Researchers have developed quantum dot solar cells that match the efficiency of existing quantum dot-based devices, but without lead or other toxic elements.
RECOM recognises that speed is essential in the current crisis, and so is offering samples free of charge for any medical-grade equipment design.
The electrolyte is said to be cheap, non-flammable, eco-friendly and less toxic than other alternatives, yet creates stable voltage for common use.
The solar cell now holds the world record for the highest solar conversion efficiency at 47.1%, as measured under concentrated illumination.
When demand for the supply of modular power supplies for medical equipment is high, the necessary certifications should not be overlooked.
An international research team has developed a new type of solar cell that can both withstand environmental hazards and has power conversion efficiency of 26.7%.
Researchers have improved the performance and safety of lithium-ion batteries, increasing not only the battery's voltage delivery but also its ability to suppress dangerous conditions.
Scientists have revealed how the thermoelectric effect, or converting temperature differences into electricity, can be optimally used to power small, flexible devices.
Researchers have detailed the use of soft and flexible materials to ultrasonically charge bioelectronic implants, reducing the need for surgical treatment.
Researchers made a tweak to the part of the battery called the separator, so that it slows down the flow of energy (and thus heat) that builds up inside the battery when it short circuits.
Organic electrode materials are considered to be extremely promising materials for sustainable batteries with high power capabilities.
Russian researchers have described a way to increase the sensitivity of biological detectors (biosensors) to the point where they can be used in mobile and wearable devices.
Inverted perovskite solar cells can now achieve efficiencies close to that of their more conventional counterparts.