast upgrading of bio-oil”, Renewable Energy, 169(5)(2021)283-292.
  • “In-situ catalytic upgrading of bio-oil derived from fast pyrolysis of sunflower stalk to aromatic hydrocarbons over bifunctional Cu-loaded HZSM-5”, Journal of Analytical and Applied Pyrolysis, 155(2021)105079.
  • “Fluoropyridine family: Bifunction as electrolyte solvent and additive to achieve dendrites-free lithium metal batteries”, Journal of Materials Science & Technology, 74(30)(2021) 119-127.
  • “Hydrogen-rich gas production from steam co-gasification of banana peel with agricultural residues and woody biomass”, Waste management, 125(2021)204-214.
  • “Energy-Saving Strategy for a Transport Bed Flash Calcination Process Applied to Magnesit”, Carbon Resources Conversion, 14(2021)122-131.
  • “Two-dimensional Ti3C2TX-nanosheets /Cu2O composite as a high-performance photocatalyst for decomposition of tetracycline”, Carbon Resources Conversion, 14(2021)197-204.
  • “Generation of abundant defects in Mn-Co mixed oxides by a facile agar-gel method for highly efficient catalysis of total toluene oxidation”, Applied Catalysis B: Environmental, 282(2021)119560.
  • “Numerical investigation on the long-term gas production behavior at the 2017 Shenhu methane hydrate production site”, Applied Energy, 285(3)116466.
  • “Numerical evaluation of free gas accumulation behavior in a reservoir during methane hydrate production using a multiple-well system”, Energy, 218(3)(2021)119560.
  • “Biomass-Derived N-Doped Carbon for Efficient Electrocatalytic CO2 Reduction to CO and Zn-CO2 Batteries”, ACS applied materials & interfaces, 13(3)(2021)3738-3747.
  • “A biomass-based small-scale power generation system with energy/exergy recuperation”, Energy Conversion and Management, 227(1)(2021)113623.
  • “Steam Gasification of Co-pyrolysis Chars from Various Types of Biomass”, International Journal of Hydrogen Energy, 46(5)(2021)3640-3650.
  • “Biomass Derived N-doped Carbon for Efficient Electrocatalytic CO2 Reduction to CO and Zn-CO2 Batteries”, ACS Applied Materials & Interfaces, 13(3)(2021)3738-3747.
  • “Fabrication of three-dimensionally heterostructured rGO/WO3.0.5H2O@Cu2S electrodes for high-energy solid-state pouch-type asymmetric supercapacitor”, Chemical Engineering Journal, 403(1)(2021)126411.

