 Metal organic frameworks, MOFs, are a class of porous materials with high surface area and porosity, which can be used as catalysts for electrochemical reactions. Recent advances in MOF modification have enabled them to be used in fuel cells, where they can improve the performance of the device by increasing the rate of electron transfer and reducing the overpotential required for the reaction. This paper reviews recent developments in MOF-based catalysts for oxygen reduction reaction, ORR, focusing on porous-carbon MOF, single-metal MOF-derived composites, metal oxides, and metal phosphides. The authors present an efficient MOF electrocatalyst platform for ORR applications and discuss its potential for future research. This article was authored by Karmagam Dunbolan, Mutukumar Paramalsami, Ganesan Sriram, and others.