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We report a novel microscale biophotovoltaic device that can release biological photo-energy conversion technology from its restriction to conceptual research, and advance its translational potential toward practical, real-world applications. The device performance was substantially improved in an engineered microfluidic device by (i) using composite graphite/polytetrafluoroethylene (PTFE) anodic...
We report a simple low-cost gold nanoparticle (AuNP)-loaded surface-enhanced Raman spectroscopy (SERS) paper substrate. With 1 mM Rhodamine B, five 2.0 wt% sodium carboxymethyl cellulose (CMC)-AuNP printing cycles resulted in higher SERS intensities and reproducibility compared to commercial SERS substrate.
We report flow rate-enhanced new paper-based microfluidic (μPAD) platform via a modified hollow channel. The hollow channel was made by a hand-coating film instead of a paper. In two character-shaped microfluidic channels including T and Y, the hollow platform showed roughly maximum 300-fold fast flow rates and times compared to the hydrophilic platform.
We report a microfluidic-based protein sensing technique using pattern generation of a mixture of multiple proteins based on the competitive protein adsorption. We prepared four pre-adsorbed surfaces: lysozyme, albumin, transferrin, and IgG, on a gold surface, to obtain a selective and sensitive detection of a target protein, C-reactive protein (CRP) in a controlled cocktail. The microfluidic device...
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