Performance investigation of alkaline direct methanol fuel cell with commercial PGM-free cathodic materials

[1]  Jianlin Li,et al.  Design of graded cathode catalyst layers with various ionomers for fuel cell application , 2023, Journal of Power Sources.

[2]  D. Wood,et al.  Catalyst Layer Formulations for Slot-Die Coating of Pem Fuel Cell Electrodes , 2022, SSRN Electronic Journal.

[3]  P. Atanassov,et al.  State-of-the-art and developmental trends in platinum group metal-free cathode catalyst for anion exchange membrane fuel cell (AEMFC) , 2022, Applied Catalysis B: Environmental.

[4]  F. Bekun,et al.  Symmetric and asymmetric impact of economic growth, capital formation, renewable and non-renewable energy consumption on environment in OECD countries , 2022, Renewable and Sustainable Energy Reviews.

[5]  A. Kulikovsky,et al.  Design of PGM-free Cathodic Catalyst Layers for Advanced PEM Fuel Cells , 2022, Applied Catalysis B: Environmental.

[6]  Xiang Lyu,et al.  Development of a Universal Method for High Yield of Furfural and Hydrogen from Raw Lignocellulosic Biomass , 2022, SSRN Electronic Journal.

[7]  K. Neyerlin,et al.  Mesoporous textured Fe-N-C electrocatalysts as highly efficient cathodes for proton exchange membrane fuel cells , 2022, Journal of Power Sources.

[8]  Xiang Lyu,et al.  Assessment of lignite upgrade and hydrogen evolution via electrolysis , 2022, Energy Conversion and Management.

[9]  E. Placidi,et al.  Tailoring active sites of iron-nitrogen-carbon catalysts for oxygen reduction in alkaline environment: Effect of nitrogen-based organic precursor and pyrolysis atmosphere , 2021 .

[10]  G. Prakash,et al.  Ionomer Significance in Alkaline Direct Methanol Fuel Cell to Achieve High Power with a Quarternized Poly(terphenylene) Membrane , 2021 .

[11]  Sheng-wu Guo,et al.  Chemical Vapor Deposition for N/S-Doped Single Fe Site Catalysts for the Oxygen Reduction in Direct Methanol Fuel Cells , 2021 .

[12]  C. Santoro,et al.  Platinum group metal-free Fe-based (Fe N C) oxygen reduction electrocatalysts for direct alcohol fuel cells , 2021 .

[13]  S. Holdcroft,et al.  Mesoporous iron-nitrogen co-doped carbon material as cathode catalyst for the anion exchange membrane fuel cell , 2021 .

[14]  S. Kaushal,et al.  Supported bimetallic nanoparticles as anode catalysts for direct methanol fuel cells: A review , 2021 .

[15]  A. Aricò,et al.  Anionic Exchange Membrane for Photo-Electrolysis Application , 2020, Polymers.

[16]  Wayan G. Santika,et al.  An analysis of additional energy requirement to meet the sustainable development goals , 2020 .

[17]  P. Ndungu,et al.  Poly (2, 6-dimethyl-1, 4-phenylene)/polysulfone anion exchange membrane blended with TiO2 with improved water uptake for alkaline fuel cell application , 2020 .

[18]  K. Artyushkova,et al.  Characterizing Complex Gas–Solid Interfaces with in Situ Spectroscopy: Oxygen Adsorption Behavior on Fe–N–C Catalysts , 2020, The Journal of Physical Chemistry C.

[19]  M. S. Masdar,et al.  Active direct methanol fuel cell: An overview , 2020 .

[20]  V. Baglio,et al.  Advances in hybrid composite membranes engineering for high-performance direct methanol fuel cells by alignment of 2D nanostructures and a dual-layer approach , 2020 .

[21]  K. P. Mohapatra,et al.  Designing energy-efficient, economically sustainable and environmentally safe cropping system for the rainfed maize-fallow land of the Eastern Himalayas. , 2020, The Science of the total environment.

[22]  W. Mustain,et al.  Catalytic Advantages, Challenges, and Priorities in Alkaline Membrane Fuel Cells , 2020 .

