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Solution-Processed One-Dimensional Photonic Crystals Based on Hollow Silica Exhibiting High Refractive Index Contrast.

Qi YuanMinglu ZhangDongyu WangYan LvShuqi LiuHao-Yang MiJian HanChun-Tai LiuChangyu Shen
Published in: ACS applied materials & interfaces (2024)
Poor interfacial quality and low refractive index contrast (Δ n ) are critical challenges for the development of high-performance one-dimensional photonic crystals (1DPhCs) via solution methods that impede their optical efficiency. Herein, we introduce an innovative approach by hybridizing hollow SiO 2 with poly(vinyl alcohol), referred to as PHS, followed by alternate assembly with TiO 2 via spin-coating, achieving a 1DPhC with Δ n = 0.76 at the wavelength of 550 nm. This method circumvents the need for high-temperature treatment and complex curing conditions, resulting in a 1DPhC with superior interfacial and optical characteristics. By adjusting the thickness of the PHS layers, we can finely tune the reflectance spectrum, attaining over 99% reflectance at the photonic band gap. Furthermore, 1DPhC demonstrates excellent adhesion to polycarbonate substrates and retains its optimal optical performance even after rigorous environmental testing, including hygrothermal cycles, exposure to hot water, friction, and solvent sonication. This research paves the way for the facile fabrication of high-performance 1DPhCs under mild conditions, offering new perspectives for photonic material processing.
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