*2020

  • “Fabrication of a High Energy Flexible All-Solid-State Supercapacitor Using Pseudocapacitive 2D-Ti3C2Tx-MXene and Battery-Type Reduced Graphene Oxide/Nickel-Cobalt Bimetal Oxide Electrode Materials”, ACS Applied Materials & Interfaces 12(47) (2020) 52749-52762.
  • “A Lithium-salt-containing Ionic Liquid Incorporated Li-Al Layered Double Hydroxide Based Solid Electrolyte with High-Performance and Safety in Solid-State Lithium Batteries”, ACS Sustainable Chemistry & Engineering 8(33) (2020) 12378-12387.
  • “Formic Acid as a Bio-CO Carrier: Selective Dehydration with γ-Mo2N Catalysts at Low Temperatures”, ACS Sustainable Chemistry & Engineering 8(37) (2020) 13956-13965.
  • “Fabrication of CuOx nanowires@NiMnOx nanosheets core@shell-type electrocatalysts: crucial roles of defect modification and valence state for overall water electrolysis”, Journal of Materials Chemistry A 8 (2020) 16463-16476.
  • “Steam gasification of biochars derived from pruned apple branch with various pyrolysis temperatures”, International Journal of Hydrogen Energy 45 (2020) 18321-18330.
  • “Steam gasification of marine biomass and its biochars for hydrogen-rich gas production”, Biomass Conversion and Biorefinery 2020.
  • “An electrochemically switchable triiodide-ion-imprinted PPy membrane for highly selective recognition and continuous extraction of iodide”, Separation and Purification Technology 251 (2020) 117312.
  • “Gentle Hydrotreatment of Shale Oil in Fixed Bed over Ni-Mo/Al2O3 for Upgrading”, Fuel 281 (2020) 118495.
  • “Coral reef-like MoS2 microspheres with 1T/2H phase as high performance anode material for sodium ion batteries”, Journal of Materials Science 55 (2020) 14389-14400.
  • “Heterostructured graphitic-carbon -nitride-nanosheets/copper(I) oxide composite as an enhanced visible light photocatalyst for decomposition of tetracycline antibiotics”, Separation and Purification Technology 250 (2020) 117238.
  • “Numerical simulation of hydrodynamic behaviors in a gas-solids dense downer reactor”, Advanced Powder Technology 31 (2020) 3028-3037.
  • “Synthesis of p-Menthane-3,8-diol from from Citronellal over Lignin-Derived Carbon Acid Catalysts”, New Journal of Chemistry 44 (2020) 10441-10447.
  • “UiO-66-NH2/Cu2O composite as an enhanced visible light photocatalyst for decomposition of organic pollutants”, Journal of Photochemistry and Photobiology A: Chemistry 399 (2020) 112625.
  • “Simultaneously Enhancing the Thermal Stability and Electrochemical Performance of Solid Polymer Electrolytes by Incorporating Rod-like Zn2(OH)BO3 Particles”, International Journal of Hydrogen Energy 45 (2020) 19601-19610.
  • “Low content of samarium doped CeO2 oxide catalysts derived from metal organic framework precursor for toluene oxidation”, Molecular Catalysis 492 (2020) 111027.
  • “A novel system of biomass-based hydrogen production by combining steam bio-oil reforming and chemical looping process”, Applied Energy 268 (2020) 115122.
  • “A novel electrochemically switched ion exchange system for phenol recovery and regeneration of NaOH from sodium phenolate wastewater”, Separation and Purification Technology 248 (2020) 117125.
  • “Full Spectrum Decomposition of Formic Acid over γ-Mo2N based Catalysts: From Dehydration to Dehydrogenation”, ACS Catalysis 10 (2020) 5353-5361.
  • “Electroactive magnetic microparticles for the selective elimination of cesium ions in the wastewater”, Environmental Research 185 (2020) 109474.
  • “Stable hetero-metal doped Co-based catalysts prepared by electrodeposition method for low temperature combustion of toluene”, Carbon Resources Conversions 3 (2020) 95-103.
  • “In-situ morphology transformation of bismuth-based catalysts for effective electroreduction of carbon dioxide”, Sustainable Energy & Fuels 4 (2020) 2831-2840.
  • “Catalytic oxidation of volatile organic compound over Cerium modified Cobalt-based mixed oxide catalysts synthesized by electrodeposition method”, Applied Catalysis B: Environmental 271 (2020) 118941.
  • “2-Fluoropyridine: a novel electrolyte additive for lithium metal batteries with high areal capacity as well as high cycling stability”, Chemical Engineering Journal 393 (2020) 124789.
  • “Effects of cobalt and iron proportions in Pr0.4Sr0.6Co0.9-xFexNb0.1O3-δ electrode material for symmetric solid oxide fuel cells”, Journal of Alloys and Compounds 831 (2020) 154738.
  • “Highly dispersed Ag nanoparticles embedded on the surface of CeO2/CF nanowires derived from three-dimensional structured Cu foam for toluene catalytic oxidation”, Molecular Catalysis 486 (2020) 110879.
  • “Mn-Co oxide decorated on Cu nanowires as efficient catalysts for catalytic oxidation of toluene”, Carbon Resources Conversions 3 (2020) 36-45.
  • “Engineering Interfacial Structures to Accelerate Hydrogen Evolution Efficiency of MoS2 over a Wide pH Range”, Nanoscale 12 (2020) 6810-6820.
  • “3D investigation of the effects of multiple-well systems on methane hydrate production in a low-permeability reservoir”, Journal of Natural Gas Science and Engineering 76 (2020) 103213.
  • “Redox-Ambitious Route to Boost Energy and Capacity Retention of Pouch Type Asymmetric Solid-State Supercapacitor Fabricated with Graphene Oxide-Based Hybrid Electrodes”, Applied Materials Today 19 (2020) 100563.
  • “Nickel phosphate nanorod-enhancedpolyethylene oxide-based composite polymer electrolytes for solid-state lithiumbatteries”, Journal of Colloid and Interface Science 565 (2020) 110-118.
  • “3D visualization of methane hydrate production behaviors under actual wellbore conditions”, Journal of Petroleum Science and Engineering 185 (2020) 106645.
  • “A sandwich-type composite polymer electrolyte for all-solid-state lithium metal batteries with high areal capacity and cycling stability”, Journal of Membrane Science 596 (2020) 117739.
  • “Catalytic pyrolysis of wasted fishing net over calcined scallop shells: Analytical Py-GC/MS study”, Journal of Analytical and Applied Pyrolysis 146 (2020) 104750.
  • “A high-performance electroactive PPy/rGO/NiCo-LDH hybrid film for removal of dilute dodecyl sulfonate ions”, Electrochimica Acta 331 (2020) 135288.
  • “One-dimensional CoMoS4 nanorod arrays as an efficient electrocatalyst for hydrogen evolution reaction”, Journal of Alloys and Compounds 821 (2020) 153245.
  • “Novel SeS2 doped Li2S-P2S5 solid electrolyte with high ionic conductivity for all-solid-state lithium sulfur batteries”, Chemical Engineering Journal 380 (2020) 122419.

