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Significant Enhancement of Circular Polarization in Light Emission through Controlling Helical Pitches of Semiconductor Nanohelices

Ziyue Ni, Ping Qin, Hongshuai Liu, Jiafei Chen, Siyuan Cai, Wenying Tang, Hui Xiao, Chen Wang, Geping Qu, Chao Lin, Zhiyong Fan, Zong‐Xiang Xu, Guixin Li, Zhifeng Huang

2023ACS Nano14 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Circularly polarized light emission (CPLE) can be potentially applied to three-dimensional displays, information storage, and biometry. However, these applications are practically limited by a low purity of circular polarization, i.e., the small optical dissymmetry factor g CPLE . Herein, glancing angle deposition (GLAD) is performed to produce inorganic nanohelices (NHs) to generate CPLE with large g CPLE values. CdSe NHs emit red CPLE with g CPLE = 0.15 at a helical pitch ( P ) ≈ 570 nm, having a 40-fold amplification of g CPLE compared to that at P ≈ 160 nm. Ceria NHs emit ultraviolet–blue CPLE with g CPLE ≈ 0.06 at P ≈ 830 nm, with a 10 3 -fold amplification compared to that at P ≈ 110 nm. Both the photoluminescence and scattering among the close-packed NHs complicatedly account for the large g CPLE values, as revealed by the numerical simulations. The GLAD-based NH-fabrication platform is devised to generate CPLE with engineerable color and large g CPLE = 10 –2 –10 –1, shedding light on the commercialization of CPLE devices.

Topics & Concepts

Circular polarizationMaterials sciencePhotoluminescenceSemiconductorOptoelectronicsUltravioletPolarization (electrochemistry)FabricationOpticsChemistryPhysicsMedicineAlternative medicinePathologyMicrostripPhysical chemistryQuantum Dots Synthesis And PropertiesOptical Coatings and GratingsPhotonic Crystals and Applications
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