교수소개
부교수
2006.08.24 충북대학교 (이학박사)
2002.02.25 충북대학교 (이학석사)
2000.02.25 충북대학교 (이학사)
2016.02 인천대학교 (조교수)
2012.01 ~ 2016.02 University of California Irvine (Research Director)
2009.11 ~ 2011.11 Imperial College London (Reserach Fellow)
Multiplexed detection of single-point mutations in unprocessed human serum with SERS-integrated PCR, SENSORS AND ACTUATORS B-CHEMICAL , 제401권(집) , PP.1~8 , 2024.02.15
Accurate detection of enzymatic degradation processes of gelatin–alginate microcapsule by 1H NMR spectroscopy: Probing biodegradation mechanism and kinetics, Carbohydrate Polymers , 제304권(집) , 2023.03.15
Neomycin, but Not Neamine, Blocks Angiogenic Factor Induced Nitric Oxide Release through Inhibition of Akt Phosphorylation, INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES , 제23권(집) , 제23호 , PP.1~12 , 2022.12.01
Integration of Surface-enhanced Raman Spectroscopy with PCR for Monitoring Single Copy of KRAS G12D Mutation, BULLETIN OF THE KOREAN CHEMICAL SOCIETY , 제42권(집) , 제6호 , PP.945~951 , 2021.06.01
The Roles of Membrane Technology in Artificial Organs: Current Challenges and Perspectives, Membranes , 제11권(집) , 제4호 , PP.1~33 , 2021.03.28
M13 virus-templated open mouth-like platinum nanostructures prepared by electrodeposition: Influence of M13-virus on structure and electrocatalytic activity, JOURNAL OF ELECTROANALYTICAL CHEMISTRY , 제879권(집) , 제114755호 , PP.1~7 , 2020.12.15
Gas Crosstalk between PFPE–PEG–PFPE Triblock Copolymer Surfactant-Based Microdroplets and Monitoring Bacterial Gas Metabolism with Droplet-Based Microfluidics, Biosensors , 제10권(집) , 제11호 , PP.1~17 , 2020.11.11
Rapid Detection of beta-Lactamase-Producing Bacteria Using the Integrated Comprehensive Droplet Digital Detection (IC 3D) System, SENSORS , 제20권(집) , 제17호 , PP.1~13 , 2020.08.19
Polydopamine-wrapped Cu/Cu(II) Nano-heterostructures: An Efficient Electrocatalyst for Non-enzymatic Glucose Detection, COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS , 제580권(집) , 제123689호 , PP.1~9 , 2019.11.01
Toward an efficient photosensitizer for photodynamic therapy Incorporating BODIPY into porphyrinic nanoscale MOFs through the solvent-assisted ligand incorporation, DYES AND PIGMENTS , 제170권(집) , PP.107576~ , 2019.11.01
Heterometallic BODIPY-based Molecular Squares Obtained by Self-Assembly: Synthesis and Biological Activities, ACS Omega , 제4권(집) , 제8호 , PP.13200~13208 , 2019.08.20
Recent Advances in Droplet-based Microfluidic Technologies for Biochemistry and Molecular Biology, Micromachines , 제10권(집) , 제6호 , PP.412~ , 2019.06.20
Silicate sol-gel functionalized rGO-Ag sensor-probe for spectral detection of Hg(II) ions, MATERIALS RESEARCH BULLETIN , 제106권(집) , PP.144~151 , 2018.05.23
One-step Synthesis of AuAg Alloy Nanodots and its Electrochemical Studies towards Nitrobenzene Reduction and Sensing, ELECTROANALYSIS , 제30권(집) , 제1호 , PP.57~66 , 2018.01.02
Surface-initiated fluoride-scavenging polymeric layer on cathode materials for lithium-ion batteries, JOURNAL OF INDUSTRIAL AND ENGINEERING CHEMISTRY , 제53권(집) , PP.425~428 , 2017.09.25
