A group of researchers in South Korea has developed a flexible quantum dot solar cell based on all-inorganic cesium-lead iodide (CsPbI 3) perovskite, which is also known as black perovskite.Cells ...

Researchers in Iran have identified new ways to design perovskite quantum dot solar cells via a ... The research team conducted a series of simulations on a 14.61%-efficient PQD cell based on ...

These solar cells are manufactured using wide-bandgap perovskites, which have an electronic bandgap greater than 1.6 electronvolts (eV) and can thus absorb higher-energy photons.

Definition: Quantum dot solar cells are a type of photovoltaic device that utilizes nanometer-scale semiconductor crystals, known as quantum dots, to convert solar energy into electrical energy. These ...

UbiQD, the Los Alamos spinout that specializes in cadmium-free quantum dot materials with potential in a variety of optical ...

Michigan Tech researchers are pioneering one such breakthrough in solar energy: highly efficient quantum dot solar cells. Society’s growing digital infrastructure and the power-hungry data centers ...

Dec 08, 2023: Quantum dot solar cells meet MXene for simultaneous efficiency and stability gains (Nanowerk News) A research team led by Professor Jong-min Choi of the Department of Energy Engineering ...

Quantum batteries could significantly improve the efficiency of solar cells, enabling them to capture and store solar energy much faster. They could also lead to more efficient and powerful ...

DGIST achieves both efficiency and stability in next-gen solar cells with quantum dot surface stabilization strategy! Peer-Reviewed Publication ...

Manganese-doped quantum dots utilize ultrafast spin-exchange interactions to achieve highly efficient carrier multiplication, generating multiple excitons from a single photon.