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Fluorescence brightness and photostability of individual copper (I) oxide nanocubes.


ABSTRACT: Conventional organic fluorophores lose their ability to fluoresce after repeated exposure to excitation light due to photobleaching. Therefore, research into emerging bright and photostable nanomaterials has become of great interest for a range of applications such as bio-imaging and tracking. Among these emerging fluorophores, metal oxide-based nanomaterials have attracted significant attention as a potential multifunctional material with photocatalytic and angeogenisis abilities in addition to fluorescnce applications. However, most of these applications are highly dependent on size, morphology, and chemo-physical properties of individual particles. In this manuscript, we present a method to study the intrinsic optical characteristics of individual copper (I) oxide (Cu2O) nanocubes. When excited at 520?nm using only 11?µW excitation power (1.7?W/cm2), individual nanocubes were observed to emit light with peak wavelengths ~760?nm which is conveniently within the near-infrared 1 (NIR1) biological window where tissue autofluorescence is minimal. Bright and photostable fluorescence was observed with intensities up to 487?K counts/s under constant illumination for at least 2?minutes with a brightness approximately four times higher than the autofluorescence from a fixed cumulus-oocyte complex. With near-IR emission, high fluorescence brightness, and outstanding photostability, Cu2O nanocubes are attractive candidates for long-term fluorescent bioimaging applications.

SUBMITTER: Zohora N 

PROVIDER: S-EPMC5715080 | biostudies-other | 2017 Dec

REPOSITORIES: biostudies-other

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Fluorescence brightness and photostability of individual copper (I) oxide nanocubes.

Zohora Nafisa N   Kandjani Ahmad Esmaielzadeh AE   Orth Antony A   Brown Hannah M HM   Hutchinson Mark R MR   Gibson Brant C BC  

Scientific reports 20171204 1


Conventional organic fluorophores lose their ability to fluoresce after repeated exposure to excitation light due to photobleaching. Therefore, research into emerging bright and photostable nanomaterials has become of great interest for a range of applications such as bio-imaging and tracking. Among these emerging fluorophores, metal oxide-based nanomaterials have attracted significant attention as a potential multifunctional material with photocatalytic and angeogenisis abilities in addition to  ...[more]

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