*2019

  • “Fabrication of NiO microflake @ NiFe-LDH nanosheet heterostructure electrocatalysts for oxygen evolution reaction”,ACS Sustainable Chemistry & Engineering 7 (2019) 2327 -2334.
  • “Gas recovery enhancement from methane hydrate reservoir in the Nankai Trough using vertical wells”,Energy 166(1) (2019) 834 -844.
  • “Enhanced Gas Recovery from Methane Hydrate Reservoir in the Nankai Trough, Japan”,Energy Procedia 158(2) (2019) 5213-5218.
  • “Application of horizontal wells to the oceanic methane hydrate production in the Nankai Trough, Japan”,Journal of Natural Gas Science and Engineering 62 (2019) 113-131.
  • “Heat-assisted production strategy for oceanic methane hydrate development in the Nankai Trough, Japan”,Journal of Petroleum Science and Engineering 174 (2019) 649-662.
  • “Template-free Electro-synthesis of PbO2 Nanorod with Chrysanthemum-like Array”,Materials Letters 238 (2019) 85-88.
  • “Utilization of Dealkaline Lignin as a Source of Sodium-Promoted MoS2/Mo2C Hybrid Catalysts for Hydrogen Production from Formic Acid”,ACS Sustainable Chemistry & Engineering 7(9) (2019) 8670-8677.
  • “Electrodeposition of Tin-based Electrocatalysts with Different Surface Tin Species Distributions for Electrochemical Reduction of CO2 to HCOOH,ACS Sustainable Chemistry & Engineering 7(10) (2019) 9360-9368.
  • “Cu2O Nanoparticle Hyper-Cross-Linked Polymer Composites for the Visible-Light Photocatalytic Degradation of Methyl Orange”, ACS Applied Nano Materials 2(5) (2019) 2706-2712.
  • “A novel electroactive PPy/HKUST-1 composite film-coated electrode for the selective recovery of lithium ions with low concentrations in aqueous solutions”, Electrochimica Acta 306(20) (2019) 35-44.
  • “Catalytic upgrading of bio-oils over high -alumina zeolites”,Renewable Energy 166(6) (2019) 1304-1310.
  • “Potential power generation on a small-scale separated-type biomass gasification system”, Energy 179(15) (2019) 19-29.
  • “Evaluation of cerium doped perovskites (Ce0.1Sr0.9)xCo0.3Fe0.7O3-δ as cathode materials for solid oxide fuel cells”, Catalysis Today 332(15) (2019) 94-100.
  • “Polyoxomolybdates Catalysed Cascade Conversions of Cellulose to Glycolic Acid with Molecular Oxygen via Selective Aldohexoses Pathways (an Epimerization and a [2+4] Retro-aldol Reaction”, Catalysis Today 332(15) (2019) 28-34.
  • “The effect of density difference on the development of density-driven convection under large Rayleigh number”, International Journal of Heat and Mass Transfer 139(8) (2019) 1087-1095.
  • “Highly efficient defluoridation using a porous MWCNT@NiMn-LDH composites based on ion transport of EDL coupled with ligand exchange mechanism”, Separation and Purification Technology 223(15) (2019) 154-161.
  • “Terephthalic Acid Induced Binder-free NiCoP-carbon Nanocomposite for Highly Efficient Electrocatalysis of Hydrogen Evolution Reaction”, Catalysis Science & Technology 17(9) (2019) 4651-4658.
  • “Bifunctional ionic liquid and conducting ceramic co-assisted solid polymer electrolyte membrane for quasi-solid-state lithium metal batteries”, Journal of Membrane Science 586(15) (2019) 122-129.
  • “Bi-doped SnO Nanosheets Supported on Cu Foam for Electrochemical Reduction of CO2 to HCOOH”, ACS Applied Materials & Interfaces 11(45) (2019) 42114-42122.
  • “Production performance and numerical investigation of the 2017 offshore methane hydrate production test in the Nankai Trough of Japan”, Applied Energy 251(1) (2019) 113338.
  • “In-situ Catalytic Upgrading of Bio-oils Derived from Fast Pyrolysis of Cellulose, Hemicellulose, and Lignin over Various Zeolites”, Journal of the Japan Institute of Energy 98(6) (2019) 254-258.
  • “A novel H1.6Mn1.6O4/reduced graphene oxide composite film for selective electrochemical capturing lithium ions with low concentration”,Separation and Purification Technology 226(1) (2019) 59-67.
  • “Hydrolysis of cellulose and woody biomass over sustainable weak-acid carbon catalysts from alkaline lignin”, Fuel Processing Technology 196(15) (2019) 106175.
  • “3D visualization of fluid flow behaviors during methane hydrate extraction by hot water injection”, Energy 188(1) (2019) 116110.

