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 ...

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 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 ...

This is a real piece of nano-technology that has the potential to revolutionize fields like medicine, consumer electronics, and especially solar energy. Quantum dot technology has been in TVs for ...

Quantum computers have the potential of outperforming classical computers on some optimization tasks. Yet scaling up quantum ...

(Image: NASA) Quantum dots have found applications in composites, solar cells (Grätzel cells) and fluorescent biological labels (for example to trace a biological molecule) which use both the small ...

fluorescent labels in biomedical imaging and broadband solar cells, to mention just a few applications. The June issue of Nature Photonics has a special theme on colloidal quantum dots ...

Renewable energy is key to building a cleaner, more sustainable future, and nanotechnology is playing an exciting role in ...

Colloidal quantum dots are showcasing their potential beyond vibrant colors, diving deep into quantum effects such as spin coherence. Researchers are pioneering the use of these quantum properties to ...

In the context of a complex double quantum dot (QD) system, it carefully designs control paths according to the system's adiabatic evolution rules, guiding the two heavy hole spin qubits along ...