cadmium selenide

The production of cadmium selenide has been carried out in two different ways.

Cadmium selenide may also be produced in the form of nanoparticles.

Cadmium selenide has played an important part in the fabrication of quantum dots.

A downside to the cadmium selenide dots, however, is that they are highly toxic to the body.

Much of the current research on cadmium selenide is focused on its nanoparticles.

Dots may also be made from ternary compounds such as cadmium selenide sulfide.

Cadmium selenide is an inorganic compound with the formula CdSe.

Nanoparticles of cadmium selenide (quantum dots) glow when exposed to ultraviolet light.

Cadmium selenide can be used as red pigment, commonly called cadmium red.

Olive oil has also been used as both solvent and ligand in the synthesis of cadmium selenide quantum dots.

A broader range is seen for the solid solution of cadmium sulfide and cadmium selenide.

Etxeberria was aiming to disperse the cadmium selenide nanoparticles in the polystyrene phase.

Cadmoselite is a rare cadmium selenide mineral with chemical formula CdSe.

The major difference is that the light emitting centers are cadmium selenide (CdSe) nanocrystals.

Its surface consists of Cadmium selenide (CdSe).

Aerogels made of cadmium selenide quantum dots in a porous 3-D network have been developed for use in the semiconductor industry.

Synthesis in structured environments refers to the production of cadmium selenide in liquid crystal or surfactant solutions.

Cadmium selenide is a known carcinogen to humans and medical attention should be sought if swallowed or if contact with skin or eyes occurs.

Cadmium selenide (CdSe) quantum dots have proven to penetrate very effectively when they have certain properties.

Presented in the journal Applied Physics Letters, the work shows how 2% efficiency was obtained by using so-called quantum dots made up of cadmium selenide.

This interface is the chemical basis of nanoscience or nanotechnology and specifically arise from the study of quantum size effects in cadmium selenide clusters.

"The lack of low cost, high-quality tetrapods of the cadmium selenide kind has been a major roadblock in developing tetrapod-based solar cell devices.

One example of nanosensors involves using the fluorescence properties of cadmium selenide quantum dots as sensors to uncover tumors within the body.

Cadmium selenide quantum dots emit bright luminescence under UV excitation (He-Cd laser, for example).

In one instance, the interaction of two light beams of different wavelengths was demonstrated by converting them into co-propagating surface plasmons via cadmium selenide quantum dots.