Dayeong Kim scite author profile

A switchable water-adhesive, super-hydrophobic nanowire surface is developed for the formation of functional stem cell spheroids. The sizes of hADSC spheroids are readily controllable on the surface. Our surface increases cell-cell and cell-matrix interaction, which improves viability and paracrine secretion of the spheroids. Accordingly, the hADSC spheroids produced on the surface exhibit significantly enhanced angiogenic efficacy.

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Graphene Oxide Hierarchical Patterns for the Derivation of Electrophysiologically Functional Neuron-like Cells from Human Neural Stem Cells

Yang

Lee

et al. 2016

ACS Appl. Mater. Interfaces

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Graphene has shown great potential for biomedical engineering applications due to its electrical conductivity, mechanical strength, flexibility, and biocompatibility. Topographical cues of culture substrates or tissue-engineering scaffolds regulate the behaviors and fate of stem cells. In this study, we developed a graphene oxide (GO)-based patterned substrate (GPS) with hierarchical structures capable of generating synergistic topographical stimulation to enhance integrin clustering, focal adhesion, and neuronal differentiation in human neural stem cells (hNSCs). The hierarchical structures of the GPS were composed of microgrooves (groove size: 5, 10, and 20 μm), ridges (height: 100-200 nm), and nanoroughness surfaces (height: ∼10 nm). hNSCs grown on the GPS exhibited highly elongated, aligned neurite extension along the ridge of the GPS and focal adhesion development that was enhanced compared to that of cells grown on GO-free flat substrates and GO substrates without the hierarchical structures. In particular, GPS with a groove width of 5 μm was found to be the most effective in activating focal adhesion signaling, such as the phosphorylation of focal adhesion kinase and paxillin, thereby improving neuronal lineage commitment. More importantly, electrophysiologically functional neuron-like cells exhibiting sodium channel currents and action potentials could be derived from hNSCs differentiated on the GPS even in the absence of any of the chemical agents typically required for neurogenesis. Our study demonstrates that GPS could be an effective culture platform for the generation of functional neuron-like cells from hNSCs, providing potent therapeutics for treating neurodegenerative diseases and neuronal disorders.

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Protic ionic liquid-functionalized mesoporous silica-based hybrid membranes for proton exchange membrane fuel cells

et al. 2012

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Mesoporous silica with an average particle size of 90 nm and pore diameter of 3.4 nm was successfully prepared and functionalized with ionic liquid (IL) end capped with alkoxy silane. Two varieties of silica, unmodified silica (US) and IL-functionalized silica (ILS), were incorporated into the Nafion matrix. The physical properties and proton conductivity of the resulting nanocomposites were analyzed. The thermo-mechanical stability and water uptake of the nanocomposites are higher than the virgin Nafion (VN). The mechanical and thermal stabilities of the US-based nanocomposites are higher than those of the ILS-based nanocomposites, but the water uptake and proton conductivities are lower due to the high hydrophilicity and high conductivity of IL. The maximum proton conductivity of 375.0 mS cm À1 has been attained at 90 C and 100% relative humidity (RH) for the nanocomposite containing merely 3 wt% of ILS. The conductivity of the same nanocomposite has been noted to be 54.6 mS cm À1 at 90 C and 30% RH, which is close to the room temperature conductivity of the virgin Nafion at 100% RH. Hence, these ILS-based Nafion composite membranes can be a potential candidate for application to proton exchange membrane fuel cells (PEMFCs) under low hydration conditions.

