Hanyang University Researchers Develop of Novel High-Resolution Mechanoluminescent Platform Technology
The innovation lies in utilizing dual-functional chromatic filtration strategy based on conjugated polymer shell for refined and intensified signal
Addressing this knowledge gap, a team of researchers from the
In this study, the team coated the conjugated polymer poly(9,9-dioctylfluorene-alt-benzothiadiazole) (F8BT) onto ZnS:Cu to selectively suppress emission below 490 nm, narrowing the full width at half maximum from 94 nm to 55 nm.
Color filtration typically reduces emission intensity. Interestingly, in the proposed system, the ML-induced photoluminescence of F8BT compensates for this loss—a key distinguishing advantage of the approach. This novel dual functionality of F8BT shell significantly reduces spectral noise in the blue region with high intensity, improving the resolution in actual powerless haptic controllers.
The researchers demonstrate the proof-of-concept of their exciting tool by implementing a press-sensitive color tracking system using ZnS:Cu@F8BT. The system correctly distinguished between blue and green ML signals, showcasing the high spectral resolution facilitated by the chromatic filtration strategy.
This technology greatly enhances the commercialization potential of applications such as wearable sensors for quantifying crew activity in space environments and mouthpiece-type ML controllers that enable wheelchair operation via chewing gestures—where a left chew implies "turn left," a center chew means "move forward," and a right chew indicates "turn right."
In the long term, this technology will refine energy-harvesting sensors and interfaces that convert mechanical energy into light, serving as an eco-friendly solution that reduces battery dependence and e-waste. Enabled by high color purity and reliable optical decoding, it can operate for extended periods without external power and can be activated and read using only cameras or photodiodes, making it suitable for power-constrained environments such as disaster sites, remote infrastructure, deep sea, and space. Within the next five to ten years, this innovation is expected to realize battery-free high resolution sensor networks across display, wearables, and industrial safety.
"Overall, our technology invites us to imagine a future mechanoluminescent world. ML textiles and footwear that integrate ML materials can emit light in response to human motion, enabling wearer localization during night running while serving both safety and fashion purposes. Furthermore, ML-based survival and protective gear—such as life jackets and thermal blankets—can transmit rescue signals in disaster environments where power supply is limited or unavailable," concludes
Reference
Title of original paper: High-Resolution Mechanoluminescent Haptic Sensor via Dual-Functional Chromatic Filtration by a Conjugated Polymer Shell
Journal: Advanced Materials
DOI: 10.1002/adma.202508917
About Hanyang University
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SOURCE Hanyang University
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