Photoluminescence of combinatorically sputtered Al2O3–Y2O3 thin films with a Cr3+ and Nd3+ co-doping concentration gradient

The characterization of a wide range of luminescent thin films can be a long and tedious endeavor. With reactive combinatorial sputtering of multiple metal targets, it possible to fabricate thin films with a gradient in composition simply by not rotating the substrate. In this work, combinatorically...

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Published in	Journal of luminescence Vol. 269; p. 120503
Main Authors	Derksen, Max, Bosco, Giacomo, Muller, Timo, van der Kolk, Erik
Format	Journal Article
Language	English
Published	Elsevier B.V 01.05.2024
Subjects	Al2O3–Y2O3 Chromium Energy transfer Luminescent solar concentrator Neodymium Reactive magnetron sputtering Thin films YAG, YAP, YAM Thin films Al2O3–Y2O3 Neodymium Reactive magnetron sputtering Chromium YAG, YAP, YAM Energy transfer Luminescent solar concentrator
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Abstract	The characterization of a wide range of luminescent thin films can be a long and tedious endeavor. With reactive combinatorial sputtering of multiple metal targets, it possible to fabricate thin films with a gradient in composition simply by not rotating the substrate. In this work, combinatorically sputtered thin films of Cr3+ and Nd3+ doped in the Al2O3–Y2O3 system (YAlO) are studied for thin film based luminescent solar concentrators (TFLSCs) application. Contrary to mm's thick plate type LSC's, TFLSCs of just several 100 nm thick require much higher Cr3+ concentration to achieve 40% absorption which can enable several 10's of W/m2 LSC power efficiencies. Our transmission measurements on a Cr2O3 film with a thickness gradient result in an absorption cross section at 460 nm of 1.3 ± 0.7 × 10−19 cm2 showing that the TFLSC absorption requirement can be fulfilled provided that the Cr3+ concentration is in the order of 1022 ions/cm3. The Y:Al ratio of the YAlO host in our films ranged between 0.5 and 3.5, thereby including the monoclinic (Y4Al2O9), perovskite (YAlO3) and garnet (Y3Al5O12) stoichiometry's on a single film. Position dependent XRD, EDX, excitation, emission and lifetime measurements of Cr3+ and Nd3+ show that the unique gradient film sputtering method is able to characterize thin films as a function of host composition and doping concentration. Energy transfer between Cr3+ and Nd3+ in co-doped YAlO films is concluded from Cr3+ excitation bands observed while monitoring Nd3+ emission and from the matching of the rise-time of Nd3+ 1340 nm emission (4F3/2 ->4I11/2) and the decay time of Cr3+ 840 nm emission (4T2 ->4A2). Nd3+ lifetime systematically decreases from 0.24 to 0.05 ms with increasing Cr3+ concentration in Y3Al5-xCrxO12:Nd (0.05 < x < 2). The constraints of heavily doped Cr3+ thin films for enabling adequate absorption and energy transfer to Nd3+ in TFLSC applications are the subjects of the discussion. •Tuning Cr3+ and Nd3+ emission in YAG, YAM and amorphous Al2O3–Y2O3 gradient films.•Broadband sensitization by Cr3+ of NIR emitting Nd3+ for thin film LSC's.•Nd3+ lifetime in Y3Al5-xCrxO12 (0.05 < x < 2) is shortening with increasing x.•Quantifying the absorption cross section of Cr3+ using a single gradient thin film.