*2018

  • “Adsorption Behavior of Aromatic Carboxylic Acids on A Cyclodextrin-Based Metal-Organic Framework ,”International Journal of Biomass and Renewables 7 (2018), 17-23.
  • “Bifunctional CoNi/CoFe2O4 /Ni Foam Electrodes for Efficient Overall Water Splitting at a High Current Density ,” Journal of Materials Chemistry A 6 (2018) 19221-19230.
  • “Catalytic Conversion of Biomass Derivatives to Lactic Acid with Increased Selectivity in Aqueous Tin(II) Chloride/Choline Chloride System ,” Green Chemistry 20 (2018) 4112-4119.
  • “Mn doped CoP nanoparticle clusters: an efficient electrocatalyst for hydrogen evolution reaction ,” Catalysis Science & Technology 8(2018) 4407-4412.
  • “Bifunctional Mg-Cu-Loaded β-Zeolite: High Selectivity for the Conversion of Furfural into Monoaromatic Compounds ,” ChemCatChem 10(2018) 3564-3575.
  • “An effective heterogeneous catalyst of [BMIM]3PMo12O40 for selective sugar epimerization ,” ChemPlusChem 83 (2018) 383-389.
  • “Characterization of B-site Niobium-doped Pr0.4Sr0.6(Co0.3Fe0.6)1-xNbxO3-δ (x=0, 0.05, 0.1 and 0.2) perovskites as cathode materials for solid oxide fuel cells ,” ChemistrySelect 3 (2018) 4609-4618.
  • “Fabrication and evaluation of nanocellulose sponge for oil/water separation ,” Carbohydrate Polymers 190 (2018) 184-189.
  • “Selective deoxygenation of carboxylic acids to BTXs over Cu/β-zeolite prepared by ethylene glycol-assisted impregnation ,” Catalysis Communications 110 (2018) 33-37.
  • “Energy analysis and techno-economic assessment of a co-gasification of woody biomass and animal manure, solid oxide fuel cells and micro gas turbine hybrid system ,” Energy 149 (2018) 750-761.
  • “Non-precious Molybdenum-based Catalyst Derived from Biomass: CO-free Hydrogen Production from Formic Acid at Low Temperature ,” Energy Conversion and Management 164 (2018) 122-131.
  • “Effects of operating parameters on performance of a downdraft gasifier in steady and transient state ,” Energy Conversion and Management 155 (2018) 138-146.
  • “Hydrogen Production from Formic Acid over Morphology-controllable Molybdenum Carbide Catalysts ,” Journal of Alloys and Compounds 735 (2018) 1463-1471.

*2017

  • “Facile fabrication of CuO microcube@Fe-Co3O4 nanosheet array as a high-performance electrocatalyst for oxygen evolution reaction ,” Journal of Materials Chemistry A 5 (2017) 21740-21749.
  • “One-Pot Fabrication of Hydrophobic Nanocellulose-Silica Film for Water Resistant Packaging Application ,” Journal of the Japan Institute of Energy 96 (2017) 261-265.
  • “In-situ catalytic upgrading of bio-oil derived from fast pyrolysis of lignin over high aluminum zeolites ,” Fuel Processing Technology 167 (2017) 730-737.
  • “CuO nanowire@Co3O4 ultrathin nanosheet core-shell arrays: An effective catalyst for oxygen evolution reaction ,” Electrochimica Acta 250 (2017) 77-83.
  • “Removal of biomass tar by steam reforming over calcined scallop shell supported Cu catalysts ,” Journal of Energy Chemistry 26 (2017) 660-666.
  • “Decomposition of formic acid for hydrogen production over metal doped nanosheet-like MoC1-x catalysts ,” Energy Conversion and Management 147 (2017) 166-173.
  • “Quantifying the dynamic density driven convection in high permeability packed beds ,” Magnetic Resonance Imaging 39 (2017)168-174.
  • “High selectivity and stability of Mg-doped Al-MCM-41 for in-situ catalytic upgrading fast pyrolysis bio-oil ,” Energy Conversion and Management 142 (2017) 272-285.
  • “A facile one-step way for extraction of nanocellulose with high yield by ball milling with ionic liquid ,” Celluose 24 (2017) 2083-2093.
  • “In-situ intercalation of NiFe LDH materials: an efficient approach to improve electrocatalytic activity and stability for water splitting ,” Journal of Power Sources 347 (2017) 193-200.
  • “In situ unipolar pulse electrodeposition of nickel hexacyanoferrate nanocubes on flexible carbon fibers for supercapacitor working in neutral electrolyte ,” Journal of Alloys and Compounds 695 (2017) 294-301.
  • “Preparation of Sn-b-zeolite via Immobilization of Sn/Choline chloride Complex for Glucose-Fructose Isomerization Reaction ,” Chinese Journal of Catalysis 38 (2017) 426-433.

