Image courtesy of U.S. Department of Energy, Energy Efficiency and Renewable Energy Office’s Hydrogen and Fuel Cell Program.

The Journal of The Electrochemical Society is publishing a focus issue in connection with the Polymer Electrolyte Fuel Cells and Water Electrolyzers 24 (PEFC&WE 24) symposium at the PRiME 2024 Meeting of The Electrochemical Society.

All aspects of PEMFC and PEMWE durability are considered: (more…)

Solid Oxide Fuel CellsTopic Close-up #5

Symposium SOFC-XVIII / The Eighteenth International Symposium on Solid Oxide Fuel Cells

Extended deadline for submitting abstracts:
December 16, 2022

 

Submit today!

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Bryan Pivovar
Senior Research Fellow and Electrochemical Engineering and Materials Chemistry Group Manager
Chemistry and Nanosciences Center
National Renewable Energy Laboratory, U.S.

Date: February 23, 2022
Time: 1000h ET
Sponsors:
Hiden Analytical, Scribner Associates, Gamry Instruments

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ECS’s mission is to advance theory and practice at the forefront of electrochemical and solid state science and technology, and allied subjects by encouraging research, discussion, critical assessment, and dissemination of knowledge in these fields. We couldn’t do this without the help of our sponsors! Their support plays a key role in the advancement of the sciences.

Most recently, the Army Research Office, an element of the U.S. Army Combat Capabilities Development Command’s Army Research Laboratory, contributed $5,000 to the 19th Polymer Electrolyte Fuel Cells & Electrolyzers 19 (PEFC&E-19) symposium taking place at the 236th ECS Meeting. (more…)

Fuel Cell CarUsing advanced computational methods, University of Wisconsin–Madison materials scientists have discovered new materials that could bring widespread commercial use of solid oxide fuel cells closer to reality.

A solid oxide fuel cell is essentially an engine that provides an alternative way to burn fossil fuels or hydrogen to generate power. These fuel cells burn their fuel electrochemically instead of by combustion, and are more efficient than any practical combustion engine.

As an alternative energy technology, solid oxide fuel cells are a versatile, highly efficient power source that could play a vital role in the future of energy. Solid oxide fuel cells could be used in a variety of applications, from serving as a power supply for buildings to increasing fuel efficiency in vehicles.

However, solid oxide fuel cells are more costly than conventional energy technologies, and that has limited their adoption.

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ECS Ride-and-Learn

Want to see Electrochemistry in Action and ride in one of the world’s first commercial fuel cell cars while at the 232nd ECS Meeting? Join us for a Ride-and Learn on Monday, October 2 from 12:00 pm to 2:00 pm in front of the main entrance of the Gaylord National Resort and Convention Center. This Ride-and-Learn is open to all ECS meeting attendees. First come, first serve.

Fuel cell cars run on hydrogen fuel, use a fuel cell that converts hydrogen into the electricity that powers the car’s electric motor and emit only water from the tailpipe. For the first time ever, they are commercially available, have started hitting the streets and the hydrogen stations to fuel them are up and running in select U.S. regions.

This Ride-and-Learn is organized by the U.S. Department of Energy’s Fuel Cell Technologies Office (FCTO) in the Office of Energy Efficiency and Renewable Energy. FCTO has funded early-stage hydrogen and fuel cells research and development enabling a 60 percent reduction in fuel cell cost, a fourfold increase in fuel cell durability and an 80 percent cut in the cost of electrolyzers over the past decade. You can learn more about this exciting technology and the work FCTO funds to enable hydrogen and fuel cell technological breakthroughs at energy.gov/fuelcells.

Following the 232nd ECS Meeting, the third annual National Hydrogen and Fuel Cell Day will take place on October 8, 2017, aimed at raising awareness and celebrating advances in fuel cell and hydrogen technologies. The U.S. Department of Energy, Fuel Cell and Hydrogen and Energy Association , its members, industry organizations, and state and federal governments will be commemorating National Hydrogen and Fuel Cell day with a variety of activities and events across the country.

