Measurement of Individual Nanobioparticles on Microfluidic Chips by Laser Dark-field Imaging

A microfluidic-chip-based analysis platform specially tuned for characterizing individual nanobio-particles has been developed. Using this platform, both artificial nanobioparticles (polyion complex vesicles) and cell-secreted exosomes with diameter down to 50 nm can be observed. The zeta potential...

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Veröffentlicht in:	Journal of Photopolymer Science and Technology 2015/06/22, Vol.28(5), pp.727-730
Hauptverfasser:	Akagi, Takanori, Hanamura, Nami, Ichiki, Takanori
Format:	Artikel
Sprache:	eng
Schlagworte:	Carriers exosome laser dark-field imaging Lasers microfluidic chip Microfluidics nanobioparticle Nanostructure Photopolymers Platforms polyion complex vesicle (PICsome) Vesicles Zeta potential
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container_title	Journal of Photopolymer Science and Technology
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creator	Akagi, Takanori Hanamura, Nami Ichiki, Takanori
description	A microfluidic-chip-based analysis platform specially tuned for characterizing individual nanobio-particles has been developed. Using this platform, both artificial nanobioparticles (polyion complex vesicles) and cell-secreted exosomes with diameter down to 50 nm can be observed. The zeta potential distribution of the exosomes was obtained by measuring the zeta potential of individual exosomes. Since the number of surface molecules on nanobioparticles can be estimated by applying a particle immunoelectrophoresis method, this platform is promising for obtaining profiles of heterogeneous nanobioparticles including nanoDDS carriers and exosomes.
doi_str_mv	10.2494/photopolymer.28.727
format	Article
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subjects	Carriers exosome laser dark-field imaging Lasers microfluidic chip Microfluidics nanobioparticle Nanostructure Photopolymers Platforms polyion complex vesicle (PICsome) Vesicles Zeta potential
title	Measurement of Individual Nanobioparticles on Microfluidic Chips by Laser Dark-field Imaging
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