EPR and optical investigations of LaMgAl 11 O 19 :Cr 3+ phosphor

“…The spectra of these slightly doped systems exhibit distinguishable near-edge absorption peaks, which lie at the origin of such misleading edge assignment. In fact, these absorption features (red arrows) are brought by Cr 6+ characteristic optical transitions commonly found at ~ 338 and ~ 370 nm, and are assigned to 4 A2g→ 4 T1g and to 4 A2g→ 2 A1g transition, respectively [1][2][3][4][33][34][35][36][37]. Actually, Cr 6+ is optically inactive since it has 3d 0 configuration, but the charge transfer taking place between O and Cr ions leads to the optically active Cr 5+ (3d 1 2p 5 ) state [1][2][3][38][39][40][41].…”

Optical Transitions from Hexavalent Chromium in Lithium-Borate Glasses

“…The spectra of these slightly doped systems exhibit distinguishable near-edge absorption peaks, which lie at the origin of such misleading edge assignment. In fact, these absorption features (red arrows) are brought by Cr 6+ characteristic optical transitions commonly found at ~ 338 and ~ 370 nm, and are assigned to 4 A2g→ 4 T1g and to 4 A2g→ 2 A1g transition, respectively [1][2][3][4][33][34][35][36][37]. Actually, Cr 6+ is optically inactive since it has 3d 0 configuration, but the charge transfer taking place between O and Cr ions leads to the optically active Cr 5+ (3d 1 2p 5 ) state [1][2][3][38][39][40][41].…”

Optical Transitions from Hexavalent Chromium in Lithium-Borate Glasses

“…The spectra of these slightly doped systems exhibit distinguishable near-edge absorption peaks, which lie at the origin of such misleading edge assignment. In fact, these absorption features (red arrows) are brought by Cr 6+ characteristic optical transitions commonly found at ~ 338 and ~ 370 nm, and are assigned to 4 A2g→ 4 T1g and to 4 A2g→ 2 A1g transition, respectively [1][2][3][4][33][34][35][36][37]. Actually, Cr 6+ is optically inactive since it has 3d 0 configuration, but the charge transfer taking place between O and Cr ions leads to the optically active Cr 5+ (3d 1 2p 5 ) state [1][2][3][38][39][40][41].…”

Optical transitions from hexavalent chromium in lithium-borate glasses

“…Characteristic emission bands in red and in the near‐infrared (NIR) range associated with d–d electronic transitions of Cr 3+ have been reported previously in many phosphors. Sharp deep‐red emissions near 700 nm in Ca 3 Al 2 Ge 2 O 10 :Cr 3+ , Ca 14 Zn 6 Ga 10 O 35 :Cr 3+ , LaMgAl 11 O 19 :Cr 3+ and BaAl 2 O 4 :Cr 3+ can be observed, while Cr 3+ ‐doped MWO 4 (M = Mg, Zn, Cd) and YGG exhibit broad NIR emission at 10 K or 77 K. LiMgAl(MoO 4 ) 3 :Cr 3+ , KSc(WO 4 ) 2 :Cr 3+ and β‐Ga 2 O 3 :Cr 3+ phosphors all generate broad NIR emissions at room temperature that show potential application in tunable laser medium and bio‐imaging.…”

Synthesis and luminescence of novel near‐infrared emitting BaZrSi₃O₉:Cr³⁺ phosphors