전임교수진
최연호
- 직위
- 교수
- 전화번호
- 02-3290-5657
- 연구분야
- Deep-learning based early diagnosis by exosome analysis, Biomimetic anticoagulation artificial blood vessel, High resolution molecular spectroscopic imaging
- 사무실
- 하나과학관 B동 462호
- 홈페이지
- http://nbplab.korea.ac.kr/wordpress/
- 이메일
- yeonhochoi@korea.ac.kr
학력
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Ph.D. Mechanical Eng., University of California at Berkeley, 2009 MS, Mechanical Eng., Seoul National University 2000 BS, Mechanical Eng., Seoul National University 1998
경력 및 수상
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주요경력 2015/03~ present, Associate Professor & Department Chair, School of Biomedical Eng. Korea University 2010/03 ~ 2015/02 Assistant Professor, School of Biomedical Eng. Korea University 2009/02 ~ 2010/02 Post Doctoral Researcher, Dept. of Bioengineering, University of California at Berkeley 2000/08 ~ 2003/06 Full-time Instructor, Dept. of Mech. Eng. Korea Air-Force Academy (KAFA)
연구논문
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주요논문 최근 5년간 대표 연구 논문 [1]Wrapping AgCl Nanostructures with Trimetallic Nanomeshes for Plasmon-Enhanced Catalysis and in Situ SERS Monitoring of Chemical Reactions, ACS Applied Materials & Interfaces (2019) [2]Red blood cell and white blood cell separation using a lateral-dimension scalable microchip based on hydraulic jump and sedimentation, Sensors and Actuators B: Chemical (2019) [3]Quantum biological tunnel junction for electron transfer imaging in live cells, Nature Communications (2019) [4]Aqueous synthesis of highly monodisperse sub-100 nm AgCl nanospheres/cubes and their plasmonic nanomesh replicas as visible-light photocatalysts and single SERS probes, Nanotechnology (2019) [5]Identification of newly emerging influenza viruses by detecting the virally infected cells based on surface-enhanced Raman spectroscopy (SERS) and principal component analysis (PCA), Analytical Chemistry (2019) [6]Flexible and Stable Omniphobic Surfaces based on Biomimetic Repulsive Air-Spring Structures, ACS Applied Materials & Interfaces (2019) [7]Correlation between Cancerous Exosomes and Protein Markers Based on Surface-Enhanced Raman Spectroscopy (SERS) and Principal Component Analysis (PCA), ACS Sensors (2018) [8]3D Assembly of Metal Nanoparticles at Oleic Acid/Water Interface via Their Autonomous and Rapid Interfacial Locomotion, Advanced Materials Interfaces (2018) [9]Precise nanoinjection delivery of plasmid DNA into a single fibroblast for direct conversion of astrocyte, Artificial cells, nanomedicine, and biotechnology, (2018) [10]Stem cell transplantation for Huntington’s diseases. Methods (2017) [11]Exosome Classification by Pattern Analysis of Surface-enhanced Raman Spectroscopy Data for Lung Cancer Diagnosis, Analytical Chemistry (2017) [12]Femtoliter Scale Quantitative Injection Control by Experimental and Theoretical Modeling, Biomedical Engineering Letters (2016) [13]In-Plate and On-Plate Structural Control of Ultra-Stable Gold/Silver Bimetallic Nanoplates as Redox Catalysts, Nanobuilding Blocks, and Single-Nanoparticle Surface-Enhanced Raman Scattering Probes, ACS Appl. Mater. Interfaces (2016) [14]Autoenhanced Raman Spectroscopy via Plasmonic Trapping for Molecular Sensing, Analytical Chemistry (2016) 2016년 이전 논문 [15]Identification of Newly Emerging Influenza Viruses by Surface-Enhanced Raman Spectroscopy, Analytical Chemistry (2015) [16]Spatio-Temporally Controlled Transfection by Quantitative Injection into a Single Cell, Biomaterials (2015) [17]Graphene Nanopore with a Self-Integrated Optical Antenna, Nano letters (2014) [18]Exosome Identification for Personalized Diagnosis and Therapy, Biomedical Engineering Letters (2014) [19]Asymmetrically Coupled Plasmonic Core and Nanotriplet Satellites, The Journal of Physical Chemistry C (2014) [20]Photothermal Inhibition of Neural Activity with Near-Infrared-Sensitive Nanotransducers, ACS nano (2014) [21]In-situ nanospectroscopic pH monitoring by plasmon resonance energy transfer (PRET), Journal of nanoscience and nanotechnology (2013) [22]Self-assembled three-dimensional nanocrown array, ACS nano (2012) [23]Three-Dimensional Reduced-Symmetry of Colloidal Plasmonic Nanoparticles, Nano letters (2012) [24]Nanowire-based single-cell endoscopy, Nature nanotechnology (2012) [25]Robust plasmonic sensors based on hybrid nanostructures with facile tunability, Journal of Materials Chemistry (2012) [26]Plasmonic nanosensors: review and prospect, IEEE Journal of Selected Topics in Quantum Electronics (2011) [27]Simultaneous optical monitoring of the overgrowth modes of individual asymmetric hybrid nanoparticles, Angewandte Chemie International Edition (2011) [28]The effect of thermal gradients in SERS spectroscopy, Small (2010) [29]Study of microscale hydraulic jump phenomenon for hydrodynamic trap-and-release of microparticles, Applied physics letters (2010) [30]Self‐organized hexagonal‐nanopore SERS array, Small (2010) [31]Metal–Insulator–Metal Optical Nanoantenna with Equivalent‐Circuit Analysis, Advanced Materials (2010) [32]Selective and sensitive detection of metal ions by plasmonic resonance energy transfer-based nanospectroscopy, Nature Nanotechnology (2009) [33]Shadow Overlap Ion-beam Lithography for Nanoarchitectures, Nano letters (2009) [34]Noninvasive Real-time Monitoring of Amyloid-β Fibrillization via Simultaneous Label-free Dielectric Relaxation Spectroscopy and Dark-Field Imaginge, The Journal of Physical Chemistry C (2009) [35]Additional amplifications of SERS via an optofluidic CD-based platform, Lab on a Chip (2009) [36]Plasmon Resonance Energy Transfer (PRET)-based Molecular Imaging of Cytochrome c in Living Cells, Nano letters (2008) [37]Quantized plasmon quenching dips nanospectroscopy via plasmon resonance energy transfer, Nature Methods (2007)