Persistent Photoluminescence and Mechanoluminescence of a Highly Sensitive Pressure and Temperature Gauge in Combination with a 3D‐Printable Optical Coding Platform
Abstract Distinct types of luminescence that are activated by various stimuli in a single material offer exciting developmental opportunities for functional materials. A versatile sensing platform that exhibits photoluminescence (PL), persistent luminescence (PersL), and mechanoluminescence (ML) is...
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Wiley
2024-11-01
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| Series: | Advanced Science |
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| Online Access: | https://doi.org/10.1002/advs.202408686 |
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| author | Teng Zheng Jiangcheng Luo Dengfeng Peng Liang Peng Przemysław Woźny Justyna Barzowska Mikołaj Kamiński Sebastian Mahlik Jan Moszczyński Kevin Soler‐Carracedo Fernando Rivera‐López Hanoch Hemmerich Marcin Runowski |
| author_facet | Teng Zheng Jiangcheng Luo Dengfeng Peng Liang Peng Przemysław Woźny Justyna Barzowska Mikołaj Kamiński Sebastian Mahlik Jan Moszczyński Kevin Soler‐Carracedo Fernando Rivera‐López Hanoch Hemmerich Marcin Runowski |
| author_sort | Teng Zheng |
| collection | DOAJ |
| description | Abstract Distinct types of luminescence that are activated by various stimuli in a single material offer exciting developmental opportunities for functional materials. A versatile sensing platform that exhibits photoluminescence (PL), persistent luminescence (PersL), and mechanoluminescence (ML) is introduced, which enables the sensitive detection of temperature, pressure, and force/stress. The developed Sr2MgSi2O7:Eu2+/Dy3+ material exhibits a linear relationship between ML intensity and force and can be used as an ML stress sensor. Additionally, the bandwidth of the PL emission band and the PL lifetime of this material are remarkably sensitive to temperature, with values of ≈0.05 nm K−1 and 1.29%/K, respectively. This study demonstrates PersL pressure sensing for the first time, using long‐lasting (seconds) lifetime as a manometric parameter. The developed material functions as an exceptionally sensitive triple‐mode visual pressure sensor; specifically, it exhibits: i) a sensitivity of ≈−297.4 cm GPa−1 (8.11 nm GPa−1) in bandshift mode, ii) a sensitivity of ≈272.7 cm−1/GPa (14.8 nm GPa−1) in bandwidth mode, and iii) a sensitivity of 42%GPa−1 in PL‐lifetime mode, which is the highest value reported to date. Notably, anti‐counterfeiting, night‐vision safety‐sign, 8‐bit optical‐coding, and QR‐code applications that exhibit intense PersL are demonstrated by 3D‐printing the studied material in combination with a polymer. |
| format | Article |
| id | doaj-art-d63b2140864d4aa3a27b7e3eac7b8498 |
| institution | OA Journals |
| issn | 2198-3844 |
| language | English |
| publishDate | 2024-11-01 |
| publisher | Wiley |
| record_format | Article |
| series | Advanced Science |
| spelling | doaj-art-d63b2140864d4aa3a27b7e3eac7b84982025-08-20T02:27:57ZengWileyAdvanced Science2198-38442024-11-011144n/an/a10.1002/advs.202408686Persistent Photoluminescence and Mechanoluminescence of a Highly Sensitive Pressure and Temperature Gauge in Combination with a 3D‐Printable Optical Coding PlatformTeng Zheng0Jiangcheng Luo1Dengfeng Peng2Liang Peng3Przemysław Woźny4Justyna Barzowska5Mikołaj Kamiński6Sebastian Mahlik7Jan Moszczyński8Kevin Soler‐Carracedo9Fernando Rivera‐López10Hanoch Hemmerich11Marcin Runowski12School of Information and Electrical Engineering Hangzhou City University Hangzhou 310015 ChinaKey Laboratory of Optoelectronic Devices and Systems of Ministry of Education and Guangdong Province College of Physics and Optoelectronic Engineering Shenzhen University Shenzhen 518060 ChinaShenzhen Key Laboratory of Intelligent Optical Measurement and Detection Shenzhen University Shenzhen 518060 ChinaSchool of Information and Electrical Engineering Hangzhou City University Hangzhou 310015 ChinaFaculty of Chemistry Adam Mickiewicz University Uniwersytetu Poznańskiego 8 Poznań 61‐614 PolandInstitute of Experimental Physics, Faculty of Mathematics Physics and Informatics University of Gdansk Wita Stwosza 57 Gdansk 80‐308 PolandInstitute of Experimental Physics, Faculty of