MECHANISM OF OXYGEN REDUCTION REACTION ACTIVITY ON MANGAN-NIKEL DUAL-ATOM ELECTROCATALYST ACTIVE SITES LOCATED AT GRAPHENE NANOPORE EDGES FOR HYDROGEN FUEL CELL CATHODE APPLICATIONS

MECHANISM OF OXYGEN REDUCTION REACTION ACTIVITY ON MANGAN-NIKEL DUAL-ATOM ELECTROCATALYST ACTIVE SITES LOCATED AT GRAPHENE NANOPORE EDGES FOR HYDROGEN FUEL CELL CATHODE APPLICATIONS

Graphene-based catalysts (M-N-C) have emerged as an alternative to platinum catalysts in fuel cell cathodes due to their low cost and abundant availability. Among the graphene-based catalysts under investigation, the Mangan-Nikel dual-atom catalyst (DAC) shows potential as an alternative due to its...

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Bibliographic Details
Main Author:	Helmi, Faizal
Format:	Theses
Language:	Indonesia
Online Access:	https://digilib.itb.ac.id/gdl/view/86798
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