Technology and R&D

Researchers in Canada designed an air-source heat pump integrated with an air-based solar collector and radiant floor heating for cold climates, showing that the proposed system configuratuon could improve the coefficient of performance from 2–4 to 2–6 and reduce significantly annual energy consumption.

While the exact specifications of the new product, such as dimensions and weight, haven’t been disclosed, available imagery suggests potential transportation challenges.

Researchers in Austria found that unusually high photovoltaic efficiency in lead-halide perovskites can be explained by internal electric fields generated at strain-induced domain walls, which separate charge carriers and enable long-range transport. Their experiments indicated that these effects arise from mesoscopic structural inhomogeneities rather than a uniform crystal structure, providing a general mechanism for charge separation in these materials.

Spanish researchers found that combining agrivoltaics with regulated deficit irrigation (RDI) can cut tomato irrigation water use by about 50%, while improving land-use efficiency through simultaneous crop and solar energy production.

The announcement of the company’s latest module power electronics project came alongside Q1 2026 earnings that showed a 20.6% decrease in year-over-year revenue numbers amid a steep decline in domestic demand.

In a week marked by the largest sodium-ion battery order to date, widely seen as a watershed moment for the technology’s commercialization at scale, one of Europe’s emerging players, Spain’s Bihar Batteries, is strengthening the outlook for European-made sodium-ion batteries.

A UNSW-led research team proposed two low-power ride-through strategies for standalone PV–electrolyzer systems to maintain stability during sudden solar power fluctuations without using battery storage.

Indian scientists developed a cadmium-free CIS thin-film solar cell using indium oxide as an electron transport layer, achieving a simulated efficiency of 29.79% with SCAPS-1D modeling. Through sensitivity analysis, they showed that low defect density, optimized absorber thickness, and effective thermal management are critical for minimizing recombination losses and enabling high-performance, scalable devices.

A Vietnamese research team has developed a low-cost passive cooling system for PV modules based on hydrogel-coated paper that combines water flow and interfacial evaporation to reduce operating temperatures. Outdoor tests showed temperature reductions of up to 14 C and efficiency gains of up to 16.8%, with stable operation achieved using both freshwater and natural seawater.

Researchers in Canada found that 69%-transparent crystalline silicon semitransparent PV modules can improve tomato greenhouse yields by up to 38% while maintaining healthy plant growth through beneficial partial shading. Their simulations also showed that combining rooftop agrivoltaics with heat pumps can fully eliminate fossil fuel heating.