Paul Gordon scite author profile

Paul Gordon

3Publications

32Citation Statements Received

94Citation Statements Given

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Affiliations

Texas A&M University, Mitchell Institute, Optica

Publications

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Portable bright-field, fluorescence, and cross-polarized microscope toward point-of-care imaging diagnostics

et al. 2019

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Emerging technologies are enabling the feasibility of new types of point-of-care diagnostic devices. A portable, multimodal microscopy platform intended for use in remote diagnostic applications is presented. Use of such a system could bring high-quality microscopy to field use for diseases such as malaria, allowing better diagnostic and surveillance information to be gathered. The microscope was designed using off-the-shelf components and a manual filter selection to generate bright-field, fluorescent, and cross-polarized images of samples mounted to microscopy slides. Design parameters for the system are discussed, and characterization is performed using standardized imaging targets, multimodal phantoms, and blood smears simulating those used in malaria diagnosis. The microscope is shown to be able to image below element 9-3 of a 1951 U.S. Air Force target, indicating that the system is capable of resolving features <775 nm. Morphological indicators of Plasmodium falciparum can be visualized in images from each modality and combined into high-contrast composite images. To optimize parasitic feature contrast across all three imaging modes, several different staining techniques were compared, with results indicating that use of a single nucleic acid binding fluorophore is preferable.

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Benzene Derivatives Analysis Using Aluminum Nitride Waveguide Raman Sensors

Makela

Gordon

et al. 2020

Anal. Chem.

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Raman spectroscopy using aluminum nitride (AlN) optical waveguides was demonstrated for organic compound analysis. The AlN waveguide device was prepared by reactive sputtering deposition and complementary-metal-oxide semiconductor (CMOS) processes. A fundamental waveguide mode was observed over a broad visible spectrum and the waveguide evanescent wave was used to excite the Raman signals of the test analytes. The performance of the waveguide sensor was characterized by measuring the Raman spectra of the benzene derivative mixtures consisting of benzene, anisole, and toluene. The compositions and concentrations were resolved by correlating the obtained Raman spectrum with the characteristic Raman peaks associated with C−C, C−H, and C−O functional groups. With the advantages of real-time detection and enhanced Raman signal intensity, the AlN waveguides provided a sensor platform for nondestructive and online chemical compound monitoring.

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Diagnostic utility of a portable multimodal microscope for malaria treatment at the point-of-care (Conference Presentation)

Gordon

Ghorayshi

Venâncio

et al. 2019

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Paul Gordon

Portable bright-field, fluorescence, and cross-polarized microscope toward point-of-care imaging diagnostics

Benzene Derivatives Analysis Using Aluminum Nitride Waveguide Raman Sensors

Diagnostic utility of a portable multimodal microscope for malaria treatment at the point-of-care (Conference Presentation)

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