Seokheun Choi scite author profile

This article reviews state-of-the-art microfluidic biosensors of nucleic acids and proteins for pointof-care (POC) diagnostics. Microfluidics is capable of analyzing small sample volumes (10 -9 -10 -18 l) and minimizing costly reagent consumption as well as automating sample preparation and reducing processing time. The merger of microfluidics and advanced biosensor technologies offers new promises for POC diagnostics, including high-throughput analysis, portability and disposability. However, this merger also imposes technological challenges on biosensors, such as high sensitivity and selectivity requirements with sample volumes orders of magnitude smaller than those of conventional practices, false response errors due to non-specific adsorption, and integrability with other necessary modules. There have been many prior review articles on microfluidic-based biosensors, and this review focuses on the recent progress in last 5 years. Herein, we review general technologies of DNA and protein biosensors. Then, recent advances on the coupling of the biosensors to microfluidics are highlighted. Finally, we discuss the key challenges and potential solutions for transforming microfluidic biosensors into POC diagnostic applications.

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Paper-based batteries: A review

Nguyễn

Fraiwan

Choi

2014

Biosensors and Bioelectronics

217

140

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Measurement of deformations on concrete subjected to compression using image correlation

Choi¹,

Shah²

1997

Experimental Mechanics

222

106

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ABSTRACT--Because the nature of failure in concrete is complicated due to the material heterogeneity, a robust measuring method is essential to obtain reliable deformation data.A nondestructive displacement evaluation system using a digital image cross-correlation scheme, often called computer vision, is developed to make microscopic examinations of the fracture processes in concrete. This is a full-field measuring method that gives an accuracy within the micron range for a 100 mm x 75 mm viewing area. A feedback signal that combines the lateral and axial deformations provides a wellbalanced imaging rate both before and after the peak load. Displacement vector diagrams or displacement contour maps of concrete reveal highly nonuniform deformations even in the elastic range. The processes of fracture in concrete are well defined at different deformation levels.

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A μL-scale micromachined microbial fuel cell having high power density

et al. 2011

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We report a MEMS (Micro-Electro-Mechanical Systems)-based microbial fuel cell (MFC) that produces a high power density. The MFC features 4.5-μL anode/cathode chambers defined by 20-μm-thick photo-definable polydimethylsiloxane (PDMS) films. The MFC uses a Geobacter-enriched mixed bacterial culture, anode-respiring bacteria (ARB) that produces a conductive biofilm matrix. The MEMS MFC generated a maximum current density of 16,000 μA cm(-3) (33 μA cm(-2)) and power density of 2300 μW cm(-3) (4.7 μW cm(-2)), both of which are substantially greater than achieved by previous MEMS MFCs. The coulombic efficiency of the MEMS MFC was at least 31%, by far the highest value among reported MEMS MFCs. The performance improvements came from using highly efficient ARB, minimizing the impact of oxygen intrusion to the anode chamber, having a large specific surface area that led to low internal resistance.

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Microscale microbial fuel cells: Advances and challenges

Choi

2015

Biosensors and Bioelectronics

214

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Seokheun Choi

Microfluidic-based biosensors toward point-of-care detection of nucleic acids and proteins

Paper-based batteries: A review

Measurement of deformations on concrete subjected to compression using image correlation

A μL-scale micromachined microbial fuel cell having high power density

Microscale microbial fuel cells: Advances and challenges

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