Your search keyword '"Kim, Yongjoo"' showing total 7 results

1. Programmable editing of a target base in genomic DNA without double-stranded DNA cleavage

Author

Komor, Alexis C., Kim, Yongjoo B., Packer, Michael S., Zuris, John A., and Liu, David R.

Subjects

Genomics -- Research, Genetic research, Genetic engineering -- Methods, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Current genome-editing technologies introduce double-stranded (ds) DNA breaks at a target locus as the first step to gene correction (1,2). Although most genetic diseases arise from point mutations, current approaches [...]

Published

2016

2. Host-Guest Self-assembly in Block Copolymer Blends

Author

Massachusetts Institute of Technology. Department of Materials Science and Engineering, Kim, YongJoo, Alexander-Katz, Alfredo, Park, Woon Ik, Jeong, Jae Won, Kim, Kyungho, Yoo, Jung-Keun, Hur, Yoon Hyung, Kim, Jong Min, Thomas, Edwin L., Jung, Yeon Sik, Massachusetts Institute of Technology. Department of Materials Science and Engineering, Kim, YongJoo, Alexander-Katz, Alfredo, Park, Woon Ik, Jeong, Jae Won, Kim, Kyungho, Yoo, Jung-Keun, Hur, Yoon Hyung, Kim, Jong Min, Thomas, Edwin L., and Jung, Yeon Sik

Abstract

Ultrafine, uniform nanostructures with excellent functionalities can be formed by self-assembly of block copolymer (BCP) thin films. However, extension of their geometric variability is not straightforward due to their limited thin film morphologies. Here, we report that unusual and spontaneous positioning between host and guest BCP microdomains, even in the absence of H-bond linkages, can create hybridized morphologies that cannot be formed from a neat BCP. Our self-consistent field theory (SCFT) simulation results theoretically support that the precise registration of a spherical BCP microdomain (guest, B-b-C) at the center of a perforated lamellar BCP nanostructure (host, A-b-B) can energetically stabilize the blended morphology. As an exemplary application of the hybrid nanotemplate, a nanoring-type Ge[subscript 2]Sb[subscript 2]Te[subscript 5] (GST) phase-change memory device with an extremely low switching current is demonstrated. These results suggest the possibility of a new pathway to construct more diverse and complex nanostructures using controlled blending of various BCPs., United States. Dept. of Energy. Office of Basic Energy Sciences (Award DE-SC0001088)

Published

2014

3. Quasicrystalline phase-change memory.

Author

Lee ES, Yoo JE, Yoon DS, Kim SD, Kim Y, Hwang S, Kim D, Jeong HC, Kim WT, Chang HJ, Suh H, Ko DH, Cho C, Choi Y, Kim DH, and Cho MH

Abstract

Phase-change memory utilizing amorphous-to-crystalline phase-change processes for reset-to-set operation as a nonvolatile memory has been recently commercialized as a storage class memory. Unfortunately, designing new phase-change materials (PCMs) with low phase-change energy and sufficient thermal stability is difficult because phase-change energy and thermal stability decrease simultaneously as the amorphous phase destabilizes. This issue arising from the trade-off relationship between stability and energy consumption can be solved by reducing the entropic loss of phase-change energy as apparent in crystalline-to-crystalline phase-change process of a GeTe/Sb 2 Te 3 superlattice structure. A paradigm shift in atomic crystallography has been recently produced using a quasi-crystal, which is a new type of atomic ordering symmetry without any linear translational symmetry. This paper introduces a novel class of PCMs based on a quasicrystalline-to-approximant crystalline phase-change process, whose phase-change energy and thermal stability are simultaneously enhanced compared to those of the GeTe/Sb 2 Te 3 superlattice structure. This report includes a new concept that reduces entropic loss using a quasicrystalline state and takes the first step in the development of new PCMs with significantly low phase-change energy and considerably high thermal stability.

Published

2020

4. In vivo imaging of the hyaloid vascular regression and retinal and choroidal vascular development in rat eyes using optical coherence tomography angiography.

Author

Kim Y, Park JR, Hong HK, Han M, Lee J, Kim P, Woo SJ, Park KH, and Oh WY

Subjects

Animals, Female, Male, Rats, Rats, Sprague-Dawley, Vascular Endothelial Growth Factor A pharmacology, Choroid blood supply, Choroid diagnostic imaging, Fluorescein Angiography, Neovascularization, Physiologic, Retinal Vessels diagnostic imaging, Retinal Vessels growth & development, Tomography, Optical Coherence

Abstract

This study investigates the hyaloid vascular regression and its relationship to the retinal and choroidal vascular developments using optical coherence tomography angiography (OCTA). Normal and oxygen-induced retinopathy (OIR) rat eyes at postnatal day 15, 18, 21, and 24 were longitudinally imaged using OCTA. At each day, two consecutive imaging for visualizing the hyaloid vasculature and the retinal and choroidal vasculatures were conducted. The hyaloid vessel volume and the retinal and choroidal vessel densities were measured. The hyaloid vessel volumes gradually decreased during the regression, although the OIR eyes exhibited large vessel volumes at all time points. A spatial relationship between persistent hyaloid vasculature and retardation of underlying retinal vascular development was observed in the OIR eyes. Furthermore, anti-vascular endothelial growth factor (VEGF) was administered intravitreally to additional OIR eyes to observe its effect on the vascular regression and development. The VEGF injection to OIR eyes showed reduced persistent hyaloid vessels in the injected eyes as well as in the non-injected fellow eyes. This study presents longitudinal imaging of intraocular vasculatures in the developing eye and shows the utility of OCTA that can be widely used in studies of vascular development and regression and preclinical evaluation of new anti-angiogenic drugs.

