Quantum dots for imaging and its safety

Nanoscale semiconductor particles, especially in the form of quantum dots (QDs), are increasingly being applied across sectors such as autonomous vehicles, food inspection, medical devices, and artificial intelligence. These industries are actively seeking greater access to

Quantum dots are tiny semiconductor crystals that showcase distinct characteristics due to their nanoscale dimensions. These particles, typically ranging between 2-10 nanometers, demonstrate optical and electronic properties that vary with their size, bridging the gap between

Nanoco Group plc, based in Runcorn, is a company known for developing and producing cadmium-free quantum dots along with other advanced nanomaterials. These materials have applications in a range of industries, including monitors, televisions, and infra-red

Quantum dots represent one of the most exciting and rapidly evolving areas of nanotechnology, offering groundbreaking possibilities in various sectors such as display technology, biomedical applications, and renewable energy. Among the various types, CFQD® quantum dots

Nanoco Group Plc has recently completed a strategic review and is now aiming for a future of growth, driven by both innovation and sound financial management. This updated direction suggests a path forward that could bring

Quantum dots are transforming the landscape of display technology, making their way into high-quality prototypes from established companies like Sharp and TCL. These semiconductor nanocrystals, measuring just 2 to 10 nanometres, are poised to enhance TVs,

Quantum dots are minute semiconductor particles with dimensions measured in nanometres. These particles exhibit unique optical and electronic characteristics due to quantum mechanical effects, distinguishing them from larger particles. Known for their quantum size effects, these

Over 30 years ago, when Alexei Ekimov, Louis Brus, and Moungi Bawendi began their work on quantum dots, they could not have predicted the profound influence these tiny crystals would exert on the world. Their contributions,

Quantum dots, tiny semiconductor particles with unique optical and electronic properties, are transforming various fields. Their ability to emit light in different colours based on size and composition has opened up new possibilities, particularly in medicine.

On October 25, 2024, Quantum Dot Day will provide a platform for researchers from various fields to come together and share insights. The event focuses on key areas such as quantum optics, spectroscopy, spin physics, transport,

Quantum dots are semiconductor nanoparticles with unique optical and electronic properties, making them highly valuable in various applications, particularly in display technologies. Traditionally, quantum dots have been made using cadmium, a toxic heavy metal that poses

The global quantum dot market is expected to see substantial growth over the next decade, expanding from USD 6 billion in 2023 to an anticipated USD 28.84 billion by 2033. This rapid increase is largely attributed

Over thirty years ago, Alexei Ekimov, Louis Brus, and Moungi Bawendi made pioneering contributions to the study of quantum dots, tiny nanometre-sized crystals with unique semiconducting properties. Their work, which played a crucial role in the

Quantum dots (QDs) are tiny semiconductor particles that exhibit unique optical and electronic properties due to quantum mechanics. Typically composed of materials like cadmium selenide (CdSe) or indium phosphide (InP), these nanoparticles can emit light at

Quantum dot (QD) technology is revolutionising the lighting and display industries. These semiconductor nanocrystals, just a few nanometres in size, have unique electronic and optical properties that vary with their size and shape. Larger quantum dots

Nanoco Group launched its new wafer device facility, Fab, at its Runcorn headquarters. This makes it only the second of its kind in the UK. Nanoco, originally a spin-out from the University of Manchester, specialises in