Electrocatalytic activities of platinum and palladium catalysts for enhancement of direct formic acid fuel cells: An updated progress

Electrocatalytic activities of platinum and palladium catalysts for enhancement of direct formic acid fuel cells: An updated progress

Direct formic acid fuel cells (DFAFCs) have become an important technology and a clean energy source for various applications. However, some drawbacks in DFAFC applications, such as sluggish kinetics of formic acid oxidation (FAO) reaction at the anodic side, significantly affect DFAFC performance....

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Main Authors: Che Ramli Z.A., Pasupuleti J., Tengku Saharuddin T.S., Yusoff Y.N., Isahak W.N.R.W., Baharudin L., Tak Yaw C., Koh S.P., Tiong Kiong S.
Other Authors: 58160002600
Format: Review
Published: Elsevier B.V. 2024
Subjects:
Carbon nitride
Clean energy production
CNF
CNT
DFAFC
Formic acid oxidation
Fuel cell technology
Graphene
Pd-based catalyst
Pt-based catalyst
Anodic oxidation
Carbon monoxide
Carbon nanofibers
Carbon nanotubes
Catalyst activity
Catalyst poisoning
Formic acid
Formic acid fuel cells (FAFC)
Nanocatalysts
Palladium
Platinum
Reaction kinetics
Clean energy
Direct formic acid fuel cells
Energy productions
Fuel cell technologies
Palladium based catalysts
Platinum based catalyst
Electrocatalysts
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-340922024-10-14T11:17:56Z Electrocatalytic activities of platinum and palladium catalysts for enhancement of direct formic acid fuel cells: An updated progress Che Ramli Z.A. Pasupuleti J. Tengku Saharuddin T.S. Yusoff Y.N. Isahak W.N.R.W. Baharudin L. Tak Yaw C. Koh S.P. Tiong Kiong S. 58160002600 11340187300 57115473400 57218340726 57208034136 23666567400 58485335200 22951210700 58486798500 Carbon nitride Clean energy production CNF CNT DFAFC Formic acid oxidation Fuel cell technology Graphene Pd-based catalyst Pt-based catalyst Anodic oxidation Carbon monoxide Carbon nanofibers Carbon nanotubes Catalyst activity Catalyst poisoning Formic acid Formic acid fuel cells (FAFC) Graphene Nanocatalysts Palladium Platinum Reaction kinetics Clean energy Clean energy production CNF CNT Direct formic acid fuel cells Energy productions Formic acid oxidation Fuel cell technologies Palladium based catalysts Platinum based catalyst Electrocatalysts Direct formic acid fuel cells (DFAFCs) have become an important technology and a clean energy source for various applications. However, some drawbacks in DFAFC applications, such as sluggish kinetics of formic acid oxidation (FAO) reaction at the anodic side, significantly affect DFAFC performance. An excellent catalyst, platinum (Pt), is very effective and performs excellently in FAO, but it is expensive and tends to form carbon monoxide-poisoning species on the catalyst surface. Therefore, new strategies must be developed to overcome problems related to Pt and simultaneously reduce or replace the use of Pt catalysts. This review paper covers the electrocatalytic activities of platinum and palladium (Pd)-based catalysts, which are commercial catalysts and effective for FAO and DFAFC applications. In this paper, the current progress of electrocatalyst development for anodic FAO and DFAFC applications using commercial Pt and Pd catalysts is presented, focusing on the understanding of Pt and Pd catalytic activities with the addition of alloys, metallic metals, trimetallic/tetrametallic metals, transition metals, and metal oxides. Highly potential nanostructured carbon catalyst supports (graphene-based materials, carbon nanotubes, carbon nanofibers, and graphitic carbon nitride) for FAO and DFAFC applications are also discussed. This review article also examines the literature related to Pt and Pd electrocatalysts on the synthesis routes, electrochemical conditions, and fuel cell performance within 10 years from 2013 until 2023. The challenges and strategies for electrocatalyst commercialization in the field are discussed at the end of the paper. � 2023 THE AUTHORS Final 2024-10-14T03:17:56Z 2024-10-14T03:17:56Z 2023 Review 10.1016/j.aej.2023.06.069 2-s2.0-85164736009 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85164736009&doi=10.1016%2fj.aej.2023.06.069&partnerID=40&md5=416892285f32f7f214c48c975363029b https://irepository.uniten.edu.my/handle/123456789/34092 76 701 733 All Open Access Gold Open Access Elsevier B.V. Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Carbon nitride