*2016

  • “Silver-doped Molybdenum Carbide Catalyst with High Activity for Electrochemical Water Splitting,” Physical Chemistry Chemical Physics, 18(2016)32780-32785.
  • “(Bi0.15La0.27Sr0.53)(Co0.25Fe0.75)O3-δ perovskite: a novel cathode material for intermediate temperature solid oxide fuel cells,” Journal of Power Sources, 344 (2016)137-145.
  • “A Novel Electroactive λ-MnO2/PPy/PSS Core-Shell Nanorods Coated Electrode for Selective Recovery of Lithium Ions with Low Concentration,” Journal of Materials Chemistry A, 4(2016)13989-13996.
  • “Preparing hydrophobic nanocellulose-silica film by facile one-pot method,” Carbohydrate Polymers, 153(2016)266-274.
  • “Selectively catalytic upgrading of bio-oil to aromatic hydrocarbons over Zn, Ce or Ni-doped mesoporous rod-like alumina catalysts,” Journal of Molecular Catalysis A: Chemical, 421(2016)235-244.
  • “Controlled Self-Assembly of Oligomers-Grafted Fibrous Polyaniline/Single Zirconium Phosphate Nanosheet Hybrids with Potential-Responsive Ion Exchange Properties,” Chemical Engineering Journal, 302(2016)516-525.
  • “Fabrication of Ni0.5Cu0.5Ox coated YSZ anode by hard template method for solid oxide fuel cells,” Journal of Alloys and Compounds, 669(2016)46-54.
  • “Selective production of aromatic hydrocarbons from catalytic pyrolysis of biomass over Cu or Fe loaded mesoporous rod-like alumina,” RSC Advances, 6(2016)50618-50629.

  • “Fabrication of Cu(OH)2@NiFe-layered double hydroxide catalyst array for electrochemical water splitting,” International Journal of Hydrogen Energy, 41(2016)14553-14561.

  • “Reaction kinetics study of all cis-polyaniline nanotube film modified electrode for fast ascorbic acid detecting,” Journal of Chemical Engineering of Japan, 49(2016)937-942.

  • “Fast co-pyrolysis of low density polyethylene and biomass residue for oil production,”Energy Conversion and Management, 120(2016)422-429.

  • “Steam reforming of biomass tar over calcined egg shell supported catalysts for hydrogen production,” International Journal of Hydrogen Energy, 41(2016)6699-6705.

  • “Reaction intermediate species during the steam reforming of methanol over metal modified molybdenum carbide catalysts,” Applied Catalysis B: Environmental, 189(2016)12-18.

  • “Binder-Free Electrodes of Coal Layered Double Hydroxide on Carbon Fibers for All-Solid-State Flexible Yarn Supercapacitors,” Energy Technology, 4(2016)997-1004.

  • “Catalytic synthesis of levulinic acid and formic acid from glucose in choline chloride aqueous solution,” Chemistry Select, 2(2016)180-188.

  • “Catalytic upgrading of bio-oil over Cu/MCM-41 and Cu/KIT-6 prepared by β-cyclodextrin-assisted co-impregnation method,” Journal of Physical Chemistry C, 120(2016)3396-3407.

  • “Amphiphobic Nanocellulose-modified Paper: Fabrication and Evaluation,” RSC Advances, 6(2016)13328-13334.

  • “Upgrading of bio-oil from biomass pyrolysis over Cu-modified β-zeolite catalyst with high selectivity and stability,” Applied Catalysis B: Environmental, 186(2016)166-172.

  • “Effect of ball milling on the production of nanocellulose using mild acid hydrolysis method,” Journal of the Taiwan Institute of Chemical Engineers, 60(2016)617-622.

  • “Catalytic steam reforming of biomass tar: Prospects and challenges,” Renewable & Sustainable Energy Reviews, 58(2016)450-461.

  • “Oxide ion conductors based on niobium-doped bismuth vanadate: conductivity and phase transitions features,” Ionics, 22 (1)(2016)93-97.

  • “Mg-modified ultra-stable Y type zeolite for the rapidly catalytic copyrolysis of low-rank coal and biomass,” RSC Advances, 6(2016)2096-2105.

  • “Ultrathin nanoflakes of Cobalt-Manganese layered double hydroxide with high reversibility for asymmetric supercapacitor,” Journal of Power Sources, 306(2016)526-534.

*2015

  • “Thermodynamic modeling of an integrated biomass gasification and solid oxide fuel cell system ,” Renewable Energy 81 (2015), 400-410.
  • “Effect of operating parameters on performance of an integrated biomass gasifier, solid oxide fuel cells and micro gas turbine system ,” Biomass and Bioenergy 75 (2015), 35-45.
  • “Mechanisms of methane decomposition and carbon species oxidation on Pr0.42Sr0.6Co0.2Fe0.7Nb0.1O3-σ electrode with high catalytic activity,” Journal of Materials Chemistry A, 45(2015)22816-22823.
  • “A green way to increase yield and quality of bio-oil: ultrasonic pretreatment of biomass and catalytic upgrading of bio-oil over metal (Cu, Fe and/or Zn)/γ-Al2O3,” RSC Advances, 5(2015) 83494-83503.
  • “Homogeneous nanosheet Co3O4 film prepared by novel unipolar pulse electro-deposition method for electrochemical water splitting,” RSC Advances, 5(2015)76026-76031.
  • “Extraction of nanocellulose from raw apple stem,” Journal of the Japan Institute of Energy, 94(8)(2015)787-793.
  • “A sea anemone-like CuO/Co3O4 composite: an effective catalyst for electrochemical water splitting,” Chemical Communications, 51(2015)15012-15014.
  • “Performance assessment of Bi0.3Sr0.7Co0.3Fe0.7O3?δ-LSCF composite as cathode for intermediate-temperature solid oxide fuel cells with La0.8Sr0.2Ga0.8Mg0.2O3?δ electrolyte,” Journal of Power Sources, 298(2015)269-279.
  • “Efficient recovery of high-purity aniline from aqueous solutions using pervaporation-fractional condensation coupling system,” AIChE Journal, 61(12)(2015)4445-4455.
  • “A facile potential-induced in-situ ion removal trick: Fabrication of high-selective ion-imprinted film for trivalent Yttrium ion separation,” Electrochimica Acta, 176(2015)1313-1323.

