Durability and performance of direct glycerol fuel cell with palladium-aurum/vapor grown carbon nanofiber support
•This study proofs that the presence of Aurum increases the reaction activity.•Palladium-Aurum/Vapor Grown Carbon Nanofiber gives the highest current density as 0.09 A cm−2 @ 0.9 A mg−1.•Vapor Grown Carbon Nanofiber support presents better stability and durability to the catalyst. Oxidation reaction...
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| Published in | Energy conversion and management Vol. 188; pp. 120 - 130 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Oxford
Elsevier Ltd
15.05.2019
Elsevier Science Ltd |
| Subjects | |
| Online Access | Get full text |
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| Abstract | •This study proofs that the presence of Aurum increases the reaction activity.•Palladium-Aurum/Vapor Grown Carbon Nanofiber gives the highest current density as 0.09 A cm−2 @ 0.9 A mg−1.•Vapor Grown Carbon Nanofiber support presents better stability and durability to the catalyst.
Oxidation reaction of glycerol has the probability of producing intermediate species that may be toxic to the catalyst surface and blocks the catalyst function. Thus this study presents the performance and durability of glycerol fuel cell with novel catalyst, Palladium-Aurum catalysts supported on Vapor Grown Carbon Nanofiber to reduce this effect. The electrochemical behaviour tests indicate that nanoalloy with mole ratio of Palladium to Aurum (1:1) is the best nanocatalyst that can achieve a maximum mass current of 0.17 Amg-1 based on cyclic voltammetry analysis on glycerol oxidation in alkaline media. Apparently, the cell performance was improved from 0.0058 W cm−2 with Palladium black to 0.007 W cm−2 via Palladium-Aurum/Vapor Grown Carbon Nanofiber. Moreover, the present of Vapor Grown Carbon Nanofiber, as a support, give stability and durability to the catalyst due to unnoticeable deactivation after being used several times. In addition, the influence of the operating conditions (example: temperature and Sodium hydroxide concentration) towards the electrochemical kinetic activity was also studied in detail through the determination of the activation energies. |
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| AbstractList | Oxidation reaction of glycerol has the probability of producing intermediate species that may be toxic to the catalyst surface and blocks the catalyst function. Thus this study presents the performance and durability of glycerol fuel cell with novel catalyst, Palladium-Aurum catalysts supported on Vapor Grown Carbon Nanofiber to reduce this effect. The electrochemical behaviour tests indicate that nanoalloy with mole ratio of Palladium to Aurum (1:1) is the best nanocatalyst that can achieve a maximum mass current of 0.17 A mg-1 based on cyclic voltammetry analysis on glycerol oxidation in alkaline media. Apparently, the cell performance was improved from 0.0058 W cm−2 with Palladium black to 0.007 W cm−2 via Palladium-Aurum/Vapor Grown Carbon Nanofiber. Moreover, the present of Vapor Grown Carbon Nanofiber, as a support, give stability and durability to the catalyst due to unnoticeable deactivation after being used several times. In addition, the influence of the operating conditions (example: temperature and Sodium hydroxide concentration) towards the electrochemical kinetic activity was also studied in detail through the determination of the activation energies. •This study proofs that the presence of Aurum increases the reaction activity.•Palladium-Aurum/Vapor Grown Carbon Nanofiber gives the highest current density as 0.09 A cm−2 @ 0.9 A mg−1.•Vapor Grown Carbon Nanofiber support presents better stability and durability to the catalyst. Oxidation reaction of glycerol has the probability of producing intermediate species that may be toxic to the catalyst surface and blocks the catalyst function. Thus this study presents the performance and durability of glycerol fuel cell with novel catalyst, Palladium-Aurum catalysts supported on Vapor Grown Carbon Nanofiber to reduce this effect. The electrochemical behaviour tests indicate that nanoalloy with mole ratio of Palladium to Aurum (1:1) is the best nanocatalyst that can achieve a maximum mass current of 0.17 Amg-1 based on cyclic voltammetry analysis on glycerol oxidation in alkaline media. Apparently, the cell performance was improved from 0.0058 W cm−2 with Palladium black to 0.007 W cm−2 via Palladium-Aurum/Vapor Grown Carbon Nanofiber. Moreover, the present of Vapor Grown Carbon Nanofiber, as a support, give stability and durability to the catalyst due to unnoticeable deactivation after being used several times. In addition, the influence of the operating conditions (example: temperature and Sodium hydroxide concentration) towards the electrochemical kinetic activity was also studied in detail through the determination of the activation energies. |
| Author | Kamarudin, S.K. Loh, K.S. Masdar, M.S. Karim, N.A. Yahya, N. Lim, K.L. |
| Author_xml | – sequence: 1 givenname: N. surname: Yahya fullname: Yahya, N. organization: Fuel Cell Institute, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia – sequence: 2 givenname: S.K. surname: Kamarudin fullname: Kamarudin, S.K. email: ctie@ukm.edu.my organization: Fuel Cell Institute, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia – sequence: 3 givenname: N.A. surname: Karim fullname: Karim, N.A. organization: Fuel Cell Institute, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia – sequence: 4 givenname: M.S. surname: Masdar fullname: Masdar, M.S. organization: Department of Chemical Engineering, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia – sequence: 5 givenname: K.S. surname: Loh fullname: Loh, K.S. organization: Fuel Cell Institute, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia – sequence: 6 givenname: K.L. surname: Lim fullname: Lim, K.L. organization: Fuel Cell Institute, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia |
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| Keywords | Electrocatalyst Palladium Aurum Palladium-Aurum/Vapor Grown Carbon Nanofiber Glycerol electrooxidation Direct Glycerol Fuel Cell |
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| Snippet | •This study proofs that the presence of Aurum increases the reaction activity.•Palladium-Aurum/Vapor Grown Carbon Nanofiber gives the highest current density... Oxidation reaction of glycerol has the probability of producing intermediate species that may be toxic to the catalyst surface and blocks the catalyst... |
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| SubjectTerms | Aurum Carbon Carbon fibers Catalysis Catalysts Deactivation Direct Glycerol Fuel Cell Durability Electrocatalyst Electrochemical analysis Electrochemistry Fuel cells Fuel technology Glycerol Glycerol electrooxidation Nanoalloys Nanofibers Oxidation Palladium Palladium-Aurum/Vapor Grown Carbon Nanofiber Sodium Sodium hydroxide Vapors |
| Title | Durability and performance of direct glycerol fuel cell with palladium-aurum/vapor grown carbon nanofiber support |
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