Researchers adopt a new ligand to enhance the efficiency and stability of perovskite quantum dot solar cells. Solar cell efficiency increases to 15.3% by correcting distortions on the surface of ...
Recent advancements in quantum dot solar cells have led to significant improvements in their power conversion efficiency. Researchers have achieved efficiencies exceeding 16% in laboratory-scale ...
The type of semiconductive nanocrystals known as quantum dots are both expanding the forefront of pure science and also hard ...
The device reportedly achieved the highest power conversion efficiency ever reported for flexible quantum dot solar cells. Quantum dots are tiny particles of semiconductors that can carry a charge ...
Quantum-dot-based solar cells promise to deliver efficiencies approaching those of crystalline solar cells but with the manufacturing simplicity of organics. Crystalline materials such as silicon ...
Quantum dots, tiny particles of semiconductor that can carry a charge, made from various materials, have been investigated as possible solar cell materials. Those based on perovskites have proved ...
Quantum materials are among the new materials used for developing solar cells, with different types of quantum dots receiving special attention. Quantum dots containing various materials like lead ...
Colloidal solutions of gallium arsenide quantum dots of the type used in lasers, TVs, solar cells, medical devices, and other electronics glow under UV light. These were grown using a groundbreaking ...
Colloidal solutions of gallium arsenide quantum dots of the type used in lasers, TVs, solar cells, medical devices, and other ...
A new technique for growing quantum dots has not only found a new, more efficient way to build a useful type of quantum dot, but also opened up a whole group of novel chemical materials for future ...