Mathematics Physics and Informatics University of Gdansk Wita Stwosza 57 Gdansk 80‐308 PolandInstitute of Experimental Physics, Faculty of Mathematics Physics and Informatics University of Gdansk Wita Stwosza 57 Gdansk 80‐308 PolandFaculty of Chemistry Adam Mickiewicz University Uniwersytetu Poznańskiego 8 Poznań 61‐614 PolandFaculty of Chemistry Adam Mickiewicz University Uniwersytetu Poznańskiego 8 Poznań 61‐614 PolandDepartamento de Ingeniería Industrial Escuela Superior de Ingeniería y Tecnología Universidad de La Laguna San Cristóbal de La Laguna Santa Cruz de Tenerife E‐38200 SpainDepartamento de Física, IUdEA IMN and MALTA Consolider Team Universidad de La Laguna San Cristóbal de La Laguna Santa Cruz de Tenerife E‐38200 SpainFaculty of Chemistry Adam Mickiewicz University Uniwersytetu Poznańskiego 8 Poznań 61‐614 PolandAbstract Distinct types of luminescence that are activated by various stimuli in a single material offer exciting developmental opportunities for functional materials. A versatile sensing platform that exhibits photoluminescence (PL), persistent luminescence (PersL), and mechanoluminescence (ML) is introduced, which enables the sensitive detection of temperature, pressure, and force/stress. The developed Sr2MgSi2O7:Eu2+/Dy3+ material exhibits a linear relationship between ML intensity and force and can be used as an ML stress sensor. Additionally, the bandwidth of the PL emission band and the PL lifetime of this material are remarkably sensitive to temperature, with values of ≈0.05 nm K−1 and 1.29%/K, respectively. This study demonstrates PersL pressure sensing for the first time, using long‐lasting (seconds) lifetime as a manometric parameter. The developed material functions as an exceptionally sensitive triple‐mode visual pressure sensor; specifically, it exhibits: i) a sensitivity of ≈−297.4 cm GPa−1 (8.11 nm GPa−1) in bandshift mode, ii) a sensitivity of ≈272.7 cm−1/GPa (14.8 nm GPa−1) in bandwidth mode, and iii) a sensitivity of 42%GPa−1 in PL‐lifetime mode, which is the highest value reported to date. Notably, anti‐counterfeiting, night‐vision safety‐sign, 8‐bit optical‐coding, and QR‐code applications that exhibit intense PersL are demonstrated by 3D‐printing the studied material in combination with a polymer.https://doi.org/10.1002/advs.202408686mechanoluminescencemultifunctional optical sensorpersistent‐luminescent 3D‐printed polymerspressure sensorvisual manometer |
| spellingShingle | Teng Zheng Jiangcheng Luo Dengfeng Peng Liang Peng Przemysław Woźny Justyna Barzowska Mikołaj Kamiński Sebastian Mahlik Jan Moszczyński Kevin Soler‐Carracedo Fernando Rivera‐López Hanoch Hemmerich Marcin Runowski Persistent Photoluminescence and Mechanoluminescence of a Highly Sensitive Pressure and Temperature Gauge in Combination with a 3D‐Printable Optical Coding Platform Advanced Science mechanoluminescence multifunctional optical sensor persistent‐luminescent 3D‐printed polymers pressure sensor visual manometer |
| title | Persistent Photoluminescence and Mechanoluminescence of a Highly Sensitive Pressure and Temperature Gauge in Combination with a 3D‐Printable Optical Coding Platform |
| title_full | Persistent Photoluminescence and Mechanoluminescence of a Highly Sensitive Pressure and Temperature Gauge in Combination with a 3D‐Printable Optical Coding Platform |
| title_fullStr | Persistent Photoluminescence and Mechanoluminescence of a Highly Sensitive Pressure and Temperature Gauge in Combination with a 3D‐Printable Optical Coding Platform |
| title_full_unstemmed | Persistent Photoluminescence and Mechanoluminescence of a Highly Sensitive Pressure and Temperature Gauge in Combination with a 3D‐Printable Optical Coding Platform |
| title_short | Persistent Photoluminescence and Mechanoluminescence of a Highly Sensitive Pressure and Temperature Gauge in Combination with a 3D‐Printable Optical Coding Platform |
| title_sort | persistent photoluminescence and mechanoluminescence of a highly sensitive pressure and temperature gauge in combination with a 3d printable optical coding platform |
| topic | mechanoluminescence multifunctional optical sensor persistent‐luminescent 3D‐printed polymers pressure sensor visual manometer |
| url | https://doi.org/10.1002/advs.202408686 |
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