Glow-in-the-dark dye could fuel liquid-based batteries

Glow-in-the-dark dye could fuel liquid-based batteries
A glowing solution of BODIPY dye under a black light. A UB study shows that the dye has interesting chemical properties that could make it an ideal material for use in large-scale rechargeable batteries. Credit: Douglas Levere

Could a glow-in-the-dark dye be the next advancement in energy storage technology?

Scientists at the University at Buffalo think so.

They have identified a fluorescent dye called BODIPY as an ideal material for stockpiling in rechargeable, liquid-based batteries that could one day power cars and homes.

BODIPY—short for boron-dipyrromethene—shines brightly in the dark under a black light.

But the traits that facilitate energy storage are less visible. According to new research, the dye has unusual chemical properties that enable it to excel at two key tasks: storing electrons and participating in electron transfer. Batteries must perform these functions to save and deliver energy, and BODIPY is very good at them.

In experiments, a BODIPY-based test battery operated efficiently and with longevity, running well after researchers drained and recharged it 100 times.

"As the world becomes more reliant on , one of the huge questions we have is, 'How do we store energy?' What happens when the sun goes down at night, or when the wind stops?" says lead researcher Timothy Cook, PhD, an assistant professor of chemistry in the University at Buffalo College of Arts and Sciences. "All these energy sources are intermittent, so we need batteries that can store enough energy to power the average house."

Credit: University at Buffalo

The research was published on Nov. 16 in ChemSusChem, an academic journal devoted to topics at the intersection of chemistry and sustainability.

A dye-based battery of the future

BODIPY is a promising material for a liquid-based battery called a "redox flow battery."

These fluid-filled power cells present several advantages over those made from conventional materials.

Lithium-ion batteries, for example, are risky in that they can catch fire if they break open, Cook says. The dye-based batteries would not have this problem; if they ruptured, they would simply leak, he says.

Glow-in-the-dark dye could fuel liquid-based batteries
The research team included Timothy Cook (left), UB assistant professor of chemistry, and first author Anjula M. Kosswattaarachchi, a UB PhD student in chemistry. Credit: Douglas Levere

Redox flow batteries can also be easily enlarged to store more energy—enough to allow a homeowner to power a solar house overnight, for instance, or to enable a utility company to stockpile wind energy for peak usage times. This matters because scaling up has been a challenge for many other proposed battery technologies.

How BODIPY works in a battery

Redox flow batteries consist of two tanks of fluids separated by various barriers.

When the battery is being used, electrons are harvested from one tank and moved to the other, generating an electric current that—in theory—could power devices as small as a flashlight or as big as a house. To recharge the battery, you would use a solar, wind or other energy source to force the electrons back into the original tank, where they would be available to do their job again.

A redox flow battery's effectiveness depends on the chemical properties of the fluids in each tank.

Glow-in-the-dark dye could fuel liquid-based batteries
o make the dye solution used in the test battery, the research team mixed dark red BODIPY crystals (right) into a clear solvent called acetonitrile (left). Credit: Douglas Levere

"The library of molecules used in redox flow batteries is currently small but is expected to grow significantly in coming years," Cook says. "Our research identifies BODIPY dye as a promising candidate."

In experiments, Cook's team filled both tanks of a redox flow battery with the same solution: a powdered BODIPY dye called PM 567 dissolved in liquid.

Within this cocktail, the BODIPY compounds displayed a notable quality: They were able to give up and receive an electron without degrading as many other chemicals do. This trait enabled the dye to store electrons and facilitate their transfer between the 's two ends during repeated cycles—100—of charging and draining.

Based on the experiments, scientists also predict that BODIPY batteries would be powerful enough to be useful to society, generating an estimated 2.3 volts of electricity.

The study focused on PM 567, different varieties of BODIPY share , so it's likely that other BOPIDY dyes would also make good candidates, Cook says.

Glow-in-the-dark dye could fuel liquid-based batteries
First author Anjula M. Kosswattaarachchi, a UB PhD student in chemistry, holds a volumetric flask containing BODIPY dye. Credit: Douglas Levere

Explore further

A marriage made in sunlight: Invention merges solar with liquid battery

More information: Anjula M. Kosswattaarachchi et al. Characterization of a BODIPY Dye as an Active Species for Redox Flow Batteries, ChemSusChem (2016). DOI: 10.1002/cssc.201601104
Citation: Glow-in-the-dark dye could fuel liquid-based batteries (2016, November 17) retrieved 17 September 2019 from https://phys.org/news/2016-11-glow-in-the-dark-dye-fuel-liquid-based-batteries.html
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Nov 17, 2016
Well, well, it seems we really CAN switch to alternative fuels and save ourselves and the planet as well. All that is needed is the application of interest and science. We do not have to keep on breathing the coal dust and heavy metals from the stacks of emitters, nor the Diesel stink and particulates from a neighbor's polluting car.

We do not need coal-powered autos or nuke-powered anything.

Nov 17, 2016
* For those who declare that CO2 is harmless, I invite them to stand underneath a giant magnifying glass in the sun at noon.

Is this how you became such an idiot or were you born that way?

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