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Dual-Wavelength Holographic Cytometry for Red Blood Cell Disease Diagnosis

Publication ,  Conference
Funkenbusch, GT; Chen, CX; Wax, A
Published in: Novel Techniques in Microscopy NTM 2023
January 1, 2023
Published version (DOI)

Two-wavelength phase microscopy enables quantification of hemoglobin concentration and height of fast-flowing cells in a flow cytometer. This approach shows great potential for point-of-care diagnosis of blood disorders.

Duke Scholars

Adam P. Wax
Author Adam P. Wax Biomedical Engineering

Published In

Novel Techniques in Microscopy NTM 2023

DOI

10.1364/NTM.2023.NTh1C.4

Publication Date

January 1, 2023
 

Citation

APA
Chicago
ICMJE
MLA
NLM
Funkenbusch, G. T., Chen, C. X., & Wax, A. (2023). Dual-Wavelength Holographic Cytometry for Red Blood Cell Disease Diagnosis. In Novel Techniques in Microscopy NTM 2023. https://doi.org/10.1364/NTM.2023.NTh1C.4
Funkenbusch, G. T., C. X. Chen, and A. Wax. “Dual-Wavelength Holographic Cytometry for Red Blood Cell Disease Diagnosis.” In Novel Techniques in Microscopy NTM 2023, 2023. https://doi.org/10.1364/NTM.2023.NTh1C.4.
Funkenbusch GT, Chen CX, Wax A. Dual-Wavelength Holographic Cytometry for Red Blood Cell Disease Diagnosis. In: Novel Techniques in Microscopy NTM 2023. 2023.
Funkenbusch, G. T., et al. “Dual-Wavelength Holographic Cytometry for Red Blood Cell Disease Diagnosis.” Novel Techniques in Microscopy NTM 2023, 2023. Scopus, doi:10.1364/NTM.2023.NTh1C.4.
Funkenbusch GT, Chen CX, Wax A. Dual-Wavelength Holographic Cytometry for Red Blood Cell Disease Diagnosis. Novel Techniques in Microscopy NTM 2023. 2023.

Published In

Novel Techniques in Microscopy NTM 2023

DOI

10.1364/NTM.2023.NTh1C.4

Publication Date

January 1, 2023