  • “Evaluation of (Bi0.4Sr0.6)xCo0.3Fe0.7O3-δ (x = 0.7, 0.8, 0.9, 1.0, 1.1) perovskite-type oxide as potential cathode for intermediate-temperature solid oxide fuel cells,” International Journal of Hydrogen Energy, 40(2015)11011-11021.

  • “Cobalt hydroxide [Co(OH)2] loaded carbon fiber flexible electrode for high performance supercapacitor,” RSC Advances, 5(2015)56942-56948.

  • “Oil production from mild pyrolysis of low-rank coal in molten salts media,” Applied Energy, 154(2015)944-950.

  • “Hydrogen production by steam reforming of biomass tar over biomass char supported molybdenum carbide catalyst,” International Journal of Hydrogen Energy, 40(2015)7974-7982.

  • “Silicalite-1 monolith with vertically aligned mesopores templated from carbon nanotube array,” Materials Letters, 154(2015)55-59.

  • “Catalytic steam reforming of tar derived from steam gasification of sunflower stalk over ethylene glycol assisting prepared Ni/MCM-41,” Energy Conversion and Management, 98(2015)359-368.

  • “Embedded structure catalyst: a new perspective from noble metal supported on molybdenum,” RSC Advances, 5(2015)15002-15005.

  • “Biodiesel production from waste cooking oil using calcined scallop shell as catalyst,” Energy Conversion and Management, 95(2015)242-247.

  • “Selective catalytic conversion of bio-oil over high-silica zeolites,” Bioresource Technology, 179(2015)518-523.

  • “B-site Mo-doped perovskite Pr0.4Sr0.6 (Co0.2Fe0.8)1-xMoxO3-σ (x = 0, 0.05, 0.1 and 0.2) as electrode for symmetrical solid oxide fuel cell,” Journal of Power Sources, 276(2015)347-356.

  • “Simultaneous separation of iodide and cesium ions from dilute wastewater based on PPy/PTCF and NiHCF/PTCF electrodes using electrochemically switched ion exchange method,” Separation and Purification Technology, 139(2015)63-69.

*2014

  • “Steam reforming of methanol for hydrogen production over nanostructured wire-like molybdenum carbide catalyst,” International Journal of Hydrogen Energy,39(33)(2014)18803-18811.
  • “Highly-efficient steam reforming of methanol over copper modified molybdenum carbide,” RSC Advances, 4, 44175-44184,2014.
  • “Mo doped Pr0.4Sr0.6Co0.2Fe0.8O3-δ cathode material with high catalytic activity for intermediate temperature solid oxide fuel cells,” Electrochimica Acta, 146, 591-597, 2014.
  • “A novel electroactive hybrid film electrode with proton buffer effect for detection of hydrogen peroxide and urine acid,”Journal of Materials Chemistry A, 2(2014)15035-15043.
  • “Promoting effect of various biomass ashes on the steam gasification of low-rank coal,” Applied Energy, 133(2014)282?288.
  • “Fabrication of nickel hexacyanoferrate film on carbon fibers by unipolar pulse electrodeposition method for electrochemically switched ion exchange application,” Electrochimica Acta, 139(2014)36-41.
  • “Facile preparation of ion-imprinted composite film for selective electrochemical removal of nickel(II) ions,”ACS Applied Materials & Interfaces, 6(12)(2014)9543-9549.
  • " Effect of biomass type on the performance of cogasification of low rank coal with biomass at relatively low temperatures" Fuel, 134(2014)414?419.
  • “Steam reforming of tar derived from Fallopia Japonica stem over its own chars prepared at different conditions” Fuel,132(2014)204-210.
  • “Evaluation of performances of solid oxide fuel cells with symmetrical electrode material,” Journal of Power Sources, 266(2014)241-249.
  • “Catalytic activity and stability of nickel modified molybdenum carbide catalysts for steam reforming of methanol,” Journal of Physical Chemistry C, 118(18)(2014)9485-9496.
  • “An intelligent displacement pumping film system: A new concept for enhancing heavy metal ion removal efficiency from liquid waste,” Journal of Hazardous Materials, 274(2014)436-442.
  • “Enhancement of heavy metals removal efficiency from liquid wastes by using potential-triggered proton self-exchange effects”Electrochimica Acta, 130(2014)40-45.
  • “Electroactive NiHCF/PANI hybrid films prepared by pulse potentiostatic method and its performance for H2O2 detection”Journal of Electroanalytical Chemistry, 717-718(2014)69-77.
  • “Steam co-gasification of brown seaweed and land-based biomass,” Fuel Processing Technology, 120(2014)106-112
  • “Structural and conductivity characteristics of Bi4MgxV2-xO11- (0 ? x ? 0.3) as solid electrolyte for intermediate temperature SOFC application,” Journal of Alloys and Compounds, 589(2014)29-36.
  • “Low-temperature steam reforming of methanol to produce hydrogen over various metal-doped molybdenum carbide catalysts,” International Journal of Hydrogen Energy, 39(2014)258-266.
  • “Properties of A-site nonstoichiometry (Pr0.4)xSr0.6Co0.2Fe0.7Nb0.1O3-σ (0.9?x?1.1) as symmetrical electrode material for SOFCs, ” Journal of Power Sources, 248(2014)163-171.