Digital quantification of miRNA directly in plasma using integrated comprehensive droplet digital detection, LAB ON A CHIP , 제15권(집) , 제21호 , PP.4217~4226 , 2015.11.07
3D Droplet Microfluidic Systems for High-Throughput Biological Experimentation, ANALYTICAL CHEMISTRY , 제87권(집) , 제21호 , PP.10770~10778 , 2015.10.09
Floating Droplet Array: An Ultrahigh-ThroughputDevice for Droplet Trapping, Real-time Analysisand Recovery, Micromachines , 제6권(집) , 제10호 , PP.1469~1482 , 2015.09.30
Rapid detection of single bacteria in unprocessedblood using Integrated Comprehensive DropletDigital Detection, Nature Communications , 제5권(집) , PP.5427~ , 2014.11.13
DNA-Scaffolded Multivalent Ligands to Modulate CellFunction, CHEMBIOCHEM , 제15권(집) , 제9호 , PP.1268~1273 , 2014.06.16
Rolling circle amplification: a versatile tool forchemical biology, materials science and medicine, CHEMICAL SOCIETY REVIEWS , 제43권(집) , 제10호 , PP.3324~3341 , 2014.05.21
Droplet microfluidics for single-molecule and single-cell analysisin cancer research, diagnosis and therapy, TRAC-TRENDS IN ANALYTICAL CHEMISTRY , 제58권(집) , PP.145~153 , 2014.04.05
A polyvalent aptamer system for targeted drug delivery, BIOMATERIALS , 제34권(집) , 제37호 , PP.9728~9735 , 2013.12.01
Droplet-Based Microfluidic Platform for High-Throughput, Multi-Parameter Screening of Photosensitizer Activity, ANALYTICAL CHEMISTRY , 제85권(집) , 제18호 , PP.8866~8872 , 2013.09.17
From Blood to the Brain: Can Systemically TransplantedMesenchymal Stem Cells Cross the Blood-Brain Barrier?, Stem Cells International , 제2013권(집) , 제43509호 , PP.1~7 , 2013.08.12
Novel Molecular and Nanosensors for In Vivo Sensing, Theranostics , 제3권(집) , 제8호 , PP.583~594 , 2013.07.23
Lab-chip HPLC with integrated droplet-based microfluidics forseparation and high frequency compartmentalisation, CHEMICAL COMMUNICATIONS , 제48권(집) , 제73호 , PP.9144~9146 , 2012.09.24
Cell Surface Sensors: Lightning the Cellular Environment, Wiley Interdisciplinary Reviews-Nanomedicine and Nanobiotechnology , 제4권(집) , 제5호 , PP.547~561 , 2012.09.01
Colorimetric and Ultrasensitive Bioassay Based on a Dual-Amplification System Using Aptamer and DNAzyme, ANALYTICAL CHEMISTRY , 제84권(집) , 제11호 , PP.4711~4717 , 2012.06.05
Human Apolipoprotein(a) Kringle V InhibitsIschemia-Induced Retinal Neovascularization viaSuppression of Fibronectin-Mediated Angiogenesis, DIABETES , 제61권(집) , 제6호 , PP.1599~1608 , 2012.06.01
High-Throughput Analysis of Protein-Protein Interactionsin Picoliter-Volume Droplets Using Fluorescence Polarization, ANALYTICAL CHEMISTRY , 제84권(집) , 제8호 , PP.3849~3854 , 2012.04.17
Recent advances in microfluidic technologies for biochemistryand molecular biology, BMB Reports , 제44권(집) , 제11호 , PP.705~712 , 2011.11.01
Pharmacoproteomic Analysis of a NovelCell-permeable Peptide Inhibitor ofTumor-induced Angiogenesis, MOLECULAR & CELLULAR PROTEOMICS , 제10권(집) , 제8호 , PP.00526~ , 2011.08.01
Angiogenin induces nitric oxide release independently from itsRNase activity, CHEMICAL COMMUNICATIONS , 제47권(집) , 제12호 , PP.3421~3423 , 2011.03.28
Angiogenin Induces Nitric Oxide Synthesis in Endothelial Cells through PI-3 andAkt Kinases, BIOCHEMISTRY , 제49권(집) , 제15호 , PP.3282~3288 , 2010.04.20