Electroluminescent cooling (ELC) is an optical cooling phenomenon that has the potential to revolutionize miniaturized solid-state cooling by harnessing the process of electroluminescence to extract heat from a light emitting material. Traditional cooling techniques rely on the transfer of heat energy, whereas ELC operates by converting electrical energy directly into cooling energy through the emission of light using enhanced LED technologies. This unique approach offers several advantages, including compact size and the absence of moving parts, making it attractive for several applications in electronics, sensors, and refrigeration.
The development of LED-based cooler prototypes represents significant challenges, as developing sufficiently high efficiency LEDs requires several new solutions and substantial optimization. Combining the efficiency and compactness of LEDs with such new solutions can nevertheless lead to the demonstration of new compact and energy-efficient cooling solutions that could potentially disrupt existing technologies in air conditioning and refrigeration.
In this project we aimed to condense ongoing synergetic efforts to producing the first ELC cooler device prototypes that could demonstrate or pave way to the new cooling technology, as well as to provide a better understanding of the possible first markets and market needs towards the technology.