Abstract
Composites comprising copper-doped zinc sulfide phosphor microparticles embedded in polydimethylsiloxane (ZnS:Cu–PDMS) have received significant attention over the past decade because of their bright and durable mechanoluminescence (ML); however, the underlying mechanism of this unique ML remains unclear. This study reports empirical and theoretical findings that confirm this ML is an electroluminescence (EL) of the ZnS:Cu phosphor induced by the triboelectricity generated at the ZnS:Cu microparticle–PDMS matrix interface. ZnS:Cu microparticles that exhibit bright ML are coated with alumina, an oxide with strong positive triboelectric properties; the contact separation between this oxide coating and PDMS, a polymer with strong negative triboelectric properties, produces sufficient interfacial triboelectricity to induce EL in ZnS:Cu microparticles. The ML of ZnS:Cu–PDMS composites varies on changing the coating material, exhibiting an intensity that is proportional to the amount of interfacial triboelectricity generated in the system. Finally, based on these findings, a mechanism that explains the ML of phosphor–polymer elastic composites (interfacial triboelectric field-driven alternating-current EL model) is proposed in this study. It is believed that understanding this mechanism will enable the development of new materials (beyond ZnS:Cu–PDMS systems) with bright and durable ML.
Original language | English |
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Article number | 2307089 |
Journal | Small |
Volume | 20 |
Issue number | 17 |
DOIs | |
State | Published - Apr 25 2024 |
Externally published | Yes |
Funding
The authors acknowledge support from the Basic Research Program of DGIST (23-IT-01, 23-ET-08, 23-CoE-NT-02) funded by the Ministry of Science and ICT of Korea. The authors also acknowledge support from the National Research Foundation of Korea (2021R1A2C1013900, 2022R1A2C1002764, 2023R1A2C1003824) funded by the Ministry of Science and ICT. The authors thank the CCRF of DGIST for technical support. The authors acknowledge support from the Basic Research Program of DGIST (23\u2010IT\u201001, 23\u2010ET\u201008, 23\u2010CoE\u2010NT\u201002) funded by the Ministry of Science and ICT of Korea. The authors also acknowledge support from the National Research Foundation of Korea (2021R1A2C1013900, 2022R1A2C1002764, 2023R1A2C1003824) funded by the Ministry of Science and ICT. The authors thank the CCRF of DGIST for technical support.
Funders | Funder number |
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Ministry of Science and ICT | |
Ministry of Science and ICT of Korea | |
National Research Foundation of Korea | 2022R1A2C1002764, 2023R1A2C1003824, 2021R1A2C1013900 |
Daegu Gyeongbuk Institute of Science and Technology | 23‐CoE‐NT‐02, 23‐IT‐01, 23‐ET‐08 |
Keywords
- ZnS:Cu
- electroluminescence
- mechanoluminescence
- self-recovery
- triboelectricity