*2013

  • “Steam reforming of tar derived from the steam pyrolysis of biomass over metal catalyst supported on zeolite,” Journal of the Taiwan Institute of Chemical Engineers, 144(2013)1022-1066
  • “Performance comparison of three solid oxide fuel cell power systems,” International Journal of Energy Research, 137(2013)1821-1830
  • “Highly stable polypyrrole film preparedby unipolar pulse electro-polymerization method as electrode for electrochemical supercapacitor,” Synthetic Metals, 175(2013)138-145
  • “Steam reforming of tar derived from lignin over pompom-like potassium-promoted iron-based catalysts formed on calcined scallop shell,” Bioresource Technology, 139(2013)280-284
  • “Promoting effect of potassium addition to calcined scallop shell supported catalysts for the decomposition of tar derived from different biomass resources,” Fuel, 109(2013)241-247
  • “An all cis-polyaniline nanotube film: Facile synthesis and applications,” Electrochimica Acta, 99(2013)38-45
  • “Effects of dry methane concentration on the methane reactions at Ni-YSZ anode in solid oxide fuel cell ,” Journal of Fuel Chemistry and Technology , 99(2013)38-45
  • “DMFC Performance of Cross-Linked Sulfoethylcellulose/Poly(Vinyl Alcohol) Blend Electrolyte Membranes”, ECS Trans. 50(2013)2039-2047

*2012

  • “An experimental study on CO2/water displacement in porous media using high-resolution Magnetic Resonance Imaging”, International Journal of Greenhouse Gas Control, Vol.10, pp.501-509
  • “Measurement of Fluid Flow in Pipe and Porous Media by High-Resolution Magnetic Resonance Imaging”, China Ocean Eng., Vol.26, No.2, pp.317-327
  • “Performances of cathode-supported SOFC with Ni0.5Cu0.5-CGO anode operated in humidified hydrogen and in low concentration dry methane”, Journal of Solid State Electrochemistry, Vol.16 No.6, pp.2071-2077
  • “Catalytic steam reforming of biomass tar over iron-or nickel-based catalyst supported on   calcined scallop shell”, Applied Catalysis B:Environmental,Vol.115-116 No.5, pp.159-168(2012)
  • “Nickel volatilization phenomenon on the Ni-CGO anode in a cathode-supported SOFC  operated at low concentrations of H2”, International Journal of hydrogen energy, Vol.37 No.1, pp.477-483(2012)

*2011

  • “Rapid degradation phenomenon of NiCu-Ce0.8Gd0.2O1.9 anode at high p(H2O) in different concentrations of dry methane”, Electrochimica Acta,Vol.56 No.27, pp.9868-9874(2011)
  • “Degradation mechanism of Ni-based anode in low concentrations of dry methane”, Journal of Power Sources, Vol.196 No.15, pp.6022-6028 (2011)
  • “Rapid degradation mechanism of Ni-CGO anode in low concentrations of H2 at a high current density”, International Journal of Hydrogen Energy, Vol.36 No.14, pp.8461-8467(2011)
  • “The real time dynamic water transport investigation due to Net Water Transport coefficient (NWTC) based on measurement of water content in the outlet gas in a PEFC”, International Journal of Hydrogen Energy, Vol.36 No.12, pp.7183-7190(2011)

  • “Characterization of planer cathode-supported SOFC prepared by a dual dry pressing method”, Journal of Alloys and Compounds, Vol.509 No.16, pp.5159-5162 (2011)
  • “The conversion among reactions at Ni-based anodes in solid oxide fuel cells with low concentrations of dry-methane”, Journal of Power Sources, Vol.196 No.5, pp.2779-2784(2011)
  • “Effects of gas recycle on performance of solid oxide fuel cell power systems”, Energy, Vol.36 No.2, pp.1068-1075(2011)

