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Journal of Materials Science

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17.04.2017 | Ceramics

UV-assisted mechanoluminescence properties of SrAl₂O₄:(Eu,Dy) for impact sensing

verfasst von: Qinan Mao, Zhian Chen, Zhenguo Ji, Junhua Xi

Erschienen in: Journal of Materials Science | Ausgabe 14/2017

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Abstract

SrAl₂O₄:(Eu,Dy) is one of the most promising mechanoluminescence materials that have potential applications in stress sensing, lighting, imaging and energy conversion. However, the ML intensity decays with the afterglow time of SrAl₂O₄:(Eu,Dy), which hampers its application in the real world. Here, the mechanoluminescence property of SrAl₂O₄:(Eu,Dy) was investigated by impact of a load. A method was proposed to overcome the drawback of the mechanoluminescence decay behavior associated with the afterglow time. During the measurement of mechanoluminescence, continuous UV irradiation on SrAl₂O₄:(Eu,Dy) can effectively realize steady-state mechanoluminescence that is independent of the afterglow time. The underlying mechanism is discussed in this paper.

Vorheriger Artikel Origin of the common UV absorption feature in cultured pearls and shells

Nächster Artikel Transmission electron microscopy studies of structural degradation behavior of LiNi0.6Co0.2Mn0.2O2 cathode materials

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Chandra BP (1998) Mechanoluminescence. In: Vij DR (ed) Luminescence of solids. Plenum Press, New York, pp 361–389CrossRef

Xu C-N, Zheng X-G, Akiyama M, Nonaka K, Watanabe T (2000) Dynamic visualization of stress distribution by mechanoluminescence image. Appl Phys Lett 76:179–181CrossRef

Wang XD, Zhang HL, Yu RM et al (2015) Dynamic pressure mapping of personalized handwriting by a flexible sensor matrix based on the mechanoluminescence process. Adv Mater 27:2324–2331CrossRef

Xu J, Jo H (2016) Development of high-sensitivity and low-cost electroluminescent strain sensor for structural health monitoring. IEEE Sens J 16:1962–1968CrossRef

Terasaki N, Yamada H, Xu CN (2013) Ultrasonic wave induced mechanoluminescence and its application for photocatalysis as ubiquitous light source. Catal Today 201:203–208CrossRef

Jeong SM, Song S, Joo KI, Kim J, Hwang SH, Jeong J, Kim H (2014) Bright, wind-driven white mechanoluminescence from zinc sulphide microparticles embedded in a polydimethylsiloxane elastomer. Energy Environ Sci 7:3338–3346CrossRef

Fang H, Wang X, Li Q, Peng DF, Yan QF, Pan CF (2016) A stretchable nanogenerator with electric/light dual-mode energy conversion. Adv Energy Mater 6:1600829CrossRef

Sahu IP, Bisen DP, Sharma R (2016) UV excited green luminescence of SrAl₂O₄:Eu²⁺, Dy³⁺ nanophosphor. Res Chem Intermed 42:2791–2804CrossRef

Chandra VK, Chandra BP (2011) Suitable materials for elastico mechanoluminescence-based stress sensors. Opt Mater 34:194–200CrossRef

10.

Hollerman WA, Fontenot RS, Bhat KN, Aggarwal MD, Guidry CJ, Nguyen KM (2012) Comparison of triboluminescent emission yields for 27 luminescent materials. Opt Mater 34:1517–1521CrossRef

11.

Xu CN, Watanabe T, Akiyama M, Zheng XG (1999) Direct view of stress distribution in solid by mechanoluminescence. Appl Phys Lett 74:2414–2416CrossRef

12.

Yun GJ, Rahimi MR, Gandomi AH, Lim GC, Choi JS (2013) Stress sensing performance using mechanoluminescence of SrAl₂O₄: Eu (SAOE) and SrAl₂O₄:Eu, Dy (SAOED) under mechanical loadings. Smart Mater Struct 22:055006CrossRef

13.

Someya S, Ishii K, Munakata T, Saeki M (2014) Lifetime-based measurement of stress during cyclic elastic deformation using mechanoluminescence of SrAl₂O₄:Eu²⁺. Opt Express 22:21991–21998CrossRef

14.

Fu XY, Yamada H, Xu CN (2009) Property of highly oriented SrAl₂O₄: Eu film on quartz glass substrates and its potential application in stress sensor. J Electrochem Soc 156:J249–J252CrossRef

15.

