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Results 1 - 10 of 17 for Cadmium selenide
  • Article - 20 Jan 2005
    This case study compares dynamic light scattering to other methods such as transmission electron microscopy and x-ray diffraction for the determination of particle size for Cadmium Selenide...
  • Article - 20 Jul 2001
    In 1817, German chemist Friedrich Strohmeyer discovered cadmium from an impurity of zinc carbonate (ZnCO3). Cadmium derives from the Latin term ‘cadmia’ and the Greek word ‘kadmeia’, which are ancient...
  • Article - 31 Jul 2010
    Aculon has exclusively licensed patented technology from Princeton University for coating oxide surfaces, including metal oxide and yttria nanoparticles. This technology is useful for bioimaging and...
  • Article - 23 Nov 2001
    Materials with grain sizes in the order of a billionth of a meter are called nanomaterials, or nanocrystalline materials, which can be used for a range of structural and non-structural applications.
  • Article - 22 Oct 2021
    In this article, Radiant Vision Systems discusses the increasing use of nanotechnology and quantum dots in industry. Electronics, energy, and nanomedicine are currently the biggest fields but...
  • Article - 16 May 2022
    Thin film solar cells are a next-generation solution for the renewable energy industry. They possess several benefits over conventional crystalline photovoltaic solar cell technologies, but there are...
  • Article - 28 Feb 2022
    This article provides an overview of the materials that are used to produce photovoltaic cells for the production of renewable energy, as well as new research that proposes the use of novel materials.
  • Article - 14 Dec 2001
    Safety issues associated with the manufacture, installation and usage of solar cells are addressed in the article.
  • Article - 4 Oct 2011
    Cadmium sulfide is a chemical compound that has the formula CdS. It is yellow in color and commonly used as a pigment, in solar cells and photoresists. Properties of cadmium sulfide are also provided.
  • Article - 17 May 2022
    Six critical steps are involved in the manufacturing of semiconductors. These steps include deposition, photoresist, lithography, etch, ionization and packaging. This article discusses several...