Shangfeng Du scite author profile

One possible solution of combating issues posed by climate change is the use of the High Temperature (HT) Polymer Electrolyte Membrane (PEM) Fuel Cell (FC) in some applications. The typical HT-PEMFC operating temperatures are in the range of 100e200 o C which allows for co-generation of heat and power, high tolerance to fuel impurities and simpler system design. This paper reviews the current literature concerning the HT-PEMFC, ranging from cell materials to stack and stack testing. Only acid doped PBI membranes meet the US DOE (Department of Energy) targets for high temperature membranes operating under no humidification on both anode and cathode sides (barring the durability). This eliminates the stringent requirement for humidity however, they have many potential drawbacks including increased degradation, leaching of acid and incompatibility with current state-of-the-art fuel cell materials. In this type of fuel cell, the choice of membrane material determines the other fuel cell component material composition, for example when using an acid doped system, the flow field plate material must be carefully selected to take into account the advanced degradation. Novel research is required in all aspects of the fuel cell components in order to ensure that they meet stringent durability requirements for mobile applications.

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One-dimensional nanostructured electrocatalysts for polymer electrolyte membrane fuel cells—A review

Steinberger‐Wilckens

2016

Applied Catalysis B: Environmental

171

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A facile hydrothermal synthesis of MnO₂ nanorod–reduced graphene oxide nanocomposites possessing excellent microwave absorption properties

et al. 2015

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Ionic Liquid-Modified Microporous ZnCoNC-Based Electrocatalysts for Polymer Electrolyte Fuel Cells

et al. 2019

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Non-platinum group metal (non-PGM) oxygen reduction reaction (ORR) catalysts have been widely reported, but their application in proton exchange membrane fuel cells (PEMFCs) is challenging due to their poor performance in acidic environments. Here [BMIM][NTf2] ionic liquid (IL) modification of microporous ZnCoNC catalysts (derived from ZIF-ZnCo) is investigated to study their behavior in PEMFCs and to elucidate the catalytic mechanisms in practical operation. The high O2 solubility of ILs enhance the

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Catalytic performance of Ni-Cu/Al2O3 for effective syngas production by methanol steam reforming

Khzouz

Wood

2018

Fuel

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Shangfeng Du

High temperature (HT) polymer electrolyte membrane fuel cells (PEMFC) – A review

One-dimensional nanostructured electrocatalysts for polymer electrolyte membrane fuel cells—A review

A facile hydrothermal synthesis of MnO₂ nanorod–reduced graphene oxide nanocomposites possessing excellent microwave absorption properties

Ionic Liquid-Modified Microporous ZnCoNC-Based Electrocatalysts for Polymer Electrolyte Fuel Cells

Catalytic performance of Ni-Cu/Al2O3 for effective syngas production by methanol steam reforming

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Shangfeng Du

High temperature (HT) polymer electrolyte membrane fuel cells (PEMFC) – A review

One-dimensional nanostructured electrocatalysts for polymer electrolyte membrane fuel cells—A review

A facile hydrothermal synthesis of MnO2 nanorod–reduced graphene oxide nanocomposites possessing excellent microwave absorption properties

Ionic Liquid-Modified Microporous ZnCoNC-Based Electrocatalysts for Polymer Electrolyte Fuel Cells

Catalytic performance of Ni-Cu/Al2O3 for effective syngas production by methanol steam reforming

Contact Info

Product

Resources

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A facile hydrothermal synthesis of MnO₂ nanorod–reduced graphene oxide nanocomposites possessing excellent microwave absorption properties