With the initial efficiency of 25.56%, the solar cell retained 85% of its efficiency despite operating for upto 1,000 hours ...

The Korea Institute of Energy Research (President Yi Chang-keun, hereinafter referred to as “KIER”) has successfully ...

German scientists believe that power generation for future habitats on the moon could be achieved by manufacturing halide ...

The Korea Institute of Energy Research has successfully developed ultra-lightweight flexible perovskite/CIGS tandem solar ...

From extracting water for fuel to building homes with lunar bricks, Moon dust has been central to space sustainability ...

Solyco is developing a new low-temperature technology for the interconnection of solar cells. It consists of a round copper core with a diameter of 280 μm that is covered by a very thin layer of ...

A team of researchers has unveiled a creative solution to one of space exploration’s biggest hurdles—how to generate power on ...

A team of researchers in China has demonstrated a novel dual-solvent process in 4-terminal carbon CsPbBr3 perovskite solar cells that achieve 10.18% power conversion efficiency. They have also built a ...

The approach stabilizes rubidium in wide-bandgap perovskites, minimizing non-radiative recombination and pushing efficiency ...

To avoid expensive transportation, lunar colonists have to use existing materials – such as moon dust to produce solar cells.

Unlike conventional silicon-based solar cells, perovskite solar cells (PSCs) are not only thin and lightweight, but can also ...

The Korea Institute of Energy Research (President Yi Chang-keun, hereinafter referred to as "KIER") has successfully ...