Kim JS, Kim GW (2014) New non-contacting torque sensor based on the mechanoluminescence of ZnS: Cu microparticles. Sens Actuator A-Phys 218:125–131CrossRef

16.

Chandra BP, Chandra VK, Mahobia SK, Jha P, Tiwari R, Haldar B (2012) Real-time mechanoluminescence sensing of the amplitude and duration of impact stress. Sens Actuator A-Phys 173:9–16CrossRef

17.

Wang WX, Matsubara T, Takao Y, Imai Y, Xu CN (2009) Visualization of stress distribution using smart mechanoluminescence sensor. Mater Sci Forum 614:169–174CrossRef

18.

Timilsina S, Lee KH, Kwon YN, Kim JS (2015) Optical evaluation of in situ crack propagation by using mechanoluminescence of SrAl₂O₄:Eu²⁺, Dy³⁺. J Am Ceram Soc 98:2197–2204CrossRef

19.

Azad AI, Rahimi RM, Yun GJ (2016) Quantitative full-field strain measurements by SAOED (SrAl₂O₄:Eu²⁺, Dy³⁺) mechanoluminescent materials. Smart Mater Struct 25:095032CrossRef

20.

Xu C-N (2002) Coatings. In: Schwartz M (ed) Encyclopedia of smart materials. Wiley, New York, pp 190–201

21.

Van den Eeckhout K, Smet PF, Poelman D (2010) Persistent luminescence in Eu²⁺-doped compounds: a review. Materials 3:2536–2566CrossRef

22.

Rahimi MR, Yun GJ, Doll GL, Choi JS (2013) Effects of persistent luminescence decay on mechanoluminescence phenomena of SrAl₂O₄:Eu²⁺, Dy³⁺ materials. Opt Lett 38:4134–4137CrossRef

23.

Jha P (2016) Effect of UV irradiation on different types of luminescence of SrAl₂O₄:Eu, Dy phosphors. Luminescence 31:1302–1305CrossRef

24.

Altenburg H, Plewa J, Plesch G, Shpotyuk O (2002) Thick films of ceramics, superconducting, and electro-ceramic materials. Pure Appl Chem 74:2083–2096CrossRef

25.

Haranath D, Sharma P, Chander H (2005) Optimization of boric acid content in developing efficient blue emitting, long persistent phosphor. J Phys D Appl Phys 38:371–375CrossRef

26.

Jha P, Chandra BP (2013) Impulsive excitation of mechanoluminescence in SrAl₂O₄:Eu, Dy phosphors prepared by solid state reaction technique in reduction atmosphere. J Lumin 143:280–287CrossRef

27.

Rahimi MR, Yun GJ, Choi JS (2014) A predictive mechanoluminescence transduction model for thin-film SrAl₂O₄:Eu²⁺, Dy³⁺ (SAOED) stress sensor. Acta Mater 77:200–211CrossRef

28.

Brito HF, Hölsä J, Laamanen T, Lastusaari M, Malkamaki M, Rodrigues LCV (2012) Persistent luminescence mechanisms: human imagination at work. Opt Mater Express 2:371–381CrossRef

29.

Pan Z, Lu Y-Y, Liu F (2012) Sunlight-activated long-persistent luminescence in the near-infrared from Cr³⁺-doped zinc gallogermanates. Nat Mater 11:58–63CrossRef

30.

Han SC, Wang YH, Zeng W, Chen WB (2016) An outlook of rare-earth activated persistent luminescence mechanisms. J Rare Earth 34:245–250CrossRef

31.

Chandra VK, Chandra BP (2012) Dynamics of the mechanoluminescence induced by elastic deformation of persistent luminescent crystals. J Lumin 132:858–869CrossRef

32.

Botterman J, Joos JJ, Smet PF (2014) Trapping and detrapping in SrAl₂O₄:Eu, Dy persistent phosphors: influence of excitation wavelength and temperature. Phys Rev B 90:085147CrossRef

Titel: UV-assisted mechanoluminescence properties of SrAl2O4:(Eu,Dy) for impact sensing
verfasst von: Qinan Mao
Zhian Chen
Zhenguo Ji
Junhua Xi
Publikationsdatum: 17.04.2017
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 14/2017
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-017-1053-2

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