2020
DOI: 10.1016/j.jlumin.2020.117543
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White light generation and energy transfer in Tm3+/Tb3+/Sm3+ -doped 60TeO2. 40ZnO glasses

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Cited by 19 publications
(5 citation statements)
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“…Simultaneously, Sm 3+ ions can absorb this relaxed energy through an energy transfer (ET) mechanism, leading to red emissions. 68 In the presence of both Tm 3+ and Sm 3+ ions in the same structure, the previously described lifetime durations are shortened, as evident in Fig. 5(a) and (b), due to the ET transition between Tm 3+ and Sm 3+ ions.…”
Section: Pccp Papermentioning
confidence: 59%
“…Simultaneously, Sm 3+ ions can absorb this relaxed energy through an energy transfer (ET) mechanism, leading to red emissions. 68 In the presence of both Tm 3+ and Sm 3+ ions in the same structure, the previously described lifetime durations are shortened, as evident in Fig. 5(a) and (b), due to the ET transition between Tm 3+ and Sm 3+ ions.…”
Section: Pccp Papermentioning
confidence: 59%
“…There exist three primary methods for generating green light, namely rare earth ion leap emission, semiconductor laser emission and frequency conversion. [1][2][3] The green light generated by rare-earth ion leap exhibits superior beam quality and higher brightness in comparison to the green light generated by alternative methods. Consequently, it is the optimal selection for generating green light.…”
Section: Introductionmentioning
confidence: 99%
“…Green light is one of the most sensitive to the human eyes among the various colors of light and thus has been extensively researched in the medical and display fields. There exist three primary methods for generating green light, namely rare earth ion leap emission, semiconductor laser emission and frequency conversion 1–3 . The green light generated by rare‐earth ion leap exhibits superior beam quality and higher brightness in comparison to the green light generated by alternative methods.…”
Section: Introductionmentioning
confidence: 99%
“…This motivated us to search for a trivalent lanthanide emitting in the region of the electromagnetic spectrum where Pd 2+ ions absorb strongly, as this would represent favorable conditions for an energy transfer . In this context, Tm 3+ was considered an attractive candidate given its characteristic blue PL around 452 nm achievable under near-UV excitation. Blue-emitting Tm 3+ -doped glasses have been considered for applications in lasing ,, and also white-light-emitting devices. , Energy transfer processes in glasses containing Tm 3+ ions and other metals as dopants such as Sb 3+ , Ag + , Ce 3+ , and other lanthanides , have been also the subject of attention mainly seeking to boost the blue PL of Tm 3+ . Nevertheless, the influence of Pd 2+ ions on the blue emission of Tm 3+ in glasses has not yet been reported to the best of the authors’ knowledge.…”
Section: Introductionmentioning
confidence: 99%
“…23−27 Blue-emitting Tm 3+ -doped glasses have been considered for applications in lasing 23,24,26 and also white-light-emitting devices. 28,29 Energy transfer processes in glasses containing Tm 3+ ions and other metals as dopants such as Sb 3+ , 25 Ag + , 27 Ce 3+ , 23 and other lanthanides 28,29 have been also the subject of attention mainly seeking to boost the blue PL of Tm 3+ . Nevertheless, the influence of Pd 2+ ions on the blue emission of Tm 3+ in glasses has not yet been reported to the best of the authors' knowledge.…”
Section: ■ Introductionmentioning
confidence: 99%