Chemical elements
  Beryllium
    Isotopes
    Energy
    Production
    Application
    Physical Properties
    Chemical Properties
      Beryllium Hydride
      Beryllium Fluoride
      Beryllium Chloride
      Beryllium Bromide
      Beryllium Iodide
      Beryllium Double Halides
      Beryllium Oxyhalides
      Beryllium Oxide
      Beryllium Hydroxide
      Beryllium Beryllate
      Beryllium Peroxide
      Beryllium Sulphide
      Beryllium Sulphide
      Beryllium Double Sulphates
      Beryllium Sulphite
      Beryllium Thiosulphate
      Beryllium Selenate
      Beryllium Chromate
      Beryllium Hydride
      Beryllium Chromite
      Beryllium Molybdate
      Beryllium Nitride
      Beryllium Azide
      Beryllium Nitrate
      Beryllium Phosphates, Phosphite, and Hypophosphite
      Beryllium Hypophosphate
      Beryllium Arsenates
      Beryllium Arsenite
      Beryllium Antimonate
      Beryllium Hydride
      Beryllium Vanadates
      Beryllium Niobate
      Beryllium Carbide
      Beryllium Borocarbide
      Beryllium Carbonate
      Beryllium Acetate
      Beryllium Oxalates
      Beryllium Cyanide
      Beryllium Platinocyanide
      Beryllium Silicates
      Beryllium Silicotungstate
      Beryllium Borate
      Beryllium Aluminate

Beryllium Sulphide






Beryllium Sulphide is a white amorphous solid. It can be prepared by heating the anhydrous chloride with sulphur or hydrogen sulphide. It is also obtained when beryllium carbide is heated at a high temperature with sulphur.

Wohler said it dissolved with difficulty in water, without disengaging hydrogen sulphide. Lebeau said it was decomposed by water, but Mieleitner and Steinmetz found that even boiling water only decomposed it slightly, though acids, including carbonic acid, acted on it readily. In contact with concentrated nitric acid it burns brightly and sulphur separates.

Crude beryllium sulphide, prepared from the metal and sulphur vapour, is strongly phosphorescent.


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