Osaka Metropolitan University scientists have created a molecule that naturally forms p/n junctions, structures that are ...

UNSW engineers have made a major step forward in the development of a new type of solar cell that could help make future ...

The research team at Australia's University of New South Wales (UNSW) has improved the performance of solar cells made from antimony chalcogenide, an emerging photovoltaic material regarded as a ...

Traditional flat panels have a key limitation: they can only capture sunlight efficiently from one direction. This is where ...

Solar panels became a powerful alternative for renewable energy a few years ago. But as technology advances, new alternatives ...

P-type dye-sensitised solar cells (p-DSSCs) represent a promising class of photovoltaic devices that utilise p-type semiconductors – most commonly nickel oxide – as the photoactive electrode. These ...

Our research focuses on developing innovative materials that can improve solar cell technology. We specialize in creating new materials that can capture and transport solar energy more efficiently, ...

An international team has utilized an n-type polymeric additive to stabilize C60 molecules for use in inverted perovskite PV cells. Thanks to this approach, the researchers built a solar cell with the ...

Illustration of all-organic solar cells and power conversion efficiencies of AOSCs described in the present study and previous reports. As global efforts to combat climate change continue, demand for ...

UNSW researchers found that some POE encapsulants can trigger severe corrosion in TOPCon solar modules, causing up to 55% power loss under damp-heat conditions. Their study highlights that module ...

A new generation of 3D-printed solar cells could let buildings generate power through colorful, semi-transparent windows ...