Presentation + Paper
15 June 2023 Development of a 3D-printed, sensitivity-optimized fluorometer based on ultraviolet LED for VIS fluorescence spectrum analysis
Author Affiliations +
Abstract
This paper introduces a fluorometer that is both economically viable and optimized for sensitivity. The sensor is designed to detect low concentrations of fluorophores in the visible spectrum range, utilizing a deep ultraviolet (DUV) 275-nm LED and a dichroic mirror to establish a co-axial optical path for excitation and emission. Unlike traditional general-purpose spectrometers, this sensor achieves a balance between the two through an appropriate aperture size and tailored optical design optimized for the spectral characteristics of fluorophores. The manuscript presents measurements of rare earth element (REE) samples containing terbium (Tb), europium (Eu), dysprosium (Dy), and samarium (Sm) in aqueous solutions at ppb-level concentrations. By optimizing the collection of fluorescence emission without sacrificing spectral information, this work demonstrates the feasibility of developing a low-cost, compact, and highly sensitive fluorescence sensor that is comparable to bench-top commercial spectrofluorometers at a fraction of the cost.
Conference Presentation
© (2023) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Zekun Wu, Scott E. Crawford, Michael Buric, Zachary Splain, and Kevin P. Chen "Development of a 3D-printed, sensitivity-optimized fluorometer based on ultraviolet LED for VIS fluorescence spectrum analysis", Proc. SPIE 12516, Next-Generation Spectroscopic Technologies XV, 125160L (15 June 2023); https://doi.org/10.1117/12.2666936
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KEYWORDS
Fluorescence

Sensors

Light emitting diodes

Spectral resolution

CCD image sensors

Samarium

Terbium

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