全息术
光致聚合物
栅栏
化学
折射率
光学
光电子学
扩散
聚合物
材料科学
聚合
物理
热力学
有机化学
作者
Jie Chen,Wei Wei,Haiyan Peng,Mingli Ni,Hongxi Guo,Dengfu Lu,Yonggui Liao,Xingping Zhou,Zhong’an Li,Xiaolin Xie
摘要
Holographic photopolymerization provides a robust approach for the advanced manufacturing of structurally ordered devices. However, photogenerated radicals in bright regions are prone to cross-regional diffusion and induce unwanted polymerizations in dark regions, making efficient holographic manufacturing exceedingly challenging. Herein, we report a breakthrough by spatially confining the initiation function, enabling the unprecedentedly rapid formation of predesigned submicron-ordered grating structures within merely 0.75 s under visible light holographic exposure. Theoretical computations attribute the success of this initiation-confined approach to orders of magnitude larger reaction rate constants of initiation than propagation. This approach is highly versatile, facilitating the fabrication of both transmission- and reflection-type volume holographic grating structures starting from various reaction systems, and the refractive index modulation can be as high as 0.10, enabling ultraefficient manufacturing of waveguide combiners for high-fidelity near-eye AR displays.
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