*2010

  • “Polymer Electrolyte Membranes Based on Sulfoethylcellulose and poly(vinyl-alcohol) for Direct   Methanol Fuel Cells”, ECS Transactions Vol.33 No.1, pp.755-762(2010)
  • “Power generating performances of ethanol on the SOFC with Ni-ZnO-ZrO2-YSZ anode”,Jounal of Fuel  Chemistry and Technology,Vol.38 No.1,pp.116-120(2010)
  • “A three-dimensional analysis of the effect of anisotropic gas diffusion layer(GDL) thermal conductivity on teh heat transfer and two-phase behavior in a proton exchange membrane fuel cell(PEMFC)”,Journal of Power Sources,Vol.195 No.6,pp.1551-1560(2010)
  • “The real-time determination of net water transport coefficient based on measurement of woter content in the outlet gas in a polymer electrolyte fuel cell,”Journal of Sources,Vol.195 No.15,pp.4722-4726(2010)
  • “Imaging of Single phase flow in porous media by high resolution MRI”,Advanced Materials Research,Vol.113-114,pp126-131(2010)
  • “The effect of wall roughness on the liquid removal in micro-channels related to a proton exchange membrane fuel cell(PEMFC)”,Journal of Power Sources,Vol.195 No.6,pp.1561-1568(2010)

*2009

  • “A droplet size dependent multiphase mixture model for two phase flow in PEMFCs”, Journal of Power Sources, Vol.194, No.1, pp.190-198(2009)
  • “A Droplet Size Dependent Multiphase Mixture Model and Three-dimensional Simulation of PEM Fuel Cells”, ECS Transactions, Vol.19 No.1, pp.51-64
  • “Proton Conductivity and Methanol Permeability of Cross-Linked Sulfoethylcellulose Membranes”, KOBUNSHI RONBUNSHU, Vol.66 No.9, pp.373-380(2009)
  • “Performance comparison of solid oxide fuel cells with different structural parameters of electrode”, Journal of the Energy Institute, Vol.82 No.2, pp.64-68(2009)
  • “Preparation and electrochemical properties of NiO-CGO anode support solid oxide fuel cell with ScSZ/CGO compo-site electrolyte. Journal of The Chinese Ceramic Society”, Vol.37 No.8, pp.35-39(2009)
  • “Proton Conductivity and Methanol Permeability of Cellulose Sulfate Membrancew”, KOBUNSHI RONBUNSHU, Vol.66, No.4, pp.130-135(2009)

 *2008

  • “Numerical Simulation for Effect of Combustion Zone on Performance of Tubular Solid Oxide Fuel Cell”, Journal of the Chinese Society for Electrical Engineering,Vol.28 No.35, pp.120-126(2008)
  • “Effect of operation conditions on reaction over anode in SOFC, Chemical Industry and Engineering Progress”, Vol.27 No.10, pp.1624-1628(2008)
  • “Fabrication and evaluation of a ScSZ/CGO composite electrolyte by a dual dry pressing method”, Journal of Energy and Power Engineering,Vol.2 No.8, pp.27-32(2008)
  • “Preparation and Electrochemical Properties of Alginate Sulfate Electrolyte Membranes”, KOBUNSHI RONBUNSHU, Vol.65, No.4, pp.554-546(2008)
  • “Effect of operation parameters on performance of tubular solid oxide fuel cell”, AIChE Journal, Vol.54 No.2,pp.554-564(2008)
  • “Three-dimensional analysis of two-layer gas diffusion layer characteristics of proton exchange membrane fuel cell”, Journal of Chemical Industry and Engineering(China),Vol.59 No.1,pp.182-188(2008)

*2007

  • “A Mathematical model of a tubular solid oxide fuel cell with specified combustion Zone”, Journal of Power Source, Vol.171 No.2, pp.696-705(2007)
  • “Transient Numerical Simulation for a Tubular Solid Oxide Fuel Cell”, Journal of the Chinese Society for Electrical Engineering,Vol.27 No.20, pp.91-98(2007)
  • “Three-dimensional simulation of heat and mass transfer in proton exchange membrane fuel cell”, Journal of Chemical Industry and Engineering(China), Vol.58 No.6,pp.1371-1377(2007)
  • “Reactions of low and middle concentration dry methane over Ni/YSZ anode of solid oxide fuel cell”, Journal of Power Source, Vol.165 No.2, pp.722-727(2007)
  • “A two-fluid model for two-phase flow in PEMFCs”, Journal of Power Source, Vol.163 No.2, pp.864-873(2007)
  • “A fractal model for predicting permeability and liquid water relative permeability in the gas diffusion layer (GDL) of PEMFCs, Journal of Power Source” ,Vol.163 No.2, pp.846-852(2007)
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