Resource Library

GORE PEM M275.80 for Water Electrolysis helps to reduce the energy requirements of electrolysis stacks with its ability to operate effectively at high and low current densities and variable power levels within seconds. Additionally, thanks to our PEM’s low gas permeability and high energy efficiency, PEM electrolysers can safely produce more hydrogen gas per unit of energy input.

Commercializing fuel cells in heavy-duty vehicles (HDVs) presents challenges like extended lifetimes, higher-temperature operation, and significantly increased power output, essential for displacing diesel. Simon Cleghorn discusses the compelling aspects of PEM fuel cells as an alternative to help solve these challenges, and potentially lower the Total Cost of Ownership (TCO).

The heavy-duty sector, representing 10% of vehicles yet contributing over 25% of carbon emissions, requires high power density and extended range capabilities. This article emphasizes the crucial role of advanced PEM technology in attaining sustainable and efficient fuel cell solutions.

Gore's expanded polymer membrane technology, known for its durability and performance, was a breakthrough discovery by Bob Gore in 1969. Since then, Gore's continuous innovation has evolved into many innovative membrane technologies used in numerous industries. Discover how our advanced materials engineering expertise is helping to improve the lives of people around the world.

Find out how Gore's materials engineering expertise and capabilities can accelerate the commercialization of FCEVs by dramatically improving the performance and reliability of fuel cell stacks and systems.

Choosing the right proton exchange membranes (PEMs) to meet customer requirements can be a challenge. We spoke with our product specialist Chow Mun Hoe about harnessing key vectors for optimal performance in fuel cell systems.

Rainer Enggruber's presentation focuses on the development priorities for proton exchange membrane (PEM) water electrolysis (WE) systems to deliver a lower levelized cost of hydrogen (LCOH) to meet global clean energy demands in a net-zero economy.

In this Q&A article, Shinichi Nishimura, a global product specialist for fuel cell technologies at Gore, discusses the potential of fuel cells in decarbonizing the transportation industry. With a keen focus on the pivotal role played by the membrane electrode assembly (MEA), Shinichi provides valuable insights and expertise on this critical component.

Find out how Gore is contributing to a clean energy future with innovative, high-powered and reliable fuel cell components — like Proton Exchange Membranes that can optimize the cost of ownership in motive and stationery power generation applications. Our GORE-SELECT® Membranes incorporate new-generation technologies that offer OEMs superior uniformity, higher power density and improved chemical and mechanical durability. 

Learn how a single material can transform lives, electrify the world, and make it more sustainable in a conversation with Enze Chen, our global strategic marketer for alternative energy and storage.