Luminescence properties of dysprosium doped calcium magnesium silicate phosphor by solid state reaction method

Dysprosium doped calcium magnesium silicate (CaMgSi2O6:Dy3+) white light emitting phosphor was synthesized by solid state reaction process. The crystal structure of sintered phosphor was monoclinic structure with space group C2/c. Chemical composition of the sintered CaMgSi2O6:Dy3+ phosphor was confirmed by EDX. The prepared CaMgSi2O6:Dy3+ phosphor was excited from 352 nm and their corresponding emission spectra were recorded at blue (470 nm), yellow (570 nm) and red (675 nm) line due to the 4F9/2 → 6H15/2, 4F9/2 → 6H13/2, 4F9/2 → 6H11/2 transitions of Dy3+ ions. The combination of these three emissions constituted as white light confirmed by the Commission Internationale de L'Eclairage (CIE) chromatic coordinate diagram. The possible mechanism of the white light emitting long lasting CaMgSi2O6:Dy3+ phosphor was also investigated. Investigation on afterglow property show that phosphor held fast and slow decay process. The peak of mechanoluminescence (ML) intensity increases linearly with increasing impact velocity of the moving piston. Thus the present investigation indicates that the local piezoelectricity-induced electron bombardment model is responsible to produce ML in prepared CaMgSi2O6:Dy3+ phosphor. [Display omitted] •The crystal structure of CaMgSi2O6:Dy3+ phosphor is consistent with standard monoclinic structure.•CIE coordinates of CaMgSi2O6:Dy3+ phosphor is suitable as white light emitting phosphor.•The local piezoelectricity-induced electron bombardment model is responsible to produce ML in CaMgSi2O6:Dy3+ phosphor.