Effect of Crystal Phase Transition for Green Light Emitting K2-xNaxZn0.94SiO4∶0.06Mn2+ Phosphor on Photoluminescence Properties

Rehanguli Alimu; Reziwanguli Yantake; Jing Gao; Yuxia Zhou; Taximaiti Yusufu; Aierken Sidike

doi:10.3788/AOS221971

Acta Optica Sinica, Volume. 43, Issue 11, 1116001(2023)

Effect of Crystal Phase Transition for Green Light Emitting K_2-_xNa_xZn_0.94SiO₄∶0.06Mn²⁺ Phosphor on Photoluminescence Properties

Rehanguli Alimu^1,2, Reziwanguli Yantake^1,2,3, Jing Gao^1,2, Yuxia Zhou^1,2, Taximaiti Yusufu^1,2,3、*, and Aierken Sidike^1,2,3、**

Author Affiliations

¹Xinjiang Key Laboratory for Luminescence Minerals and Optical Functional Materials, School of Physics and Electronic Engineering, Xinjiang Normal University, Urumqi 830054, Xinjiang, China

²Key Laboratory of Mineral Luminescent Material and Microstructure of Xinjiang, School of Physics and Electronic Engineering, Xinjiang Normal University, Urumqi 830054, Xinjiang, China

³College of Chemistry and Chemical Engineering, Xinjiang Normal University, Urumqi 830054, Xinjiang, China

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References(32)

[1] Qiao J W, Zhou Y Y, Molokeev M S et al. Narrow bandwidth luminescence in Sr2Li(Al, Ga)O4∶Eu2+ by selective site occupancy engineering for high definition displays[J]. Laser & Photonics Reviews, 15, 2100392(2021).

[2] Zhao M. Structure design and luminescence properties of Eu2+-doped UCr4C4-type silicate luminescent materials[D](2021).

[3] Zhang X J, Liu R X. Recent progress of green phosphor β-SiAlON∶Eu2+ used for wide-color gamut displays[J]. Journal of the Chinese Society of Rare Earths, 34, 667-674(2016).

[4] Hu L Z, Wang Q, Wang X C et al. Photoluminescence and cathodoluminescence properties of Na2MgGeO4∶Mn2+ green phosphors[J]. RSC Advances, 5, 104708-104714(2015).

[5] Lei B F, Liu Y L, Ye Z R et al. Luminescence properties of CdSiO3∶Mn2+ phosphor[J]. Journal of Luminescence, 109, 215-219(2004).

[6] Qin L, Chen C L, Wang J et al. Luminescence properties of red-emitting Mn2+-activated Na2Mg5Si12O30 phosphors[J]. Materials Research Bulletin, 118, 110494(2019).

[7] Ma Y Y, Hu J Q, Song E H et al. Regulation of red to near-infrared emission in Mn2+ single doped magnesium zinc phosphate solid-solution phosphors by modification of the crystal field[J]. Journal of Materials Chemistry C, 3, 12443-12449(2015).

[8] Shen Y L, Wan Y, Ye Y et al. Luminescent properties and energy transfer of K2MgSiO4∶Eu3+, Tb3+ phosphors[J]. Acta Photonica Sinica, 48, 0216003(2019).

[9] Yang Z P, Ran Z R, Wang T Y et al. Synthesis and luminescence properties of K2ZnSiO4∶Eu3+ red phosphor[J]. Chinese Journal of Luminescence, 36, 377-381(2015).

[10] Bharat L K, Hussain S K, Yu J S. Near-ultraviolet excitation-based bluish-green emitting K2ZnSiO4∶Eu2+ nanophosphors for white light-emitting applications[J]. Dyes and Pigments, 145, 37-42(2017).

[11] Wang P, Yang D M, He X L et al. Synthesis and luminescence properties of orange-red emitting Na2ZnSiO4∶Sm3+ phosphors with near UV excitation[J]. Journal of Synthetic Crystals, 44, 1534-1538(2015).

[12] Guan H X, Li Y F. Na(Y1.5Na0.5)F6∶RE3+(Dy3+, Tb3+, Eu3+, Tm3+, Ho3+): controllable morphology, multicolor light and thermal properties[J]. Journal of Alloys and Compounds, 859, 157833(2021).

[13] Gong S F, Wu R R, Yang S et al. Tuning the luminous properties and optical thermometry of Cs2SnCl6 phosphor microcrystals via Bi and Sb codoping[J]. Photonics Research, 9, 2182-2189(2021).

[14] Jilili S, Aierken P, Wang Q L et al. Up-conversion luminescence and temperature-sensing properties of Li+, K+ doped Na2Zn3Si2O8∶Er3+ phosphors[J]. Ceramics International, 48, 15755-15761(2022).

[15] Meijerink A. Emerging substance class with narrow-band blue/green-emitting rare earth phosphors for backlight display application[J]. Science China Materials, 62, 146-148(2019).

