Add to ORKGBackground: We describe a direct-detection immunoassay that uses high-speed optical interferometry on a biological compact disc (BioCD). Methods: We fabricated phase-contrast BioCDs from 100-mm diameter 1.1-mm thick borosilicate glass disks coated with a 10-layer dielectric stack of Ta2O5/SiO2 that serves as a mirror with a center wavelength at 635 nm. The final layer is a lambda/4 layer of SiO2 onto which protein patterns are immobilized through several different chemical approaches. Protein on the disc is scanned by a focused laser spot as the disc spins. Interaction of the light with the protein provides both a phase-modulated ...
In this article we report a new, simple, and reliable optical read-out detection method able to asse...
In previous work, the performance of a compact and cost-effective point-of-care (PoC) device based o...
The speed and specificity characteristic of immunochemical complex formation has encouraged the deve...
say that uses high-speed optical interferometry on a biological compact disc (BioCD). Methods: We fa...
Spinning-disk interferometers are a new class of analytic sensors to detect immobilized biomolecules...
We perform simultaneous interferometric and fluorescent detection of molecular protein layers on a B...
We employ common-path phase quadrature interferometry to measure optical phase shifts produced by bi...
Spinning-disc interferometry (SDI) is a high-speed laser scanning approach to surface metrology that...
A gold ridge microstructure fabricated to a height of lambda/8 on a high-reflectivity substrate beha...
The bio-optical compact disk (BioCD) is an optical biosensor that performs common-path molecular int...
We report the use of adaptive interferometry to detect a monolayer of protein immobilized in a perio...
Adaptive spinning-disk interferometry is capable of measuring surface profiles of a ...
We report use of U-shaped biconically tapered optical fibers (BTOF) as probes for label-free immunoa...
PubMed ID: 25836359We report use of U-shaped biconically tapered optical fibers (BTOF) as probes for...
Conventional biomedical diagnosis and chemical analysis are performed by trained professionals in ce...
In this article we report a new, simple, and reliable optical read-out detection method able to asse...
In previous work, the performance of a compact and cost-effective point-of-care (PoC) device based o...
The speed and specificity characteristic of immunochemical complex formation has encouraged the deve...
say that uses high-speed optical interferometry on a biological compact disc (BioCD). Methods: We fa...
Spinning-disk interferometers are a new class of analytic sensors to detect immobilized biomolecules...
We perform simultaneous interferometric and fluorescent detection of molecular protein layers on a B...
We employ common-path phase quadrature interferometry to measure optical phase shifts produced by bi...
Spinning-disc interferometry (SDI) is a high-speed laser scanning approach to surface metrology that...
A gold ridge microstructure fabricated to a height of lambda/8 on a high-reflectivity substrate beha...
The bio-optical compact disk (BioCD) is an optical biosensor that performs common-path molecular int...
We report the use of adaptive interferometry to detect a monolayer of protein immobilized in a perio...
Adaptive spinning-disk interferometry is capable of measuring surface profiles of a ...
We report use of U-shaped biconically tapered optical fibers (BTOF) as probes for label-free immunoa...
PubMed ID: 25836359We report use of U-shaped biconically tapered optical fibers (BTOF) as probes for...
Conventional biomedical diagnosis and chemical analysis are performed by trained professionals in ce...
In this article we report a new, simple, and reliable optical read-out detection method able to asse...
In previous work, the performance of a compact and cost-effective point-of-care (PoC) device based o...
The speed and specificity characteristic of immunochemical complex formation has encouraged the deve...