Abstract Proton Exchange Membrane Fuel Cells (PEMFC) are energy efficient and
environmentally friendly alternatives to conventional energy conversion systems in many yet …

Modeling and simulation of electrochemical reactors (ECRs) by computational fluid
dynamics (CFD) techniques have been increasing during the last fifteen years. The need to …

A two dimensional, across the channel, steady-state model for a proton exchange
membrane fuel cell (PEMFC) is presented in which the non-isothermal model for …

This review focuses on the role of physical theory and computational electrochemistry for
fundamental understanding, diagnostics and design of new electrochemical materials and …

The thermal behavior of lithium ion batteries has a huge impact on their lifetime and the
initiation of degradation processes. The development of hot spots or large local …

Since CO2 is a readily available feedstock throughout the world, the utilization of CO2 as a
C1 building block for the synthesis of valuable chemicals is a highly attractive concept …

Single-atom catalysts have recently emerged as promising low-cost alternatives to Pt for the
oxygen reduction reaction (ORR). Given the unique properties that distinguish these …

The Forchheimer's inertial force impact is always neglected when studying the mass transfer
of proton exchange membrane fuel cells in previous literatures. In this work, firstly, driving …

Because of its high specific surface area and unique electronic properties, graphene with
substitutional impurity metal atoms and clusters attached to defects in the graphene sheet is …

A two dimensional, across the channel, isothermal, two-phase flow model for a proton
exchange membrane fuel cell is presented. Reactant transport in porous media, water …