AbstractList	The characterization of a wide range of luminescent thin films can be a long and tedious endeavor. With reactive combinatorial sputtering of multiple metal targets, it possible to fabricate thin films with a gradient in composition simply by not rotating the substrate. In this work, combinatorically sputtered thin films of Cr3+ and Nd3+ doped in the Al2O3–Y2O3 system (YAlO) are studied for thin film based luminescent solar concentrators (TFLSCs) application. Contrary to mm's thick plate type LSC's, TFLSCs of just several 100 nm thick require much higher Cr3+ concentration to achieve 40% absorption which can enable several 10's of W/m2 LSC power efficiencies. Our transmission measurements on a Cr2O3 film with a thickness gradient result in an absorption cross section at 460 nm of 1.3 ± 0.7 × 10−19 cm2 showing that the TFLSC absorption requirement can be fulfilled provided that the Cr3+ concentration is in the order of 1022 ions/cm3. The Y:Al ratio of the YAlO host in our films ranged between 0.5 and 3.5, thereby including the monoclinic (Y4Al2O9), perovskite (YAlO3) and garnet (Y3Al5O12) stoichiometry's on a single film. Position dependent XRD, EDX, excitation, emission and lifetime measurements of Cr3+ and Nd3+ show that the unique gradient film sputtering method is able to characterize thin films as a function of host composition and doping concentration. Energy transfer between Cr3+ and Nd3+ in co-doped YAlO films is concluded from Cr3+ excitation bands observed while monitoring Nd3+ emission and from the matching of the rise-time of Nd3+ 1340 nm emission (4F3/2 ->4I11/2) and the decay time of Cr3+ 840 nm emission (4T2 ->4A2). Nd3+ lifetime systematically decreases from 0.24 to 0.05 ms with increasing Cr3+ concentration in Y3Al5-xCrxO12:Nd (0.05 < x < 2). The constraints of heavily doped Cr3+ thin films for enabling adequate absorption and energy transfer to Nd3+ in TFLSC applications are the subjects of the discussion. •Tuning Cr3+ and Nd3+ emission in YAG, YAM and amorphous Al2O3–Y2O3 gradient films.•Broadband sensitization by Cr3+ of NIR emitting Nd3+ for thin film LSC's.•Nd3+ lifetime in Y3Al5-xCrxO12 (0.05 < x < 2) is shortening with increasing x.•Quantifying the absorption cross section of Cr3+ using a single gradient thin film.
ArticleNumber	120503
Author	Derksen, Max Muller, Timo van der Kolk, Erik Bosco, Giacomo
Author_xml	– sequence: 1 givenname: Max orcidid: 0009-0006-1917-9612 surname: Derksen fullname: Derksen, Max email: m.derksen-2@tudelft.nl organization: Delft University of Technology, The Netherlands – sequence: 2 givenname: Giacomo surname: Bosco fullname: Bosco, Giacomo organization: Fotoniq, The Netherlands – sequence: 3 givenname: Timo surname: Muller fullname: Muller, Timo organization: Delft University of Technology, The Netherlands – sequence: 4 givenname: Erik surname: van der Kolk fullname: van der Kolk, Erik organization: Delft University of Technology, The Netherlands
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Cites_doi	10.1016/0165-1633(86)90002-X 10.1088/0022-3735/16/12/023 10.1039/B201802K 10.1063/1.1713590 10.1111/j.1151-2916.1994.tb04516.x 10.1039/C6CP07213E 10.1016/j.physb.2018.07.026 10.1016/j.jlumin.2009.10.012 10.1063/1.4939090 10.1364/AO.15.002299 10.1103/PhysRev.153.326 10.1063/1.1662895 10.1364/OE.14.003893 10.1016/0022-2313(94)90046-9 10.1063/1.5042084 10.1016/S0257-8972(99)00384-9 10.1021/acscombsci.8b00068 10.1016/0022-2313(92)90199-J 10.1016/j.jlumin.2018.12.011 10.1016/j.optmat.2008.12.006 10.1016/j.tsf.2014.09.075 10.1364/AO.18.003090 10.1109/JSTQE.2008.920282 10.1016/j.optcom.2006.07.002 10.1016/S0925-3467(99)00012-9 10.1016/j.optmat.2005.11.020 10.1016/0022-5088(83)90163-7 10.1051/jphys:0199000510150165500 10.1109/PROC.1966.5112 10.1007/s00339-003-2385-0
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Keywords	Thin films Al2O3–Y2O3 Neodymium Reactive magnetron sputtering Chromium YAG, YAP, YAM Energy transfer Luminescent solar concentrator
Language	English
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A doi: 10.1007/s00339-003-2385-0
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Snippet	The characterization of a wide range of luminescent thin films can be a long and tedious endeavor. With reactive combinatorial sputtering of multiple metal...
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StartPage	120503
SubjectTerms	Al2O3–Y2O3 Chromium Energy transfer Luminescent solar concentrator Neodymium Reactive magnetron sputtering Thin films YAG, YAP, YAM
Title	Photoluminescence of combinatorically sputtered Al2O3–Y2O3 thin films with a Cr3+ and Nd3+ co-doping concentration gradient
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