Modules & Upstream Manufacturing

Developed by researchers in China, the inverted perovskite device purportedly achieves the smallest nonradiative recombination-induced open-circuit voltage loss reported to date. It uses a synergistic bimolecular interlayer to functionalize the perovskite interface.

Researchers at the University of New South Wales (UNSW) plan to develop a redesigned PV module for easier recycling, with AUD 5 million ($3.4 million) in federal government funding to help transform Australia’s solar panel recycling industry.

Market intelligence platform TrendForce says 210 mm n-type technology is “set to spearhead a new industrial revolution.” It expects 210mm modules to account for 78.29% of the large-format module market this year, increasing to 82.51% by 2027.

Researchers in Spain have investigated the potential of using photovoltaic (PV) or photovoltaic-thermal (PVT) systems in microbreweries and have found that PVT systems can cover more energy demand but have a longer payback time.

ClearVue Technologies, an Australian smart-window tech manufacturer, has secured a repeat order from the United States.

An international team of researchers have demonstrated how to speed up the research and development of scalable, high-performing organic solar cells by using an automated, high-throughput platform. It relies on digital twin technology and roll-to-roll (R2R) printing in a closed-loop system.

Scientists in India have combined 2D perovskite solar cell technology with MXenes materials to build a PV device with remarkable efficiency and open-circuit voltage. They claim the new cell architecture is key to helping charge carriers move smoothly through the cell layers and reduce recombination losses.

The City of Campbell contracted with Paired Power to install its Pairtree solar canopy.

Chinese solar module maker JinkoSolar says it has shipped more than 100 GW of tunnel oxide passivated contact (TOPCon) modules in just 18 months.

At SNEC 2024 in Shanghai, pv magazine spoke with Puzant Baliozian, lead consultant of sector group photovoltaic equipment for Germany’s Machinery and Equipment Manufacturers Association (VDMA). He says tunnel oxide passivated contact (TOPCon) technology will dominate the solar market in the next 10 years and expects module manufacturers will compete to develop more creative product designs. He also believes that copper metallization will gain market share in heterojunction (HJT) module production in the next years. “In the upcoming decade, we will have less than mg/W of silver being used for both TOPCon and HJT technologies,” he stated.