A novel Eu activated CaZnTeO tellurate red phosphor for white LEDs with high color stability and color purity
Research into red phosphors with a high color rendering index is particularly compelling, given the absence of a red component in the spectrum of commercial pc-WLEDs, which combine blue LED chips with yellow-emitting YAG:Ce 3+ phosphors. Herein, we reported a novel Eu 3+ activated Ca 3 Zn 3 Te 2 O 1...
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Published in | New journal of chemistry Vol. 48; no. 2; pp. 9314 - 9321 |
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Main Authors | , , , , , , |
Format | Journal Article |
Published |
20.05.2024
|
Online Access | Get full text |
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Abstract | Research into red phosphors with a high color rendering index is particularly compelling, given the absence of a red component in the spectrum of commercial pc-WLEDs, which combine blue LED chips with yellow-emitting YAG:Ce
3+
phosphors. Herein, we reported a novel Eu
3+
activated Ca
3
Zn
3
Te
2
O
12
red-emitting phosphor, synthesized using a conventional high-temperature solid-phase method. The phase and crystal structures were analyzed by powder X-ray diffraction and Rietveld refinement. The optimal excitation peak of the Ca
3
Zn
3
Te
2
O
12
:Eu
3+
phosphor was located at 395 nm, matching those of conventional commercial near-ultraviolet chips. In addition, the Ca
3
Zn
3
Te
2
O
12
:9%Eu
3+
phosphor exhibited good thermal stability, with an activation energy of 0.267 eV, and the CIE color coordinates hardly changed with temperature. Ultimatel, a high-quality white LED device was fabricated by combining Ca
3
Zn
3
Te
2
O
12
:9%Eu
3+
red phosphor, a commercial BaMgAl
10
O
17
:Eu
2+
blue phosphor, and(Ba,Sr)
2
SiO
4
:Eu
2+
green phosphor with a 395 nm near-UV chip. Despite a substantial increase in the input current from 20 to 320 mA, the white-LED maintained a stable color rendering index of around 80, highlighting its consistent performance. These results indicated that Eu
3+
activated Ca
3
Zn
3
Te
2
O
12
phosphors are promising red emission candidates for white LEDs pumped by near ultraviolet chips.
Research into red phosphors with a high color rendering index is particularly compelling, given the absence of a red component in the spectrum of commercial pc-WLEDs, which combine blue LED chips with yellow-emitting YAG:Ce
3+
phosphors. |
---|---|
AbstractList | Research into red phosphors with a high color rendering index is particularly compelling, given the absence of a red component in the spectrum of commercial pc-WLEDs, which combine blue LED chips with yellow-emitting YAG:Ce
3+
phosphors. Herein, we reported a novel Eu
3+
activated Ca
3
Zn
3
Te
2
O
12
red-emitting phosphor, synthesized using a conventional high-temperature solid-phase method. The phase and crystal structures were analyzed by powder X-ray diffraction and Rietveld refinement. The optimal excitation peak of the Ca
3
Zn
3
Te
2
O
12
:Eu
3+
phosphor was located at 395 nm, matching those of conventional commercial near-ultraviolet chips. In addition, the Ca
3
Zn
3
Te
2
O
12
:9%Eu
3+
phosphor exhibited good thermal stability, with an activation energy of 0.267 eV, and the CIE color coordinates hardly changed with temperature. Ultimatel, a high-quality white LED device was fabricated by combining Ca
3
Zn
3
Te
2
O
12
:9%Eu
3+
red phosphor, a commercial BaMgAl
10
O
17
:Eu
2+
blue phosphor, and(Ba,Sr)
2
SiO
4
:Eu
2+
green phosphor with a 395 nm near-UV chip. Despite a substantial increase in the input current from 20 to 320 mA, the white-LED maintained a stable color rendering index of around 80, highlighting its consistent performance. These results indicated that Eu
3+
activated Ca
3
Zn
3
Te
2
O
12
phosphors are promising red emission candidates for white LEDs pumped by near ultraviolet chips.
Research into red phosphors with a high color rendering index is particularly compelling, given the absence of a red component in the spectrum of commercial pc-WLEDs, which combine blue LED chips with yellow-emitting YAG:Ce
3+
phosphors. |
Author | Xiong, Qiancheng Wen, Dawei Gu, Junqiang Ou, Xiangjian Xu, Dekang Yang, Jinyu Xie, Feiyan |
AuthorAffiliation | School of Chemistry and Materials Engineering Huizhou University School of Applied Physics and Materials Wuyi University College of Chemistry and Chemical Engineering Jiangxi Normal University |
AuthorAffiliation_xml | – name: Huizhou University – name: College of Chemistry and Chemical Engineering – name: Wuyi University – name: School of Applied Physics and Materials – name: School of Chemistry and Materials Engineering – name: Jiangxi Normal University |
Author_xml | – sequence: 1 givenname: Feiyan surname: Xie fullname: Xie, Feiyan – sequence: 2 givenname: Junqiang surname: Gu fullname: Gu, Junqiang – sequence: 3 givenname: Dekang surname: Xu fullname: Xu, Dekang – sequence: 4 givenname: Qiancheng surname: Xiong fullname: Xiong, Qiancheng – sequence: 5 givenname: Jinyu surname: Yang fullname: Yang, Jinyu – sequence: 6 givenname: Xiangjian surname: Ou fullname: Ou, Xiangjian – sequence: 7 givenname: Dawei surname: Wen fullname: Wen, Dawei |
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