Tae Geun Kwon scite author profile

Tae Geun Kwon

5Publications

12Citation Statements Received

71Citation Statements Given

How they've been cited

How they cite others

167

Affiliations

Yonsei University

Publications

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Conductive microrod preparation by molecular self-assembly and polymerization

et al. 2013

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Conductive microrods were prepared by evaporation-induced self-assembly (EISA) and subsequent polymerization of a novel, self-assembling molecule with pyrrole end groups. The newly synthesized selfassembling molecule of N91,N96-bis(3-(1-pyrrolyl)propanoyl) hexanedihydrazide self-assembled from a dilute solution into microrods. Pyrrole ring stacking was the key driving force inducing molecular selforganization to microrods. After the self-assembly, the pyrrole groups on the surface of the microrods were chemically polymerized to make the microrod conductive. The electrical conductance of the polymerized microrods was comparable to that of other conducting polymer microrods. Analyses of the polymerized microrods confirmed that the polymerization took place only at the surface of the microrod assembly. This study proved the concept of self-assembly and polymerization to generate complex structured functional materials, and is valuable for the design of functional self-assembling molecules.

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Improving and evaluating the adhesion and stability of make‐up by enhancing the affinity between skin/make‐up layer

Jeon¹,

Kwon²,

Shin³

et al. 2021

Skin Research and Technology

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Purpose: Make-up clumps, bumps and collapses are the three factors that determine how well make-up has been performed. The purpose of this study is to reduce the three factors mentioned above by using amphiphilic substances to increase the affinity between the skin and the make-up layer. In addition, it aims to evaluate the improvement of the make-up layer by developing an objective make-up layer evaluation method.Methods: Experiments were performed in an attempt to increase the affinity between the skin and the make-up layer by minimizing the difference in surface energy between the two. Multiple types of artificial skin (leather and bio-skin) were used and treated to form the liquid foundation layer. Qualitative evaluation of the make-up layer was conducted by analyzing the surface, cross-section, and fracture area of the make-up layer, using the evaluation method proposed in this study.Results: After applying this method and taking measurements by 3D surface analysis, the surface roughness of the make-up layer reduced by 46%, and the maximum thickness of the make-up layer reduced by about 50% in comparison with the control group (method not applied). In the case of the make-up layer to which this method was applied, two-dimensional cross-sectional Scanning Electron Microscope (SEM) image analysis confirmed that agglomeration was reduced, and the thickness of the make-up layer was also reduced by an average of 54%. According to this result, the technique of increasing the affinity between the skin and the make-up layer reduces the level of aggregation of make-up and encourages the formation of a uniform and thin makeup layer. Also, the fracture area after motion simulation was reduced by 33%. These results indicate that the method of increasing the affinity between skin/make-up membranes positively affects the formation of a uniform make-up layer. Conclusion:Increasing the affinity by reducing the surface energy between the skin and the make-up layer plays an important role in forming a thin and uniform makeup layer by improving the problems of lifting, agglomeration, and collapse of the make-up. In addition, it has been confirmed that through this method, the quality of consumer experience related to make-up satisfaction can be improved. The results

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Controlled self-assembly and alignment of organic–magnetic hybrid microrods

Park¹,

Kwon²,

Lee³

2013

Powder Technology

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Synthesis of zinc tin oxide (ZTO) nanocrystallites at room temperature through association with peptide-containing bolaamphiphile molecules

Ahn¹,

Kwon²,

Lee³

2011

Journal of Colloid and Interface Science

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The Experimental Study of SPM(Selectively Permeable Membrane Materials) by using Aerosol Test Instrument

Kwon¹,

Seo²,

Kim³

et al. 2014

Part. Aerosol Res.

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Tae Geun Kwon

Conductive microrod preparation by molecular self-assembly and polymerization

Improving and evaluating the adhesion and stability of make‐up by enhancing the affinity between skin/make‐up layer

Controlled self-assembly and alignment of organic–magnetic hybrid microrods

Synthesis of zinc tin oxide (ZTO) nanocrystallites at room temperature through association with peptide-containing bolaamphiphile molecules

The Experimental Study of SPM(Selectively Permeable Membrane Materials) by using Aerosol Test Instrument

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