GIST researchers have developed a perovskite mini-module with 22.56% efficiency by improving the SnO₂ electron transport layer with PEI, reducing defects and electron loss. The module retained 94% of ...

New advancements in solar cells have led to a significant breakthrough in power efficiency.

Solar cells, devices that convert sunlight into electricity, are helping to reduce greenhouse gas emissions worldwide, ...

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 ...

A team led by University of Electronic Science and Technology of China (UESTC) has found that pyrrodiazole as an additive in formamidinium iodide (FAI)-based inverted perovskite solar enables larger ...

The latest Trinasolar module has an output of 808W. Image: Trina Solar. Leading Chinese module manufacturer Trinasolar has developed an 808W solar module that uses perovskite/silicon tandem solar ...

Scientists have found a way to make perovskite solar cells not only highly efficient but also remarkably stable, addressing one of the main challenges holding the technology back from widespread use.

Recently, perovskite solar cells have emerged as a promising alternative to traditional silicon panels, offering potentially higher efficiency and lower production costs. With the increased demand for ...

Perovskite-based solar cells offer higher efficiency and lower production costs, but, until now, they degrade quickly in outdoor environments. New developments that extend their life may enable ...

Belgium-headquarterd high-tech research organization imec, a partner in the initiative EnergyVille, in collaboration with the University of Cyprus, has demonstrated long-term outdoor stability of ...

Flexible perovskite solar cells are promising for lightweight and versatile applications but their sensitivity to humidity and temperature poses a challenge to long-term durability. To address this, ...