How can the latest technology, such as solar cells, be improved? An international research team led by the University of ...

How can the latest technology, such as solar cells, be improved? An international research team led by the University of ...

Scientists have unlocked the secret world of dark excitons — tiny energy carriers crucial for the future of solar power and ...

How can the latest technology, such as solar cells, be improved? An international research team led by the University of Göttingen is helping to find ...

The metal–semiconductor junction in Schottky barrier devices has the crucial role of establishing a built-in potential, and a field to separate electron–hole pairs. In light of the sub-optimal ...

When light strikes quantum dots in the device ... Water molecules not only help separate the initial electron-hole pairs but also form organized channels that help transport these charges. The quantum ...

Ultrafast Dark-field Momentum Microscopy allows for real-time observation of dark excitons, crucial for developing efficient ...

Boron fits into the crystal lattice just like silicon atoms, but since boron has only three electrons to use, a kind of hole is created where an electron ... high-intensity light in a process ...