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Image:  Kathy F. Atkinson, University of Delaware

Image: Kathy F. Atkinson, University of Delaware

Fuel cells are an important technology for the nation’s energy portfolio, offering a cleaner, more efficient alternative to combustion engines that utilize fossil fuels.

However, a team of researchers from the University of Delaware point out that a major challenge in the commercialization of fuel cells is the durability of the membrane, which tends to develop cracks that short is life during operation.

A new article published in the Journal of The Electrochemical Society, “Self-Healing Composite Membrane for Proton Electrolyte Membrane Fuel Cell Applications,” aims to address the fuel cell membrane issue by developing a self-healing membrane, incorporating microcapsules prefilled with a Nafion solution.

“The microcapsules are designed to rupture when they encounter defects in the membrane and then release the prefilled Nafion solution to heal the defects in place,” says Liang Wang, past ECS member and co-author of the study.

Testing showed that the newly developed membrane and its self-healing functionality could greatly extend its useful life.

Microbial fuel cell

Image: University illustration / Michael Osadciw

Many researchers agree that microbial fuel cells have a range of promising applications. However, before they can reach widespread applications, researchers need to make them both cheaper and more efficient.

A team of researchers from the University of Rochester believe they’re making progress on that front with the development of a paper electrode.

Microbial fuel cells drive electric current by using bacteria and mirroring bacterial interactions found in nature. In the 21st century, microbial fuel cells found new application in their ability to treat wastewater and harvest energy through anaerobic digestion.

This from University of Rochester:

Until now, most electrodes used in wastewater have consisted of metal (which rapidly corrodes) or carbon felt. While the latter is the less expensive alternative, carbon felt is porous and prone to clogging. Their solution was to replace the carbon felt with paper coated with carbon paste, which is a simple mixture of graphite and mineral oil. The carbon paste-paper electrode is not only cost-effective and easy to prepare; it also outperforms carbon felt.

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After Toyota’s 2015 release of the first mass-market fuel cell car, the Japanese automaker is gearing up to release the second generation of its fuel cell vehicle in 2019.

The initial version of the Mirai, which was heralded by Toyota as the ultimate “green car,” could travel up to 300 miles on a single tank of hydrogen and refuel in less than five minutes. The starting price for the vehicle is currently $57,460.

Toyota’s new version of the Mirai promises to be more affordable than its predecessor, potentially making the clean energy vehicle well-received among consumers.

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From Trash to (Energy) Treasure

Image: Liz West

Image: Liz West

It doesn’t matter how green you thumb is, there will always be fruits and vegetables in your garden that just don’t quite make it. The same concept goes for commercial farms, where farmers accumulate tons of fruit and vegetable waste every year.

In fact, the state of Florida alone produces an estimated 369,000 tons of waste from tomatoes each year. But what if you could turn that waste into electricity?

That’s exactly what one team comprised of researchers from South Dakota School of Mines & Technology, Princeton University, and Florida Gulf Coast University are doing.

In order to produce the electricity, the team developed a microbial electrochemical cell that can use tomato waste to generate electric current.

“We have found that spoiled and damaged tomatoes left over from harvest can be a particularly powerful source of energy when used in a biological or microbial electrochemical cell,” says Namita Shrestha, a graduate student working on the project.

This from Tree Hugger:

The bacteria in the fuel cell trigger an oxidation process that releases electrons which are captured by the fuel cell and become a source of electricity. The tomatoes have proven to be a potent energy source. The natural lycopene in the tomatoes acts as a mediator to encourage electricity generation and the researchers say that while waste material usually performs poorly compared to pure chemicals in fuel cells, the waste tomatoes perform just as well or better.

Read the full article.

While their first trial resulted in just 0.3 watts of electricity per 10 milligrams of tomato waste, the researchers believe that more trials will result in improved electricity generation.

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