An Adaptive Soft Plasmonic Nanosheet Resonator
Xinghua Wang, Tanju Yildirim, Kae Jye Si, Ankur Sharma, Yunzhou Xue,, Qinghua Qin, Qiaoliang Bao, Wenlong Cheng, and Yuerui Lu

TL;DR
This paper introduces a soft, adaptive plasmonic nanosheet resonator that can dynamically respond to light intensity and wavelength changes, mimicking biological systems and enabling tunable opto-mechanical applications.
Contribution
It presents a novel organic-inorganic hybrid plasmonic nanosheet with reversible, tunable adaptive frequency responses driven by plasmonic heating effects.
Findings
Responsive to incident light intensity and wavelength
Reversible and tunable adaptive frequency responses
Potential for next-generation bio-mimicking systems
Abstract
Current micro nanomechanical system are usually based on rigid crystalline semiconductors that normally have high quality factors but lack adaptive responses to variable frequencies, a capability ubiquitous for communications in the biological world, such as bat and whale calls. Here, we demonstrate a soft mechanical resonator based on a freestanding organic-inorganic hybrid plasmonic superlattice nanosheet, which can respond adaptively to either incident light intensity or wavelength. This is achieved because of strong plasmonic coupling in closely-packed nanocrystals which can efficiently concentrate and convert photons into heat. The heat causes the polymer matrix to expand, leading to a change in the nanomechanical properties of the plasmonic nanosheet. Notably, the adaptive frequency responses are also reversible and the responsive ranges are fine-tunable by adjusting the…
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Taxonomy
TopicsPlasmonic and Surface Plasmon Research · Gold and Silver Nanoparticles Synthesis and Applications · Silk-based biomaterials and applications