Clean energy production
CNF
CNT
DFAFC
Formic acid oxidation
Fuel cell technology
Graphene
Pd-based catalyst
Pt-based catalyst
Anodic oxidation
Carbon monoxide
Carbon nanofibers
Carbon nanotubes
Catalyst activity
Catalyst poisoning
Formic acid
Formic acid fuel cells (FAFC)
Graphene
Nanocatalysts
Palladium
Platinum
Reaction kinetics
Clean energy
Clean energy production
CNF
CNT
Direct formic acid fuel cells
Energy productions
Formic acid oxidation
Fuel cell technologies
Palladium based catalysts
Platinum based catalyst
Electrocatalysts
spellingShingle Carbon nitride
Clean energy production
CNF
CNT
DFAFC
Formic acid oxidation
Fuel cell technology
Graphene
Pd-based catalyst
Pt-based catalyst
Anodic oxidation
Carbon monoxide
Carbon nanofibers
Carbon nanotubes
Catalyst activity
Catalyst poisoning
Formic acid
Formic acid fuel cells (FAFC)
Graphene
Nanocatalysts
Palladium
Platinum
Reaction kinetics
Clean energy
Clean energy production
CNF
CNT
Direct formic acid fuel cells
Energy productions
Formic acid oxidation
Fuel cell technologies
Palladium based catalysts
Platinum based catalyst
Electrocatalysts
Che Ramli Z.A.
Pasupuleti J.
Tengku Saharuddin T.S.
Yusoff Y.N.
Isahak W.N.R.W.
Baharudin L.
Tak Yaw C.
Koh S.P.
Tiong Kiong S.
Electrocatalytic activities of platinum and palladium catalysts for enhancement of direct formic acid fuel cells: An updated progress
description Direct formic acid fuel cells (DFAFCs) have become an important technology and a clean energy source for various applications. However, some drawbacks in DFAFC applications, such as sluggish kinetics of formic acid oxidation (FAO) reaction at the anodic side, significantly affect DFAFC performance. An excellent catalyst, platinum (Pt), is very effective and performs excellently in FAO, but it is expensive and tends to form carbon monoxide-poisoning species on the catalyst surface. Therefore, new strategies must be developed to overcome problems related to Pt and simultaneously reduce or replace the use of Pt catalysts. This review paper covers the electrocatalytic activities of platinum and palladium (Pd)-based catalysts, which are commercial catalysts and effective for FAO and DFAFC applications. In this paper, the current progress of electrocatalyst development for anodic FAO and DFAFC applications using commercial Pt and Pd catalysts is presented, focusing on the understanding of Pt and Pd catalytic activities with the addition of alloys, metallic metals, trimetallic/tetrametallic metals, transition metals, and metal oxides. Highly potential nanostructured carbon catalyst supports (graphene-based materials, carbon nanotubes, carbon nanofibers, and graphitic carbon nitride) for FAO and DFAFC applications are also discussed. This review article also examines the literature related to Pt and Pd electrocatalysts on the synthesis routes, electrochemical conditions, and fuel cell performance within 10 years from 2013 until 2023. The challenges and strategies for electrocatalyst commercialization in the field are discussed at the end of the paper. � 2023 THE AUTHORS
author2 58160002600
author_facet 58160002600
Che Ramli Z.A.
Pasupuleti J.
Tengku Saharuddin T.S.
Yusoff Y.N.
Isahak W.N.R.W.
Baharudin L.
Tak Yaw C.
Koh S.P.
Tiong Kiong S.
format Review
author Che Ramli Z.A.
Pasupuleti J.
Tengku Saharuddin T.S.
Yusoff Y.N.
Isahak W.N.R.W.
Baharudin L.
Tak Yaw C.
Koh S.P.
Tiong Kiong S.
author_sort Che Ramli Z.A.
title Electrocatalytic activities of platinum and palladium catalysts for enhancement of direct formic acid fuel cells: An updated progress
title_short Electrocatalytic activities of platinum and palladium catalysts for enhancement of direct formic acid fuel cells: An updated progress
title_full Electrocatalytic activities of platinum and palladium catalysts for enhancement of direct formic acid fuel cells: An updated progress
title_fullStr Electrocatalytic activities of platinum and palladium catalysts for enhancement of direct formic acid fuel cells: An updated progress
title_full_unstemmed Electrocatalytic activities of platinum and palladium catalysts for enhancement of direct formic acid fuel cells: An updated progress
title_sort electrocatalytic activities of platinum and palladium catalysts for enhancement of direct formic acid fuel cells: an updated progress
publisher Elsevier B.V.
publishDate 2024
_version_ 1814061104149561344

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