The chemical formula (not symbol) is NiBr2.
Formula: Ni3P2
This is a nickel phosphide. There are a number of nickel phosphides 8 in all - this is the most nickel rich phase.
It's nickel (II) Phosphate
Iron phosphide may be one of the following compounds: (di-)Iron phosphide, Fe2P (tri-)Iron phosphide, Fe3P And to complete the picture, monoiron phosphide, FeP.
Iron(II) Phosphide = Fe3P2 Iron(III) Phosphide = FeP
Vanadium phosphide is the chemical name for V3P3.
This is a nickel phosphide. There are a number of nickel phosphides 8 in all - this is the most nickel rich phase.
It's nickel (II) Phosphate
Nickel(II) Phosphide
Ni2P
The compound nickel (II) nitride consists of a nickel ion with a +2 charge and a nitride ion with a -3 charge. Since this compound is neutral, the charges must balance. Consequently, it can be determined that the formula of nickel (II) nitride is Ni3N2.
Iron phosphide may be one of the following compounds: (di-)Iron phosphide, Fe2P (tri-)Iron phosphide, Fe3P And to complete the picture, monoiron phosphide, FeP.
Nickel(II) is the plus two (+2) oxidation state of nickel (Ni), and we write it Ni(II) or Ni++ when we set it down.
Iron(II) Phosphide = Fe3P2 Iron(III) Phosphide = FeP
Vanadium phosphide is the chemical name for V3P3.
Nickelous oxide. Or Nickel(II) oxide. Depends on if you're using the Stock system, or the Classical system.
NiBr2
The chemical formula for nickel* (II) sulfate is NiSO4. *Note correct spelling.