The excessive enrichment of nitrate in the environment can be converted into ammonia
(NH3) through electrochemical processes, offering significant implications for modern …

While hydrogen generation by alkaline water electrolysis is a well-established, mature
technology and currently the lowest capital cost electrolyser option; polymer electrolyte …

Polymer-electrolyte fuel cells are a promising energy-conversion technology. Over the last
several decades significant progress has been made in increasing their performance and …

1. INTRODUCTION Polymer electrolyte membrane fuel cells (PEMFCs) have increasingly
received worldwide attention because of their potential application in transportation and in …

The electrolyte is the heart of any fuel cell. Ideally, this component effectively separates the
anode and cathode gases and/or liquids and mediates the electrochemical reaction …

This review summarizes efforts in develo** sulfonated hydrocarbon proton exchange
membranes (PEMs) with excellent long-term electrochemical fuel cell performance in …

The past two decades have shown that the exploration of properties on the nanoscale can
lead to substantially new insights regarding fundamental issues, but also to novel …

Fuel cells are electrochemical, ecologically friendly appliances that transform chemical
energy into electricity in a clean, simple, and effective manner. With the advancement of …

A fundamental understanding of structure‐morphology‐property relationships of proton
exchange membranes (PEMs) is crucial in order to improve the cost, performance, and …

Fuel cells may become the energy-delivery devices of the 21st century. Although there are
many types of fuel cells, polymer-electrolyte fuel cells are receiving the most attention for …