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Brant Peppley

Brant Peppley

Queens University

H-index: 44

Asia-Bangladesh

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About Brant Peppley

Brant Peppley, With an exceptional h-index of 44 and a recent h-index of 27 (since 2020), a distinguished researcher at Queens University, specializes in the field of Catalysis, Fuel Cells, Hydrogen Energy, Sustainability.

His recent articles reflect a diverse array of research interests and contributions to the field:

Controlling the contribution of transport mechanisms in solid oxide co-electrolysis cells to improve product selectivity and performance: A theoretical framework

Reverse water gas shift versus carbon dioxide electro-reduction: The reaction pathway responsible for carbon monoxide production in solid oxide co-electrolysis cells

Tuning transport mechanisms in fuel-assisted solid oxide electrolysis cells for enhanced performance and product selectivity: Thermodynamic and kinetic modeling

Elucidating the Reaction Pathways Responsible for Carbon Monoxide Production in Solid Oxide Co-Electrolysis Cells: A Theoretical Framework

Study of electrochemical stability and physical characteristics of ball milled tantalum carbide as a support for oxygen evolution reaction electrocatalysts

Performance of Sulfonated Phenylated Polyphenylene Membrane As a Polymer Electrolyte Membrane for Water Electrolysis

Printing of graphene supercapacitors with enhanced capacitances induced by a leavening agent

Characterisation of Tantalum Carbide As a Support for Iridium Based Oxygen Evolution Reaction Catalyst for Polymer Electrolyte Membrane Water Electrolysis

Brant Peppley Information

University

Position

Chemical Engineering

Citations(all)

11582

Citations(since 2020)

2911

Cited By

9894

hIndex(all)

44

hIndex(since 2020)

27

i10Index(all)

91

i10Index(since 2020)

57

Email

University Profile Page

Google Scholar

Brant Peppley Skills & Research Interests

Catalysis

Fuel Cells

Hydrogen Energy

Sustainability

Top articles of Brant Peppley

Title

Journal

Author(s)

Publication Date

Controlling the contribution of transport mechanisms in solid oxide co-electrolysis cells to improve product selectivity and performance: A theoretical framework

Applied Energy

Anders S Nielsen

Brant A Peppley

Odne S Burheim

2023/8/15

Reverse water gas shift versus carbon dioxide electro-reduction: The reaction pathway responsible for carbon monoxide production in solid oxide co-electrolysis cells

Energies

Anders S Nielsen

Brant A Peppley

Odne S Burheim

2023/8/3

Tuning transport mechanisms in fuel-assisted solid oxide electrolysis cells for enhanced performance and product selectivity: Thermodynamic and kinetic modeling

Chemical Engineering Journal

Anders S Nielsen

Brant A Peppley

Odne S Burheim

2023/1/15

Elucidating the Reaction Pathways Responsible for Carbon Monoxide Production in Solid Oxide Co-Electrolysis Cells: A Theoretical Framework

Electrochemical Society Meeting Abstracts 241

Anders Stanley Nielsen

Brant Peppley

Odne Stokke Burheim

2022/7/7

Study of electrochemical stability and physical characteristics of ball milled tantalum carbide as a support for oxygen evolution reaction electrocatalysts

Ceramics International

Nafiseh Rezaei

Rutendo Leah Mutambanengwe

Brant Anthony Peppley

2021/6/1

Performance of Sulfonated Phenylated Polyphenylene Membrane As a Polymer Electrolyte Membrane for Water Electrolysis

Electrochemical Society Meeting Abstracts 237

Rutendo Leah Mutambanengwe

Brant A Peppley

2020/5/1

Printing of graphene supercapacitors with enhanced capacitances induced by a leavening agent

Journal of Energy Storage

Minh-Hao Pham

Ali Khazaeli

Gabrielle Godbille-Cardona

Florina Truica-Marasescu

Brant Peppley

...

2020/4/1

Characterisation of Tantalum Carbide As a Support for Iridium Based Oxygen Evolution Reaction Catalyst for Polymer Electrolyte Membrane Water Electrolysis

Electrochemical Society Meeting Abstracts 237

Nafiseh Rezaei

Brant A Peppley

2020/5/1

Tantalum Carbide Supported Iridium Based Oxygen Evolution Reaction Electrocatalysts for Polymer Electrolyte Membrane Water Electrolysis

Electrochemical Society Meeting Abstracts 237

Nafiseh Rezaei

Brant A Peppley

2020/5/1

Investigating the Performance of Tantalum Carbide Supported Iridium-Based Catalyst for Polymer Electrolyte Membrane Water Electrolysis

Electrochemical Society Meeting Abstracts 237

Rutendo Leah Mutambanengwe

Brant A Peppley

2020/5/1

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