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Fabrication of Transparent Polymer Optical Device Combined with Selective Visible‐Light Transmission and Zero‐Birefringence
Macromolecular Rapid Communications ( IF 4.2 ) Pub Date : 2020-12-16 , DOI: 10.1002/marc.202000462 Dan Chen 1 , Yunming Wang 1 , Yue Fu 1 , Huamin Zhou 1
Macromolecular Rapid Communications ( IF 4.2 ) Pub Date : 2020-12-16 , DOI: 10.1002/marc.202000462 Dan Chen 1 , Yunming Wang 1 , Yue Fu 1 , Huamin Zhou 1
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The formation of optical products using the traditional molten processing methods is a direct and extensive application of optical fields, and it suffers from intrinsic birefringence and optical distortion due to polymer orientation and residual stress. Here, a unique concept is proposed by assembling photonic crystal nanospheres without orientation in a rubbery state to realize transparent optical devices with zero‐birefringence and high transparency. By developing fabrication techniques for transparent zero‐birefringence optical devices, certain outstanding performances are realized, including no optical distortion and excellent mechanical properties. Simultaneously, by controlling the particle size of the photonic crystal, one has successfully obtained transparent optical devices with the visible light selective transmission are successfully obtained. The transparent zero‐birefringence optical devices are promising candidates for potential applications for fine optical devices. The work opens up an exciting new fabrication route for zero‐birefringence and highly transparent polymer devices that have been difficult to create using traditional methods.
中文翻译:
结合选择性可见光透射和零双折射的透明聚合物光学器件的制造
使用传统的熔融加工方法形成光学产品是光学领域的直接和广泛应用,并且由于聚合物取向和残余应力而遭受固有的双折射和光学畸变。在这里,提出了一个独特的概念,即在橡胶态下组装无取向的光子晶体纳米球,以实现具有零双折射和高透明度的透明光学器件。通过开发透明零双折射光学器件的制造技术,可以实现某些出色的性能,包括无光学畸变和出色的机械性能。同时,通过控制光子晶体的粒径,已经成功地获得了具有可见光选择性透射的透明光学器件。透明零双折射光学器件是精细光学器件潜在应用的有希望的候选者。这项工作为零双折射和高度透明的聚合物器件开辟了一条令人兴奋的新制造路线,而传统方法很难制造这种器件。
更新日期:2021-01-22
中文翻译:
结合选择性可见光透射和零双折射的透明聚合物光学器件的制造
使用传统的熔融加工方法形成光学产品是光学领域的直接和广泛应用,并且由于聚合物取向和残余应力而遭受固有的双折射和光学畸变。在这里,提出了一个独特的概念,即在橡胶态下组装无取向的光子晶体纳米球,以实现具有零双折射和高透明度的透明光学器件。通过开发透明零双折射光学器件的制造技术,可以实现某些出色的性能,包括无光学畸变和出色的机械性能。同时,通过控制光子晶体的粒径,已经成功地获得了具有可见光选择性透射的透明光学器件。透明零双折射光学器件是精细光学器件潜在应用的有希望的候选者。这项工作为零双折射和高度透明的聚合物器件开辟了一条令人兴奋的新制造路线,而传统方法很难制造这种器件。
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