Indoor lighting creates power for rechargeable devices, sensors

Indoor lighting creates power for rechargeable devices, sensors
Indoor photovoltaics for battery-powered sensors. Credit: Shore and Hamadani

As more of our devices require recharging of their batteries, researchers are looking to ambient lighting as a potential source of generating small amounts of power for indoor devices.

During the AIP Publishing Horizons—Energy Storage and Conversion virtual conference, which will be held Aug. 4-6, Andrew Shore and Behrang Hamadani, from the National Institute of Standards and Technology, will present their findings on the capabilities of indoor solar cells in generating power under an LED. Their presentation, "Indoor photovoltaics for battery-powered sensors," will be available during the three-day conference.

The researchers used one lighting source, a white LED with a color coordinate temperature of 3,000 K and an illuminance of 1,000 lux, akin to normal brightness for indoor lights, to test three different modules—a gallium indium phosphide (GaInP) semiconductor, a gallium arsenide (GaAs) semiconductor, and a silicon (Si) semiconductor. The peaked in intensity on the shorter wavelengths of .

"Under these light settings, the GaInP mini module performed with the highest power conversion efficiency, followed by the GaAs mini module, with the Si mini module as the lowest performer," Shore said. "The GaInP and GaAs modules have a better spectral match with this visible-spectrum LED light source."

Since there is usually plenty of indoor ambient light from different sources, a ceiling light in an office environment would be enough to charge any of the mini modules that were tested, making them all viable as power sources for indoor batteries and sensors. Shore said the GaInP would require the least amount of light and still maintain high efficiency, but not all indoor light sources are LEDs.

"Different light sources have different spectra," he said. "For instance, an incandescent light source has a large portion of its irradiance in the near infrared region. Fluorescent lights have several spikes in intensity at different places in the visible spectrum. LED lights generally have one short, prominent peak around 450 nanometers and another more gradual peak around 600 nm. Each of these light sources will affect the conversion efficiency of the photovoltaic technology."

Shore said the next step will be testing the mini modules under real-world conditions, like a person turning a light on and off at regular intervals. They hope to operate more than one sensor being powered by a during that testing.


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