2021
DOI: 10.1039/d1ma00395j
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Regulating the Bi NIR luminescence behaviours in fluorine and nitrogen co-doped germanate glasses

Abstract: Bi-doped nitridated germanate glass covering the whole NIR from 800~1600 nm has attracted great attention due to the potential application in tunable fiber laser and optical amplifier. However, it remains...

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Cited by 9 publications
(6 citation statements)
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“…The lifetime of 1148 nm shows a rapid decrease, but the lifetimes from 922 and 1480 nm first present a gradual increase and then decrease, which shares a similar variation with NIR emission intensity. This manifests the energy transfer from Bi + to two new Bi active centers 36 . There were no emission bands at 922 and 1480 nm for the 0Al sample, so the corresponding data was not measured.…”
Section: Resultsmentioning
confidence: 97%
“…The lifetime of 1148 nm shows a rapid decrease, but the lifetimes from 922 and 1480 nm first present a gradual increase and then decrease, which shares a similar variation with NIR emission intensity. This manifests the energy transfer from Bi + to two new Bi active centers 36 . There were no emission bands at 922 and 1480 nm for the 0Al sample, so the corresponding data was not measured.…”
Section: Resultsmentioning
confidence: 97%
“…It can be observed that the NIR emission spectra of Bi m + /Eu n + /Yb 3+ co-doped ( m = 0, 2, 3 and n = 2, 3) consist of two emission peaks at ∼986 and 1062 nm, which the NIR emission of Bi m + /Eu n + /Yb 3+ co-doped peak at ∼986 nm due to 2 F 5/2 → 2 F 7/2 transition of Yb 3+ ions, 48 while the NIR emission peak at ∼1062 nm can be attributed to 2 D 3/2 → 4 S 3/2 transition of Bi 0 ions. 48–50 In the NIR range of ∼960–1040 nm, NIR emission spectra of Bi m + /Eu n + /Yb 3+ co-doped produced a bandwidth of ∼40 nm. However, according to many previous reports, it has been attributed the NIR emission at ∼1062 nm to Bi 0 ions because Bi-dopant exists at three states including Bi 3+ , Bi + , and Bi 0 ions that can emit in NIR range from ∼950 to 1500 nm,.…”
Section: Resultsmentioning
confidence: 99%
“…10. CET I ( I from 1 to 5) and ET J ( J from 1 to 4) processes were described as follows: 50–52 CET 1 : ( 2 F 7/2 + 2 F 5/2 )(Yb 3+ ) + 5 D 2 (Eu 3+ ) → ( 2 F 7/2 + 2 F 7/2 )(Yb 3+ ) + 7 F 0 (Eu 3+ ).CET 2 : 2 P 1/2 (Bi 3+ ) + 2 F 7/2 (2Yb 3+ ) → 1 S 0 (Bi 3+ ) + 2 F 5/2 (2Yb 3+ ).CET 3 : 1 S 0 (Bi 0 ) + 2 F 7/2 (2Yb 3+ ) → 4 S 3/2 (Bi 0 ) + 2 F 5/2 (2Yb 3+ ).CET 4 : 5 D 2 (Eu 3+ ) + 2 F 7/2 (2Yb 3+ ) → 7 F 0 (Eu 3+ ) + 2 F 5/2 (2Yb 3+ . )CET 5 : 4f 6 5d(Eu 2+ ) + 2 F 7/2 (2Yb 3+ ) → 4f 7 (Eu 2+ ) + 2 F 5/2 (2Yb 3+ ).ET1: 4f 6 5d(Eu 2+ ) + 7 F 0 (Eu 3+ ) → 5 D 2 (Eu 3+ ) + 4f 7 (Eu 2+ ).ET2: 3 P 1 (Bi 3+ ) + 7 F 0 (Eu 3+ ) → 5 D 0 (Eu 3+ ) + 1 S 0 (Bi 3+ ).ET3: 2 P 1/2 (1)(Bi 2+ ) + 7 F 0 (Eu 3+ ) → 5 D 0 (Eu 3+ ) + 2 P 1/2 (Bi 2+ ).ET4: 2 D 3/2 (Bi 0 ) + 2 F 7/2 (Yb 3+ ) → 2 F 5/2 (Yb 3+ ) + 4 S 3/2 (Bi 0 ).…”
Section: Resultsmentioning
confidence: 99%
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