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High-Resolution Mechanoluminescent Haptic Sensor via Dual-Functional Chromatic Filtration by a Conjugated Polymer Shell

Authors
Jeong, Hong InChoi, So EunChua, Xian WeiKim, Nam WooPyrilli, EleniLee, HyosunKang, Dong-WonLee, Bo RamStranks, Samuel D.Kim, JonghoBandyopadhyay, SujoyChoi, Hyosung
Issue Date
Nov-2025
Publisher
WILEY-V C H VERLAG GMBH
Keywords
chromatic filtration of conjugated polymer; hyperspectral photoluminescence microscopy; mechanoluminescence platform; mechanoluminescence; mechanoluminescent haptic sensor
Citation
Advanced Materials, v.37, no.44, pp 1 - 10
Pages
10
Indexed
SCIE
SCOPUS
Journal Title
Advanced Materials
Volume
37
Number
44
Start Page
1
End Page
10
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/209671
DOI
10.1002/adma.202508917
ISSN
0935-9648
1521-4095
Abstract
Mechanoluminescence materials have emerged as promising candidates for haptic interface sensors due to their mechanically driven luminescent property. However, the inherently broad emission spectra of most mechanoluminescence materials hinder sharp signal generation and high spectral resolution. Here, a chromatic filtration strategy is suggested employing poly(9,9-dioctylfluorene-alt-benzothiadiazole) (F8BT) as a conjugated polymer shell on copper-doped zinc sulfide to achieve a highly refined and intensified signal. By selectively suppressing spectral components below 490 nm, the F8BT shell effectively narrows the emission bandwidth, yielding a full width at half maximum (FWHM) of 55 nm during the mechanoluminescence process. In particular, F8BT shell efficiently mitigates signal intensity loss, which can be ascribed to the chromatic filtration ability, through mechanoluminescence photon recycling performance. This dual functionality significantly reduces spectral noise in the blue region with high intensity, enhancing the resolution in actual powerless haptic controllers. The novel approach establishes a scalable framework for high-resolution mechanoluminescence platforms, providing a versatile pathway toward next-generation, power-free stress-sensing applications with unprecedented spectral precision and optical fidelity.
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