Seung-Min Yoo scite author profile

Seung-Min Yoo

5Publications

33Citation Statements Received

730Citation Statements Given

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505

730

Affiliations

Chung-Ang University

Publications

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Colorimetric Systems for the Detection of Bacterial Contamination: Strategy and Applications

Kim

Yoo

2022

Biosensors

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Bacterial contamination is a public health concern worldwide causing enormous social and economic losses. For early diagnosis and adequate management to prevent or treat pathogen-related illnesses, extensive effort has been put into the development of pathogenic bacterial detection systems. Colorimetric sensing systems have attracted increasing attention due to their simple and single-site operation, rapid signal readout with the naked eye, ability to operate without external instruments, portability, compact design, and low cost. In this article, recent trends and advances in colorimetric systems for the detection and monitoring of bacterial contamination are reviewed. This article focuses on pathogen detection strategies and technologies based on reaction factors that affect the color change for visual readout. Reactions used in each strategy are introduced by dividing them into the following five categories: external pH change-induced pH indicator reactions, intracellular enzyme-catalyzed chromogenic reactions, enzyme-like nanoparticle (NP)-catalyzed substrate reactions, NP aggregation-based reactions, and NP accumulation-based reactions. Some recently developed colorimetric systems are introduced, and their challenges and strategies to improve the sensing performance are discussed.

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Recent Advances in Micro/Nanomaterial-Based Aptamer Selection Strategies

Kim

Lee

et al. 2021

Molecules

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Aptamers are artificial nucleic acid ligands that have been employed in various fundamental studies and applications, such as biological analyses, disease diagnostics, targeted therapeutics, and environmental pollutant detection. This review focuses on the recent advances in aptamer discovery strategies that have been used to detect various chemicals and biomolecules. Recent examples of the strategies discussed here are based on the classification of these micro/nanomaterial-mediated systematic evolution of ligands by exponential enrichment (SELEX) platforms into three categories: bead-mediated, carbon-based nanomaterial-mediated, and other nanoparticle-mediated strategies. In addition to describing the advantages and limitations of the aforementioned strategies, this review discusses potential strategies to develop high-performance aptamers.

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Aptamer-Conjugated Quantum Dot Optical Biosensors: Strategies and Applications

Kim

Yoo

2021

Chemosensors

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Quantum dots (QDs) represent the promising new generation of luminophores owing to their size-, composition-, and surface-dependent tunable photoluminescence (PL) and photochemical stability. The development of various QD composites with high PL and good biocompatibility has facilitated the use of aptamer-functionalized QD biosensors for highly sensitive and specific detection of molecules in clinical and environmental settings. In addition to describing the recent advances in aptamer-based QD biosensor technology for the detection of diverse chemicals and biomolecules, this review provides recent examples of sensing strategies based on optical signal enhancement and quenching of QDs. It also discusses potential strategies for the development of biosensors to widen their practical applications across various scientific and technological fields.

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Synthetic fused sRNA for the simultaneous repression of multiple genes

Yeom

Park

Jeon

et al. 2022

Appl Microbiol Biotechnol

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Electrochemiluminescence Systems for the Detection of Biomarkers: Strategical and Technological Advances

2022

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Electrochemiluminescence (ECL)-based sensing systems rely on light emissions from luminophores, which are generated by high-energy electron transfer reactions between electrogenerated species on an electrode. ECL systems have been widely used in the detection and monitoring of diverse, disease-related biomarkers due to their high selectivity and fast response times, as well as their spatial and temporal control of luminance, high controllability, and a wide detection range. This review focuses on the recent strategic and technological advances in ECL-based biomarker detection systems. We introduce several sensing systems for medical applications that are classified according to the reactions that drive ECL signal emissions. We also provide recent examples of sensing strategies and technologies based on factors that enhance sensitivity and multiplexing abilities as well as simplify sensing procedures. This review also discusses the potential strategies and technologies for the development of ECL systems with an enhanced detection ability.

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Seung-Min Yoo

Colorimetric Systems for the Detection of Bacterial Contamination: Strategy and Applications

Recent Advances in Micro/Nanomaterial-Based Aptamer Selection Strategies

Aptamer-Conjugated Quantum Dot Optical Biosensors: Strategies and Applications

Synthetic fused sRNA for the simultaneous repression of multiple genes

Electrochemiluminescence Systems for the Detection of Biomarkers: Strategical and Technological Advances

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