Mechanoresponsive scatterers for high-contrast optical modulation.

Nanophotonics

Department of Materials Science and Engineering, KAIST Institute for Nanocentury, Korea Advanced Institute of Science and Technology (KAIST), Daejeon 34141, Republic of Korea.

Published: June 2022

AI Article Synopsis

  • - Smart chromatic materials that change optical transmittance through light scattering are gaining attention for practical uses like smart windows and electronic displays, but current electric-field activated versions face issues with energy use, speed, and stability.
  • - New mechanoresponsive scatterers, driven by surface or internal structural changes under strain, offer faster responses and lower energy consumption, potentially overcoming limitations of existing technologies.
  • - The article reviews recent advancements in these scatterers, categorizing them by structural dimensions (2D, 3D, etc.), discussing fabrication methods, optical performance, and summarizing the pros and cons of different designs while also suggesting future research avenues.

Article Abstract

Smart chromatic materials with optical transmittances that can be modified by light scattering upon external stimuli are attracting extensive interest because of their appealing applications in smart windows, privacy protection, electronic displays, etc. However, the development of these scatterers, which are mostly activated by electric fields, is hindered by their intrinsic energy consumption, slow responses, and poor stability. Recently, mechanoresponsive scatterers based on a strain-driven reconfiguration of the surface or internal structure have emerged, featuring fast responses and a simple composition/fabrication. Because there is no energy consumption to maintain the transparency/opacity, this novel scheme for scatterers holds great promise to break the existing bottleneck. This article presents recent advances in the development of mechanoresponsive scatterers and compares different structural design strategies. The scatterers are categorized into 2D, 3D, and other types according to the dimensions of their functioning structures. The fabrication methods, mechanisms, and relationships between the structural parameters and optical modulating performances are discussed for each category. Next, the potential applications of these scatterers are outlined. Finally, the advantages and disadvantages of the mainstream 2D and 3D categories are summarized, followed by a perspective on future research directions.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11501574PMC
http://dx.doi.org/10.1515/nanoph-2021-0642DOI Listing

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