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Capillary Force-Induced Glue-Free Printing of Ag Nanoparticle Arrays for Highly Sensitive SERS Substrates

Lee

Seo

Kim

et al. 2014

ACS Appl. Mater. Interfaces

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The fabrication of well-ordered metal nanoparticle structures onto a desired substrate can be effectively applied to several applications. In this work, well-ordered Ag nanoparticle line arrays were printed on the desired substrate without the use of glue materials. The success of the method relies on the assembly of Ag nanoparticles on the anisotropic buckling templates and a special transfer process where a small amount of water rather than glue materials is employed. The anisotropic buckling templates can be made to have various wavelengths by changing the degree of prestrain in the fabrication step. Ag nanoparticles assembled in the trough of the templates via dip coating were successfully transferred to a flat substrate which has hydrophilic surface due to capillary forces of water. The widths of the fabricated Ag nanoparticle line arrays were modulated according to the wavelengths of the templates. As a potential application, the Ag nanoparticle line arrays were used as SERS substrates for various probing molecules, and an excellent surface-enhanced Raman spectroscopy (SERS) performance was achieved with a detection limit of 10(-12) M for Rhodamine 6G.

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Genomewide Analysis of the Antimicrobial Peptides in Python bivittatus and Characterization of Cathelicidins with Potent Antimicrobial Activity and Low Cytotoxicity

Kim

Soundrarajan

Lee

et al. 2017

Antimicrob Agents Chemother

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In this study, we sought to identify novel antimicrobial peptides (AMPs) in through bioinformatic analyses of publicly available genome information and experimental validation. In our analysis of the python genome, we identified 29 AMP-related candidate sequences. Of these, we selected five cathelicidin-like sequences and subjected them to further analyses. The results showed that these sequences likely have antimicrobial activity. The sequences were named Pb-CATH1 to Pb-CATH5 according to their sequence similarity to previously reported snake cathelicidins. We predicted their molecular structure and then chemically synthesized the mature peptide for three putative cathelicidins and subjected them to biological activity tests. Interestingly, all three peptides showed potent antimicrobial effects against Gram-negative bacteria but very weak activity against Gram-positive bacteria. Remarkably, ΔPb-CATH4 showed potent activity against antibiotic-resistant clinical isolates and also was observed to possess very low hemolytic activity and cytotoxicity. ΔPb-CATH4 also showed considerable serum stability. Electron microscopic analysis indicated that ΔPb-CATH4 exerts its effects via toroidal pore preformation. Structural comparison of the cathelicidins identified in this study to previously reported ones revealed that these Pb-CATHs are representatives of a new group of reptilian cathelicidins lacking the acidic connecting domain. Furthermore, Pb-CATH4 possesses a completely different mature peptide sequence from those of previously described reptilian cathelicidins. These new AMPs may be candidates for the development of alternatives to or complements of antibiotics to control multidrug-resistant pathogens.

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Dayeong Kim

Switchable Water‐Adhesive, Superhydrophobic Palladium‐Layered Silicon Nanowires Potentiate the Angiogenic Efficacy of Human Stem Cell Spheroids

Graphene Oxide Hierarchical Patterns for the Derivation of Electrophysiologically Functional Neuron-like Cells from Human Neural Stem Cells

Protic ionic liquid-functionalized mesoporous silica-based hybrid membranes for proton exchange membrane fuel cells

Capillary Force-Induced Glue-Free Printing of Ag Nanoparticle Arrays for Highly Sensitive SERS Substrates

Genomewide Analysis of the Antimicrobial Peptides in Python bivittatus and Characterization of Cathelicidins with Potent Antimicrobial Activity and Low Cytotoxicity

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﻿Dayeong Kim

Switchable Water‐Adhesive, Superhydrophobic Palladium‐Layered Silicon Nanowires Potentiate the Angiogenic Efficacy of Human Stem Cell Spheroids

Graphene Oxide Hierarchical Patterns for the Derivation of Electrophysiologically Functional Neuron-like Cells from Human Neural Stem Cells

Protic ionic liquid-functionalized mesoporous silica-based hybrid membranes for proton exchange membrane fuel cells

Capillary Force-Induced Glue-Free Printing of Ag Nanoparticle Arrays for Highly Sensitive SERS Substrates

Genomewide Analysis of the Antimicrobial Peptides in Python bivittatus and Characterization of Cathelicidins with Potent Antimicrobial Activity and Low Cytotoxicity

Contact Info

Product

Resources

About

Dayeong Kim