Fluorescence detection system for microfluidic droplets Article Swipe

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Binyu Chen , Xiaoming Han , Zhen Su , Quanjun Liu ·

YOU? · · 2018 · Open Access · · DOI: https://doi.org/10.1063/1.5039044

In microfluidic detection technology, because of the universality of optical methods in laboratory, optical detection is an attractive solution for microfluidic chip laboratory equipment. In addition, the equipment with high stability and low cost can be realized by integrating appropriate optical detection technology on the chip. This paper reports a detection system for microfluidic droplets. Photomultiplier tubes (PMT) is used as a detection device to improve the sensitivity of detection. This system improves the signal to noise ratio by software filtering and spatial filter. The fluorescence intensity is proportional to the concentration of the fluorescence and intensity of the laser. The fluorescence micro droplets of different concentrations can be distinguished by this system.

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Electronic Engineering

Physics

Engineering

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Microfluidics Lab-on-a-chip Materials science Fluorescence Microfluidic chip Optical filter Photomultiplier Chip Sensitivity (control systems) Light intensity Optoelectronics Optics Nanotechnology Computer science Detector Electronic engineering Physics Engineering Telecommunications

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Type: article
Language: en
Landing Page: https://doi.org/10.1063/1.5039044
PDF: https://aip.scitation.org/doi/pdf/10.1063/1.5039044
OA Status: bronze
Cited By: 6
References: 11
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DOI: https://doi.org/10.1063/1.5039044

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Title: Fluorescence detection system for microfluidic droplets

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Language: en

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Publication year: 2018

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Publication date: 2018-01-01

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Authors: Binyu Chen, Xiaoming Han, Zhen Su, Quanjun Liu

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Landing page: https://doi.org/10.1063/1.5039044

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Concepts: Microfluidics, Lab-on-a-chip, Materials science, Fluorescence, Microfluidic chip, Optical filter, Photomultiplier, Chip, Sensitivity (control systems), Light intensity, Optoelectronics, Optics, Nanotechnology, Computer science, Detector, Electronic engineering, Physics, Engineering, Telecommunications

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Cited by: 6

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Citations by year (recent): 2023: 1, 2021: 3, 2020: 2

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abstract_inverted_index.different	105
abstract_inverted_index.droplets.	54
abstract_inverted_index.equipment	27
abstract_inverted_index.filtering	80
abstract_inverted_index.intensity	86, 96
abstract_inverted_index.stability	30
abstract_inverted_index.attractive	17
abstract_inverted_index.detection.	69
abstract_inverted_index.equipment.	23
abstract_inverted_index.laboratory	22
abstract_inverted_index.technology	42
abstract_inverted_index.appropriate	39
abstract_inverted_index.integrating	38
abstract_inverted_index.laboratory,	12
abstract_inverted_index.sensitivity	67
abstract_inverted_index.technology,	3
abstract_inverted_index.fluorescence	85, 94, 101
abstract_inverted_index.microfluidic	1, 20, 53
abstract_inverted_index.proportional	88
abstract_inverted_index.universality	7
abstract_inverted_index.concentration	91
abstract_inverted_index.distinguished	109
abstract_inverted_index.concentrations	106
abstract_inverted_index.Photomultiplier	55
cited_by_percentile_year.max	97
cited_by_percentile_year.min	89
countries_distinct_count	1
institutions_distinct_count	4
sustainable_development_goals[0].id	https://metadata.un.org/sdg/7
sustainable_development_goals[0].score	0.7200000286102295
sustainable_development_goals[0].display_name	Affordable and clean energy
citation_normalized_percentile.value	0.63789204
citation_normalized_percentile.is_in_top_1_percent	False
citation_normalized_percentile.is_in_top_10_percent	False