The interplay between gold nanoparticles (AuNPs) and liquid crystals (LCs) opens compelling solutions that produce a win-win solution for both classes of materials. AuNPs are successfully utilised to induce a controlled phase change of LCs and, simultaneously, LCs make an active control of the AuNPs optical properties. LC plasmonics generates hybrid materials that could revolutionise next-generation optical and photonic applications in this framework.
Liquid crystal plasmonics / De Sio, L.. - In: LIQUID CRYSTALS TODAY. - ISSN 1358-314X. - 31:1(2022), pp. 2-5. [10.1080/1358314X.2022.2093442]
Liquid crystal plasmonics
De Sio L.
2022
Abstract
The interplay between gold nanoparticles (AuNPs) and liquid crystals (LCs) opens compelling solutions that produce a win-win solution for both classes of materials. AuNPs are successfully utilised to induce a controlled phase change of LCs and, simultaneously, LCs make an active control of the AuNPs optical properties. LC plasmonics generates hybrid materials that could revolutionise next-generation optical and photonic applications in this framework.File allegati a questo prodotto
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