Magnetic‐Force‐Induced‐Luminescent Effect in Flexible ZnS:Cu/PDMS/NdFeB Composite
Composite material
Technology
Luminescence
QC1-999
Materials Science
flexible electronic device
Wearable Nanogenerator Technology
Biomedical Engineering
02 engineering and technology
ZnS:Cu‐PDMS composite
FOS: Medical engineering
Multiferroic and Magnetoelectric Materials
Quantum mechanics
Acceptor
Photovoltaic Effect
Engineering
Materials Chemistry
Doping
Nanotechnology
Zinc Oxide Nanostructures
Optoelectronics
magnetic‐force‐induced‐luminescence (MFIL)
FOS: Nanotechnology
Polydimethylsiloxane
T
Physics
Composite number
Condensed matter physics
Materials science
Electronic, Optical and Magnetic Materials
Magnetic field
Physical Sciences
NdFeB magnetic tip
0210 nano-technology
Flexible Electronics
DOI:
10.1002/admi.202202332
Publication Date:
2023-02-13T04:39:34Z
AUTHORS (7)
ABSTRACT
AbstractThe force‐induced light‐emitting phenomenon in polymer composites plays an important role in the soft electronic field due to its display function. Here, a magnetic‐force‐induced‐luminescence (MFIL) effect is reported in ZnS:Cu particle‐doped polydimethylsiloxane incorporated with a NdFeB magnetic tip mass for real‐time incident magnetic field strength light‐emitting display. Investigations show that the luminescence intensity increases nearly linear in response to the applied AC magnetic field, HAC; meanwhile, the minimum HAC for inducing MFIL is as low as 0.1 mT (1 Oe) at the resonance. The MFIL effect is 1000 times better and more energy‐efficient than the best result published previously. The findings, thus, indicate that the MFIL effect could serve as an effective method for light‐emitting display triggered by HAC; MFIL essentially originates from the donor–acceptor recombination between shallow donor level and the t2 level of Cu2 in ZnS:Cu semiconductor particles. The present results could, thus, provide a viable pathway toward multifunctional flexible electronic designs and applications, especially toward those for the real‐time visualization of remote magnetic field sensing.
SUPPLEMENTAL MATERIAL
Coming soon ....
REFERENCES (44)
CITATIONS (6)
EXTERNAL LINKS
PlumX Metrics
RECOMMENDATIONS
FAIR ASSESSMENT
Coming soon ....
JUPYTER LAB
Coming soon ....