Making high-performance batteries from junkyard scraps

04-Nov-2016 - USA

Take some metal scraps from the junkyard; put them in a glass jar with a common household chemical; and, voilà, you have a high-performance battery.

Daniel Dubois / Vanderbilt University

Each year the U.S. produces hundreds of millions of tons of metal scrap like this, which was photographed at the PSC Metals scrapyard in Nashville.

"Imagine that the tons of metal waste discarded every year could be used to provide energy storage for the renewable energy grid of the future, instead of becoming a burden for waste processing plants and the environment," said Cary Pint, assistant professor of mechanical engineering at Vanderbilt University.

To make such a future possible, Pint headed a research team that used scraps of steel and brass - two of the most commonly discarded materials - to create the world's first steel-brass battery that can store energy at levels comparable to lead-acid batteries while charging and discharging at rates comparable to ultra-fast charging supercapacitors.

The research team, which consists of graduates and undergraduates in Vanderbilt's interdisciplinary materials science program and department of mechanical engineering, describe this achievement.

The secret to unlocking this performance is anodization, a common chemical treatment used to give aluminum a durable and decorative finish. When scraps of steel and brass are anodized using a common household chemical and residential electrical current, the researchers found that the metal surfaces are restructured into nanometer-sized networks of metal oxide that can store and release energy when reacting with a water-based liquid electrolyte.

The team determined that these nanometer domains explain the fast charging behavior that they observed, as well as the battery's exceptional stability. They tested it for 5,000 consecutive charging cycles - the equivalent of over 13 years of daily charging and discharging - and found that it retained more than 90 percent of its capacity.

Unlike the recent bout of exploding lithium-ion cell phone batteries, the steel-brass batteries use non-flammable water electrolytes that contain potassium hydroxide, an inexpensive salt used in laundry detergent.

"When our aim was to produce the materials used in batteries from household supplies in a manner so cheaply that large-scale manufacturing facilities don't make any sense, we had to approach this differently than we normally would in the research lab," Pint said.

The research team is particularly excited about what this breakthrough could mean for how batteries are made in the future.

"We're seeing the start of a movement in contemporary society leading to a 'maker culture' where large-scale product development and manufacturing is being decentralized and scaled down to individuals or communities. So far, batteries have remained outside of this culture, but I believe we will see the day when residents will disconnect from the grid and produce their own batteries. That's the scale where battery technology began, and I think we will return there," Pint said.

The Vanderbilt team drew inspiration from the "Baghdad Battery," a simple device dating back to the first century BC, which some believe is the world's oldest battery. It consisted of a ceramic terracotta pot, a copper sheet and an iron rod, which were found along with traces of electrolyte. Although this interpretation of the artifacts is controversial, the simple way they were constructed influenced the research team's design.

The team's next step is to build a full-scale prototype battery suitable for use in energy-efficient smart homes.

"We're forging new ground with this project, where a positive outcome is not commercialization, but instead a clear set of instructions that can be addressed to the general public. It's a completely new way of thinking about battery research, and it could bypass the barriers holding back innovation in grid scale energy storage," Pint said.

Original publication

Other news from the department science

These products might interest you

Data Management Platform New

Data Management Platform by LabV Intelligent Solutions

Turn data into better products

Maximum efficiency in the laboratory with LabV’s AI-powered data management platform

laboratory information management systems
ALPHA II

ALPHA II by Bruker

Chemical analysis made easy: compact FT-IR system

Increase the efficiency of your routine analyses with user-friendly technology

FTIR spectrometers
Tailor-made products for specific applications

Tailor-made products for specific applications by IPC Process Center

Granulates and pellets - we develop and manufacture the perfect solution for you

Agglomeration of powders, pelletising of powders and fluids, coating with melts and polymers

toll manufacturing
Loading...

Most read news

More news from our other portals

So close that even
molecules turn red...

See the theme worlds for related content

Topic World Battery Technology

The topic world Battery Technology combines relevant knowledge in a unique way. Here you will find everything about suppliers and their products, webinars, white papers, catalogs and brochures.

25+ products
150+ companies
30+ whitepaper
20+ brochures
View topic world
Topic World Battery Technology

Topic World Battery Technology

The topic world Battery Technology combines relevant knowledge in a unique way. Here you will find everything about suppliers and their products, webinars, white papers, catalogs and brochures.

25+ products
150+ companies
30+ whitepaper
20+ brochures