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Energy, Engineering

Membrane breakthrough enables high-efficiency fuel cells: clean energy boost for vehicles and industry

Monash University 2 mins read

Engineers have developed a new ultra-thin membrane that allows fuel cells to operate more efficiently at high temperatures by enabling proton transport without water, overcoming a key limitation in clean energy technologies.

The breakthrough, reported in Science Advances, could expand the use of fuel cells in transport, heavy industry, and future clean energy systems. 

Fuel cells convert chemical energy directly into electricity, producing water and heat as the main by-products. They are already used in hydrogen-powered vehicles, backup power systems for hospitals and data centres, and space missions where lightweight, reliable energy is essential. 

However, most current systems rely on water-dependent membranes that limit performance at higher temperatures, where efficiency could otherwise improve and system design could be simplified. 

The breakthrough is based on atomically thin nanosheets combined with nanoconfined phosphoric acid. Conventional nanosheet assemblies often suffer from poor proton transport between layers, limiting their practical use in electrochemical devices.

A specially engineered membrane made from graphene and boron nitride enabled ultra-fast proton transport at 250°C and delivered exceptionally high power output in hydrogen fuel cells. 

It also performed well when using concentrated methanol as a fuel, showing it can stay stable and efficient even under harsh, high-temperature conditions.

Corresponding author Professor Huanting Wang, at the Monash Department of Chemical and Biological Engineering, said the work addresses a long-standing barrier in membrane design for high-temperature electrochemical systems.

“By integrating proton-conducting nanosheets with nanoconfined phosphoric acid, we have created a membrane that maintains fast proton transport without relying on water. This enables fuel cells to operate efficiently at much higher temperatures than is currently possible,” Professor Wang said.

The paper’s first author, Postdoctoral Research Fellow at the Department of Chemical and Biological Engineering, Kaiqiang He, said the key advance lies in combining multiple proton transport mechanisms within a single membrane architecture.

“The nanosheets provide direct proton transport pathways, while the confined phosphoric acid enables rapid proton hopping. Together, these mechanisms deliver both high conductivity and stability under dry, high-temperature conditions,” Dr He said. 

Beyond fuel cells, the same design approach could support a range of electrochemical technologies, including water splitting, carbon dioxide reduction and ammonia synthesis. More broadly, it offers a platform for designing next-generation proton-conducting materials by integrating two-dimensional nanosheets with nanoconfined proton carriers.

Read the research paper: https://doi.org/10.1126/sciadv.aea1569  

MEDIA ENQUIRIES 

Courtney Karayannis, Media and Communications Manager

Monash University

P: +61 408 508 454

E: [email protected]

GENERAL MEDIA ENQUIRIES

Monash Media

P: +61 3 9903 4840

E: [email protected]

For more experts, news, opinion and analysis, visit Monash News.

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