Rapid detection of vaccinia virus using biofunctionalized fiber-optic ball-tip biosensors

Abstract: In this work, we present the development and biofunctionalization of a fiber-optic ball-resonator biosensor for the real-time detection of vaccinia poxvirus. We fabricated several ball-tip resonators, functionalized through a silanization process to immobilize two bioreceptors: the monoclonal anti-L1R antibody targeting the L1R protein, and the polyclonal rabbit serum antibodies targeting the whole vaccinia virus (VV) pathogen. Experimental measurements were carried out to detect VV in concentrations from 103 … Show more

“…If society got to where it is, light conversion had an undoubtedly pivotal contribution. Over the past two centuries, artificial light is no longer a simple lighting instrument, becoming critical for data transmission, 1 sensors, 2 or visualizations at the submicrometric range, 3 for instance. Among several possibilities to convert or generate light, luminescence has excelled to develop devices useful in lighting, security inks, optical fibers, or detectors.…”

Eu^III and Tb^III upconversion intermediated by interparticle energy transfer in functionalized NaLnF₄ nanoparticles

“…If society got to where it is, light conversion had an undoubtedly pivotal contribution. Over the past two centuries, artificial light is no longer a simple lighting instrument, becoming critical for data transmission, 1 sensors, 2 or visualizations at the submicrometric range, 3 for instance. Among several possibilities to convert or generate light, luminescence has excelled to develop devices useful in lighting, security inks, optical fibers, or detectors.…”

Eu^III and Tb^III upconversion intermediated by interparticle energy transfer in functionalized NaLnF₄ nanoparticles

“…The system modeled in our work resembles inline detection of biomolecules with dimensions comparable or higher than the oscillating wavelength. These might be from viral particles such as poxviruses with size up to some hundreds of nanometers 40 to cancer cells developed in the lungs 41 (smaller than ) or breast 13 (bigger than ). The adopted integral-equation-based approach is able to capture most of the features of a real-world experimental configuration and, at the same time, sophisticated enough to support analytical solutions.…”

Scattering integral equation formulation for intravascular inclusion biosensing

Point-of-care biosensors for monkey pox detection