Dandan Sun scite author profile

A label-free fiber-optic biosensor with a reflective microfiber Bragg grating (mFBG) configuration for in-situ DNA hybridization detection has been proposed and experimentally demonstrated. A single straight Bragg grating inscribed in the silica microfiber provides two well-defined resonances in reflection, which show different response to external medium refractive index (RI) and present the same temperature sensitivity. By monitoring the wavelength separation between these two resonances, temperature-compensated RI measurement has been achieved. The label-free bio-recognition scheme used demonstrates that the sensor relies on the surface functionalization of a monolayer of poly-l-lysine (PLL), synthetic DNA sequences that bind with high specificity to a given target. In addition to monitoring the surface functionalization of the fiber in real-time, the results also show how the fiber biosensor can detect the presence of the DNA hybridization with high specificity, in various concentration of target DNA solutions, with lowest detectable concentration of 0.5 µM.

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Numerical simulation and experimental study on the comparison of the hydraulic characteristics of an axial-flow pump and a full tubular pump

Shi

Zhang

Jiao

et al. 2020

Renewable Energy

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A comparative study of local and nonlocal Allen-Cahn equations with mass conservation

Chai

Sun

Wang

et al. 2018

International Journal of Heat and Mass Transfer

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Nanobranched porous palladium–tin intermetallics: One-step synthesis and their superior electrocatalysis towards formic acid oxidation

Sun

et al. 2015

Journal of Power Sources

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Dandan Sun

Lattice Boltzmann modeling of dendritic growth in a forced melt convection

In-situ DNA hybridization detection with a reflective microfiber grating biosensor

Numerical simulation and experimental study on the comparison of the hydraulic characteristics of an axial-flow pump and a full tubular pump

A comparative study of local and nonlocal Allen-Cahn equations with mass conservation

Nanobranched porous palladium–tin intermetallics: One-step synthesis and their superior electrocatalysis towards formic acid oxidation

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