研究目的
Investigating the optical properties of self-assembled polycrystalline barium carbonate/silica double helices, including directional light emission and enantiomorph-specific circular retardance.
研究成果
Self-assembled, microscopic BaCO3/SiO2 double helices display directional emission and enantiomorph-specific circular retardance. These results demonstrate the potential of bottom-up processes to organize simple building blocks across multiple length scales for complex functional materials.
研究不足
Measurements suffer from depolarization, and the degree of polarization (DOP) values observed are low, which is a consequence of mismatched indices of refraction between the material and its surroundings.
1:Experimental Design and Method Selection:
The study employed fluorescent Fourier and Mueller matrix microscopy to analyze the optical properties of the helices.
2:Sample Selection and Data Sources:
BaCO3/SiO2 helices were synthesized and doped with fluorescein for active light emission.
3:List of Experimental Equipment and Materials:
A home-built Fourier or k-space microscope, a laser (λ = 490 nm), a high numerical aperture objective (NA =
4:9), and a camera detector were used. Experimental Procedures and Operational Workflow:
The base of the helix was excited with a laser, and the emission was collected with a high numerical aperture objective. The direction of emitted light was determined using Fourier microscopy.
5:Data Analysis Methods:
The polar emission angle was calculated from the distance of the emission peak from the center of the Fourier plane.
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