Published

2020

5. The Cardiometabolic Burden of Self-Perceived Obesity: A Multilevel Analysis of a Nationally Representative Sample of Korean Adults.

Author

Kim Y, Austin SB, Subramanian SV, and Kawachi I

Subjects

Adult, Aged, Body Weight, Cardiovascular Diseases psychology, Cross-Sectional Studies, Female, Humans, Male, Metabolic Syndrome psychology, Middle Aged, Republic of Korea, Risk Factors, Young Adult, Cardiovascular Diseases etiology, Metabolic Syndrome etiology, Nutrition Surveys, Obesity complications, Obesity psychology, Self Concept, Weight Perception

Abstract

Emerging evidence has shown that self-perception of overweight/obese status is associated with unfavorable cardiometabolic outcomes, above and beyond actual body weight. Given the lack of research among Asian populations, we examined the association between weight perception and metabolic syndrome (MetS) and cardiometabolic risks among Koreans. Data from the 2010-2015 Korea National Health and Nutrition Examination Survey, including women (N = 12,181) and men (N = 9,448) aged 19-65 years, were analyzed. Weight status perception was measured by participants' self-evaluation of their body size ("very/slightly obese," "normal," and "very/slightly thin"). Overall, 23.2% of women and 28.7% of men had MetS. Our cross-sectional multilevel logistic analyses showed a significant positive association between self-perceived obesity (vs. perceived normal weight) and MetS, independent of BMI and sociodemographic/behavioral/medical conditions, with a stronger association detected among men (OR = 1.38, p < 0.05) than women (OR = 1.22, p < 0.05), confirmed by a statistically significant interaction. Additionally, perceived obesity was associated with high blood pressure (OR = 1.27, p < 0.05) and high triglycerides (OR = 1.38, p < 0.05) among men and low high-density lipoprotein cholesterol (OR = 1.15, p < 0.05) among women. While further prospective research is needed, our findings suggest that perception of being obese may be an unfavorable indicator of cardiometabolic health among Koreans regardless of actual body weight.

Published

2018

6. Host-guest self-assembly in block copolymer blends.

Author

Park WI, Kim Y, Jeong JW, Kim K, Yoo JK, Hur YH, Kim JM, Thomas EL, Alexander-Katz A, and Jung YS

Abstract

Ultrafine, uniform nanostructures with excellent functionalities can be formed by self-assembly of block copolymer (BCP) thin films. However, extension of their geometric variability is not straightforward due to their limited thin film morphologies. Here, we report that unusual and spontaneous positioning between host and guest BCP microdomains, even in the absence of H-bond linkages, can create hybridized morphologies that cannot be formed from a neat BCP. Our self-consistent field theory (SCFT) simulation results theoretically support that the precise registration of a spherical BCP microdomain (guest, B-b-C) at the center of a perforated lamellar BCP nanostructure (host, A-b-B) can energetically stabilize the blended morphology. As an exemplary application of the hybrid nanotemplate, a nanoring-type Ge2Sb2Te5 (GST) phase-change memory device with an extremely low switching current is demonstrated. These results suggest the possibility of a new pathway to construct more diverse and complex nanostructures using controlled blending of various BCPs.

Published

2013

7. Blue-coloured highly efficient dye-sensitized solar cells by implementing the diketopyrrolopyrrole chromophore.

Author

Yum JH, Holcombe TW, Kim Y, Rakstys K, Moehl T, Teuscher J, Delcamp JH, Nazeeruddin MK, and Grätzel M

Subjects

Color, Equipment Design, Equipment Failure Analysis, Light, Polymers radiation effects, Pyrroles radiation effects, Coloring Agents chemistry, Electric Power Supplies, Polymers chemistry, Pyrroles chemistry, Solar Energy

Abstract

The paradigm shift in dye sensitized solar cells (DSCs) - towards donor- π bridge-acceptor (D-π-A) dyes - increases the performances of DSCs and challenges established design principles. Framed by this shifting landscape, a series of four diketopyrrolopyrrole (DPP)-based sensitizers utilizing the donor-chromophore-anchor (D-C-A) motif were investigated computationally, spectroscopically, and fabricated by systematic evaluation of finished photovoltaic cells. In all cases, the [Co(bpy)3](3+/2+) redox-shuttle afforded superior performance compared to I3(-)/I(-). Aesthetically, careful molecular engineering of the DPP chromophore yielded the first example of a high-performance blue DSC - a challenge unmet since the inception of this photovoltaic technology: DPP17 yields over 10% power conversion efficiency (PCE) with the [Co(bpy)3](3+/2+) electrolyte at full AM 1.5 G simulated sun light.

Published

2013