Assembling semiconductor quantum dots in hierarchical photonic cellulose nanocrystal films: circularly polarized luminescent nanomaterials as optical coding labels

Author(s): Mingcong Xu ¹ ^, ² ^, ³ ^, ⁴ , Chunhui Ma ¹ ^, ² ^, ³ ^, ⁴ , Jin Zhou ⁵ ^, ⁶ ^, ⁷ ^, ⁴ , Yushan Liu ¹ ^, ² ^, ³ ^, ⁴ , Xueyun Wu ¹ ^, ² ^, ³ ^, ⁴ , Sha Luo ¹ ^, ² ^, ³ ^, ⁴ , Wei Li ¹ ^, ² ^, ³ ^, ⁴ , Haipeng Yu ¹ ^, ² ^, ³ ^, ⁴ , Yonggui Wang ¹ ^, ² ^, ³ ^, ⁴ , Zhijun Chen ¹ ^, ² ^, ³ ^, ⁴ , Jian Li ¹ ^, ² ^, ³ ^, ⁴ , Shouxin Liu ¹ ^, ² ^, ³ ^, ⁴

Publication date (Electronic): 2019

Journal: Journal of Materials Chemistry C

Publisher: Royal Society of Chemistry (RSC)

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Abstract

Exploring semiconductor quantum dots (QDs) with circularly polarized luminescence (CPL) is desirable to design optoelectronic devices owing to the easily tunable emission wavelengths and photophysical stability. In this study, through a co-assembly strategy, semiconductor QDs were encapsulated in cellulose nanocrystal (CNC)-based left-handed hierarchical photonic films, which resulted in circularly polarized luminescent nanomaterials with right-handed polarization, full-color tunable wavelengths, and tailored dissymmetry factors ( g _lum). The CPL wavelength was manipulated by the emission wavelength of the semiconductor QDs. The photonic band gaps (PBGs) and handedness that spanned the visible spectrum were controlled by the glycerol content in the co-assembled photonic films. This enabled tunable CPL from the green-emitting QDs with a tailored maximum g _lum from −0.48 to −0.21, which is considerable for semiconductor nanomaterials. Based on the circularly polarized information in the ground state and excited state, CPL photonic films were developed as optical labels to encode and decode information.

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Cellulose nanocrystals: chemistry, self-assembly, and applications.

Youssef Habibi, Lucian Lucia, Orlando Rojas (2010)

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Gold helix photonic metamaterial as broadband circular polarizer.

Justyna K Gansel, Michael A Thiel, Michael S Rill … (2009)

We investigated propagation of light through a uniaxial photonic metamaterial composed of three-dimensional gold helices arranged on a two-dimensional square lattice. These nanostructures are fabricated via an approach based on direct laser writing into a positive-tone photoresist followed by electrochemical deposition of gold. For propagation of light along the helix axis, the structure blocks the circular polarization with the same handedness as the helices, whereas it transmits the other, for a frequency range exceeding one octave. The structure is scalable to other frequency ranges and can be used as a compact broadband circular polarizer.