Quantum measurement enables single biomarker sensitivity in flow cytometry

We present the first unambiguous experimental method enabling single-fluorophore sensitivity in a flow cytometer using quantum properties of single-photon emitters. We use a quantum measurement based on the second-order coherence function to prove that the optical signal is produced by individual bi...

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Published inScientific reports Vol. 14; no. 1; pp. 3891 - 8
Main Authors Sabines-Chesterking, J., Burenkov, I. A., Polyakov, S. V.
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 16.02.2024
Nature Publishing Group
Nature Portfolio
Subjects
631/1647/1407/1492
639/624/1075/1083
639/766/400/482
639/766/483/3925
Aperture
Biomarkers
Calibration
Enumeration
Experimental methods
Flow cytometry
Flow Cytometry - methods
Fluorescent Dyes
Fluorophores
Humanities and Social Sciences
Lasers
Light
multidisciplinary
Nanowires
Photons
Quantum dots
Questioning
Science
Science (multidisciplinary)
Sensors
Online AccessGet full text
ISSN2045-2322
2045-2322
DOI10.1038/s41598-023-49145-7

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Abstract We present the first unambiguous experimental method enabling single-fluorophore sensitivity in a flow cytometer using quantum properties of single-photon emitters. We use a quantum measurement based on the second-order coherence function to prove that the optical signal is produced by individual biomarkers traversing the interrogation volume of the flow cytometer from the first principles. This observation enables the use of the quantum toolbox for rapid detection, enumeration, and sorting of single fluorophores in large cell populations as well as a ‘photons-to-moles’ calibration of this measurement modality.
AbstractList We present the first unambiguous experimental method enabling single-fluorophore sensitivity in a flow cytometer using quantum properties of single-photon emitters. We use a quantum measurement based on the second-order coherence function to prove that the optical signal is produced by individual biomarkers traversing the interrogation volume of the flow cytometer from the first principles. This observation enables the use of the quantum toolbox for rapid detection, enumeration, and sorting of single fluorophores in large cell populations as well as a 'photons-to-moles' calibration of this measurement modality.
Abstract We present the first unambiguous experimental method enabling single-fluorophore sensitivity in a flow cytometer using quantum properties of single-photon emitters. We use a quantum measurement based on the second-order coherence function to prove that the optical signal is produced by individual biomarkers traversing the interrogation volume of the flow cytometer from the first principles. This observation enables the use of the quantum toolbox for rapid detection, enumeration, and sorting of single fluorophores in large cell populations as well as a ‘photons-to-moles’ calibration of this measurement modality.
We present the first unambiguous experimental method enabling single-fluorophore sensitivity in a flow cytometer using quantum properties of single-photon emitters. We use a quantum measurement based on the second-order coherence function to prove that the optical signal is produced by individual biomarkers traversing the interrogation volume of the flow cytometer from the first principles. This observation enables the use of the quantum toolbox for rapid detection, enumeration, and sorting of single fluorophores in large cell populations as well as a 'photons-to-moles' calibration of this measurement modality.We present the first unambiguous experimental method enabling single-fluorophore sensitivity in a flow cytometer using quantum properties of single-photon emitters. We use a quantum measurement based on the second-order coherence function to prove that the optical signal is produced by individual biomarkers traversing the interrogation volume of the flow cytometer from the first principles. This observation enables the use of the quantum toolbox for rapid detection, enumeration, and sorting of single fluorophores in large cell populations as well as a 'photons-to-moles' calibration of this measurement modality.
ArticleNumber 3891
Author Burenkov, I. A.
Polyakov, S. V.
Sabines-Chesterking, J.
Author_xml – sequence: 1
  givenname: J.
  surname: Sabines-Chesterking
  fullname: Sabines-Chesterking, J.
  organization: Joint Quantum Institute, University of Maryland, National Institute of Standards and Technology
– sequence: 2
  givenname: I. A.
  surname: Burenkov
  fullname: Burenkov, I. A.
  organization: Joint Quantum Institute, University of Maryland, National Institute of Standards and Technology
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  givenname: S. V.
  surname: Polyakov
  fullname: Polyakov, S. V.
  email: sergey.polyakov@nist.gov
  organization: National Institute of Standards and Technology, Department of Physics, University of Maryland
BackLink https://www.ncbi.nlm.nih.gov/pubmed/38365797$$D View this record in MEDLINE/PubMed
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Snippet We present the first unambiguous experimental method enabling single-fluorophore sensitivity in a flow cytometer using quantum properties of single-photon...
Abstract We present the first unambiguous experimental method enabling single-fluorophore sensitivity in a flow cytometer using quantum properties of...
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SubjectTerms 631/1647/1407/1492
639/624/1075/1083
639/766/400/482
639/766/483/3925
Aperture
Biomarkers
Calibration
Enumeration
Experimental methods
Flow cytometry
Flow Cytometry - methods
Fluorescent Dyes
Fluorophores
Humanities and Social Sciences
Lasers
Light
multidisciplinary
Nanowires
Photons
Quantum dots
Questioning
Science
Science (multidisciplinary)
Sensors
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Title Quantum measurement enables single biomarker sensitivity in flow cytometry
URI https://link.springer.com/article/10.1038/s41598-023-49145-7
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