[16] Xie R J, Hirosaki N, Liu X J et al. Crystal structure and photoluminescence of Mn2+–Mg2+ codoped gamma aluminum oxynitride (γ-AlON): a promising green phosphor for white light-emitting diodes[J]. Applied Physics Letters, 92, 201905(2008).

[17] Wang C, Wang J R, Jiang J et al. Redesign and manually control the commercial plasma green Zn2SiO4∶Mn2+ phosphor with high quantum efficiency for white light emitting diodes[J]. Journal of Alloys and Compounds, 814, 152340(2020).

[18] Song E H, Zhou Y Y, Wei Y et al. A thermally stable narrow-band green-emitting phosphor MgAl2O4∶Mn2+ for wide color gamut backlight display application[J]. Journal of Materials Chemistry C, 7, 8192-8198(2019).

[19] Wang B, Kong Y C, Chen Z K et al. Thermal stability and photoluminescence of Mn2+ activated green-emitting feldspar phosphor SrAl2Si2O8∶Mn2+ for wide gamut w-LED backlight[J]. Optical Materials, 99, 109535(2020).

[20] Wei Y, Cao L, Lv L M et al. Highly efficient blue emission and superior thermal stability of BaAl12O19∶ Eu2+ phosphors based on highly symmetric crystal structure[J]. Chemistry of Materials, 30, 2389-2399(2018).

[21] Hu J Q. Self-reduction of Mn and valence-control of the luminescence of Mn2+/Mn4+[D](2017).

[22] Li H R, Liang Y J, Liu S Q et al. Highly efficient green-emitting phosphor BaZnAl10O17∶Mn2+ with ultra-narrow band and extremely low thermal quenching for wide color gamut LCD backlights[J]. Advanced Optical Materials, 9, 2100799(2021).

[23] Zhou Q, Dolgov L, Srivastava A M et al. Mn2+ and Mn4+ red phosphors: synthesis, luminescence and applications in WLEDs. A review[J]. Journal of Materials Chemistry C, 6, 2652-2671(2018).

[24] Yantake R, Aierken P, Sidike A. Development of novel Eu2+ and Li+ Co-doped cyan-emitting aluminosilicate phosphors[J]. Ceramics International, 49, 2670-2680(2023).

[25] Wu X L, Bai W N, Hai O et al. Tunable color of Tb3+/Eu3+/Tm3+-coactivated K3La(PO4)2 via energy transfer: a single-phase white-emitting phosphor[J]. Optics & Laser Technology, 115, 176-185(2019).

[26] Wu X L, Du L, Zheng Y L et al. Synthesis and luminescent properties of new green Li2Mg1-xSiO4∶xMn2+ phosphors[J]. Polyhedron, 198, 115078(2021).

[27] Chen H, Wang Y H. Photoluminescence and cathodoluminescence properties of novel rare-earth free narrow-band bright green-emitting ZnB2O4∶Mn2+ phosphor for LEDs and FEDs[J]. Chemical Engineering Journal, 361, 314-321(2019).

[28] Menon S G, Kunti A K, Motaung D E et al. A new recipe for the rapid microwave synthesis of high quantum yield Mn2+-doped ZnGa2O4 phosphors for potential forensic applications[J]. New Journal of Chemistry, 43, 17446-17456(2019).

[29] Ding X, Zhu G, Wang Q et al. Rare-earth free narrow-band green-emitting KAlSi2O6∶Mn2+ phosphor excited by blue light for LED-phosphor material[J]. RSC Advances, 5, 30001-30004(2015).

[30] Tuersun A, Wang L, Jilili S et al. Effect of charge-compensator Li+ doping on luminescence performance of CaMgSiO4∶Sm3+ red-emitting phosphor[J]. Laser & Optoelectronics Progress, 59, 329-336(2022).

[31] He F Q, Wu J C, Shao P S et al. Preparation and luminescent properties research of broadband near-infrared fluoride phosphor Cs2NaAlF6∶Cr3+[J]. Laser & Optoelectronics Progress, 58, 114-121(2021).

[32] Nguyen T P, Nguyen T P, Lam Q V et al. Effects of structure on photoluminescence characteristics of Mn2+-doped ZnS quantum dots for anti-counterfeiting ink application[J]. Solid State Sciences, 101, 106123(2020).

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Rehanguli Alimu, Reziwanguli Yantake, Jing Gao, Yuxia Zhou, Taximaiti Yusufu, Aierken Sidike. Effect of Crystal Phase Transition for Green Light Emitting K_2-_xNa_xZn_0.94SiO₄∶0.06Mn²⁺ Phosphor on Photoluminescence Properties[J]. Acta Optica Sinica, 2023, 43(11): 1116001

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Paper Information

Category: Materials

Received: Nov. 11, 2022

Accepted: Feb. 9, 2023

Published Online: Jun. 13, 2023

The Author Email: Yusufu Taximaiti (taxmamat_84@sina.com), Sidike Aierken (aierkenjiang@sina.com)

DOI:10.3788/AOS221971

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology