How to Deal with Inefficient Modules?– SMM Analysis】According to SMM statistics, we estimate that approximately 15%–20% of modules in China will fail to meet standards by 2026, and these low-power ...

An international research team has developed a new two-dimensional perovskite interlayer based on a co-crystal engineering strategy for more robust perovskite films. It demonstrated improved ...

Southwest Research Institute (SwRI) conducted a series of large-scale tests to investigate factors that affect flame spread ...

A new Perspectives research study on the future of the global PV supply chain outlines how module prices, performance, and lifetimes could evolve over the next 25 years. The work reflects a ...

Research led by the US Department of Energy's National Renewable Energy Laboratory (NREL) has gathered data on interactions between habitat, pollinators, soil and solar energy production at three ...

Photovoltaic (PV) modules constitute a critical component in the global renewable energy landscape. However, their long‐term performance is often compromised by degradation phenomena that stem from ...

Photovoltaic modules are central to the transition towards sustainable energy systems, yet their long‐term efficiency is subject to both inherent material limitations and external environmental ...

TU Delft researchers have investigated for the first time the effect rear irradiance has on the optimal bandgap energy and thickness of the perovskite cell in a bifacial two-terminal ...

New UNSW research found that about 20% of solar modules in large PV plants degrade much faster than expected. The researchers ...

The use of POE as an encapsulant in TOPCon module construction could limit the effects of degradation on the module’s ...

Analysis: As Eging PV comes under pressure to repay investment in an incomplete manufacturing facility, China’s solar ...

Southwest Research Institute (SwRI) conducted a series of large-scale tests to investigate factors that affect flame spread ...