Professor Yoke Khin Yap and his research group are improving the efficiency of solar cells one quantum dot at a time. × To sustainably power our digital future, the world needs more — and more ...

Researchers at the University of Cambridge have discovered that molecular vibrations can act like a catapult, flinging ...

Scientists at the University of Cambridge have discovered that electrons can be fired across solar cell materials in just 18 ...

Researchers have significantly improved the performance of kesterite (CZTSSe) thin-film solar cells. They developed a new method for doping silver (Ag) in solar cells to suppress defects that hinder ...

Electrons can be "kicked across" solar materials at almost the fastest speed nature allows, scientists have discovered, ...

In a study published in Nature, researchers at Linköping University have developed a method to recycle all parts of a solar cell repeatedly without environmentally hazardous solvents. The recycled ...

The development of clean and low-cost solar photovoltaic technology is crucial for the global transition toward carbon ...

A new model shows how transport resistance limits solar cell efficiency and how better fill factor predictions could help us develop more powerful photovoltaics One light bulb turned on (Courtesy: ...

Scientists at the Indian Institute of Technology Bombay have demonstrated the non-destructive, room-temperature deposition of amorphous indium zinc oxide (a-IZO) transparent electrodes (TEs) for ...

The molecular structure of GTA, the normalized PCE curves of GTA-based IS-PSCs under various stretch and stretch-release cycles. Recently, a research team led by Professor Zhi-Guo Zhang from Beijing ...