Optical Properties of NaCl:Sn²⁺Phosphor Synthesized from Aqueous NaCl/SnCl₂/HCl Solution

Abstract: A NaCl:Sn 2+ phosphor was synthesized from an aqueous NaCl/SnCl 2 /HCl solution. The optical properties of the as-synthesized phosphor material were investigated by diffuse reflectance spectroscopy, photoluminescence (PL) analysis, PL excitation (PLE) spectroscopy, and luminescence decay time measurement. The effects of temperature and excitation wavelength on the emission spectra were thoroughly studied in the present study. The temperature dependence of the PL spectra was examined between T = 20 and 300 K in… Show more

“…8a) is in agreement with those observed in many Sn 2+ -activated phosphors. 20 The R emission peak observed here also corresponds to the A X emission band usually observed in Sn 2+ -activated alkali halides (e.g., NaCl, KCl, KI, and KBr) 19,21,22 and SnCl 2 (Ref. 18) (i.e., it may be due to defect levels associated with oxygen vacancies or Sn interstitials in SnO 2 ).…”

“…12a are mainly due to the excitation of Sn 2+ in the SnO 2 host, i.e., the absorption in the 4−5 eV region is due to the 1 S 0 → 3 P 1 (A 1 , A 2 ) and 1 S 0 → 3 P 2 (B) transitions and that above ∼5 eV is due to the 1 S 0 → 1 P 1 (C 1 −C 3 ) transition. [18][19][20] The dashed line in Fig. 12a represents the PLE spectrum of the Sn 2+related A T emission band observed in NaCl:Sn 2+ .…”

IR Emission Band and Multiple-Peak Structure in Photoluminescence Spectra of SnO₂:Mn

“…8a) is in agreement with those observed in many Sn 2+ -activated phosphors. 20 The R emission peak observed here also corresponds to the A X emission band usually observed in Sn 2+ -activated alkali halides (e.g., NaCl, KCl, KI, and KBr) 19,21,22 and SnCl 2 (Ref. 18) (i.e., it may be due to defect levels associated with oxygen vacancies or Sn interstitials in SnO 2 ).…”

“…12a are mainly due to the excitation of Sn 2+ in the SnO 2 host, i.e., the absorption in the 4−5 eV region is due to the 1 S 0 → 3 P 1 (A 1 , A 2 ) and 1 S 0 → 3 P 2 (B) transitions and that above ∼5 eV is due to the 1 S 0 → 1 P 1 (C 1 −C 3 ) transition. [18][19][20] The dashed line in Fig. 12a represents the PLE spectrum of the Sn 2+related A T emission band observed in NaCl:Sn 2+ .…”

IR Emission Band and Multiple-Peak Structure in Photoluminescence Spectra of SnO₂:Mn

“…These emission bands are traditionally assigned to energy levels arising from the Jahn−Teller effect on the triplet state of s 2 ions in alkali halides (A T and A X ). 24 The PL and PLE spectra of NaCl:Ce 3+ , Sn 2+ in Fig. 8c are observed to be nearly the same as those for NaCl:Sn 2+ (Fig.…”

“…8b is characterized by the A ( 1 S 0 → 3 P 1 ), B ( 1 S 0 → 3 P 2 ), and C ( 1 S 0 → 1 P 1 ) absorption peaks, in the order of increasing photon energy. 24 These absorption peaks have Figure 9. Energy-level scheme for Sn 2+ and Ce 3+ ions representing the PL and PLE processes in (Ce 3+ , Sn 2+ )-codoped NaCl phosphor.…”

“…22 Previously, alkali halide phosphors contain heavy-metal ions with an s 2 configuration like Sn 2+ , Pb 2+ , and Tl + , received a great deal of attention both from theoretical and experimental point of views. 24 However, there has been no detailed studies on the codoping effects of Ce 3+ and Sn 2+ neither in NaCl nor in other host materials. Only a few authors reported results on the codoping effects of Ce 3+ and Sn 2+ in SrGa 2 S 4 (Ref.…”

Excitation Energy Transfer from Ce³⁺to Sn²⁺in NaCl Phosphor

A study on the tunable emission induced by energy transfer in rare-earth-free calcite- and vaterite-type CaCO3 co-doped with Sn2+ and Mn2+ phosphors