[23]  Q. Roode-Gutzmer,et al.  Renewable Methanol Synthesis , 2019 .

[24]  Suli Wang,et al.  Recent advances in multi-scale design and construction of materials for direct methanol fuel cells , 2019, Nano Energy.

[25]  A. Lubers,et al.  Commercial platinum group metal-free cathodic electrocatalysts for highly performed direct methanol fuel cell applications , 2019, Journal of Power Sources.

[26]  Yan Liu,et al.  High-Performance Polymer Fiber Membrane Based Direct Methanol Fuel Cell System with Non-Platinum Catalysts , 2019, ACS Sustainable Chemistry & Engineering.

[27]  Carlos Felgueiras,et al.  Analysis of Fossil Fuel Energy Consumption and Environmental Impacts in European Countries , 2019, Energies.

[28]  N. Sullivan,et al.  Highly efficient reversible protonic ceramic electrochemical cells for power generation and fuel production , 2019, Nature Energy.

[29]  Zaoli Zhang,et al.  Graphene-templated synthesis of palladium nanoplates as novel electrocatalyst for direct methanol fuel cell , 2019, Applied Surface Science.

[30]  A. Aricò,et al.  Methanol-Tolerant M–N–C Catalysts for Oxygen Reduction Reactions in Acidic Media and Their Application in Direct Methanol Fuel Cells , 2018, Catalysts.

[31]  K. Artyushkova,et al.  Structure of Active Sites of Fe-N-C Nano-Catalysts for Alkaline Exchange Membrane Fuel Cells , 2018, Nanomaterials.

[32]  Dario R. Dekel,et al.  Surface Adsorption Affects the Performance of Alkaline Anion-Exchange Membrane Fuel Cells , 2018, ACS Catalysis.

[33]  S. Specchia,et al.  Recent trends on the application of PGM-free catalysts at the cathode of anion exchange membrane fuel cells , 2018 .

[34]  T. Kallio,et al.  Transition metal-nitrogen co-doped carbide-derived carbon catalysts for oxygen reduction reaction in alkaline direct methanol fuel cell , 2017 .

[35]  K. Ai,et al.  Scalable preparation of sized-controlled Co-N-C electrocatalyst for efficient oxygen reduction reaction , 2017 .

[36]  K. Artyushkova,et al.  Insights on the extraordinary tolerance to alcohols of Fe-N-C cathode catalysts in highly performing direct alcohol fuel cells , 2017 .

[37]  K. Artyushkova,et al.  Performance, methanol tolerance and stability of Fe-aminobenzimidazole derived catalyst for direct methanol fuel cells , 2016 .

[38]  Yi Hong,et al.  Guanidinium based blend anion exchange membranes for direct methanol alkaline fuel cells (DMAFCs) , 2015 .

[39]  A. Aricò,et al.  Investigation of Supported Pd-Based Electrocatalysts for the Oxygen Reduction Reaction: Performance, Durability and Methanol Tolerance , 2015, Materials.

[40]  Lirong Zheng,et al.  High-performance oxygen reduction electrocatalysts derived from uniform cobalt-adenine assemblies , 2015 .

[41]  A. Herring,et al.  Direct Methanol Anion Exchange Membrane Fuel Cell with a Non-Platinum Group Metal Cathode based on Iron-Aminoantipyrine Catalyst , 2015 .

[42]  Jun Fang,et al.  Novel fluoropolymer anion exchange membranes for alkaline direct methanol fuel cells. , 2012, Journal of colloid and interface science.

[43]  S. Narayanan,et al.  Study of operating conditions and cell design on the performance of alkaline anion exchange membrane , 2011 .

[44]  E. Antolini Palladium in fuel cell catalysis , 2009 .

[45]  U. K. Gupta,et al.  Electrooxidation study of pure ethanol/methanol and their mixture for the application in direct alcohol alkaline fuel cells (DAAFCs) , 2019, International Journal of Hydrogen Energy.

[46]  James L. Horan,et al.  A Direct Methanol Alkaline Fuel Cell Based on Poly(phenylene) Anion Exchange Membranes , 2014 .