Tae-Hyung Kim scite author profile

Microphase-separated block copolymers were introduced as melts into nanoscopic cylindrical pores in alumina membranes via capillary action. The geometric confinement of both lamellar and cylindrical microdomain morphologies of styrene/butadiene block copolymers, PS-b-PBD, was investigated by transmission electron microscopy. Well-developed microphase-separated structures were formed within the resulting nanorods. Polymers that exhibit cylindrical microdomains in the bulk orient with cylindrical microdomains along the nanorod axis due to the preferential segregation of the PBD block to the walls of the pores. The period and packing of the microdomains differ from those observed in the bulk due to an incommensurability between the pore geometry and the natural period and hexagonal packing of the copolymer microdomains. With polymers exhibiting bulk lamellar morphology, confinement forces the formation of concentric cylinders oriented along the nanorod axis. The number of concentric cylinders depends on the ratio of the nanorod diameter to the equilibrium period of the copolymer. Because of the preferential segregation of PBD at the alumina surface, either PBD or PS can form the central core. These results indicate a method by which copolymer microdomains can be manipulated in a simple manner for the fabrication of isolated nanostructures.

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Curving and Frustrating Flatland

Shin

Xiang

Moon

et al. 2004

Science

342

330

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Two polymer chains that occupy equal volumes when covalently linked together at one end self-assemble into an alternating lamellar morphology that has a characteristic period dictated by the molecular weight. When such copolymers are confined within alumina membranes that have cylindrical pores with diameters comparable to the repeat period, the interaction of the blocks with the confining walls and the imposed curvature induces a morphological transformation to relieve the constraints. Here, we show a lamella-to-toroid transition, captured through the dissolution of the surrounding membrane.

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Comparison of World Health Organization and Asia-Pacific body mass index classifications in COPD patients

Lim

Lee

Kim

et al. 2017

COPD

412

248

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IntroductionA low body mass index (BMI) is associated with increased mortality and low health-related quality of life in patients with COPD. The Asia-Pacific classification of BMI has a lower cutoff for overweight and obese categories compared to the World Health Organization (WHO) classification. The present study assessed patients with COPD among different BMI categories according to two BMI classification systems: WHO and Asia-Pacific.Patients and methodsPatients with COPD aged 40 years or older from the Korean COPD Subtype Study cohort were selected for evaluation. We enrolled 1,462 patients. Medical history including age, sex, St George’s Respiratory Questionnaire (SGRQ-C), the modified Medical Research Council (mMRC) dyspnea scale, and post-bronchodilator forced expiratory volume in 1 second (FEV1) were evaluated. Patients were categorized into different BMI groups according to the two BMI classification systems.ResultFEV1 and the diffusing capacity of the lung for carbon monoxide (DLCO) percentage revealed an inverse “U”-shaped pattern as the BMI groups changed from underweight to obese when WHO cutoffs were applied. When Asia-Pacific cutoffs were applied, FEV1 and DLCO (%) exhibited a linearly ascending relationship as the BMI increased, and the percentage of patients in the overweight and obese groups linearly decreased with increasing severity of the Global Initiative for Chronic Obstructive Lung Disease criteria. From the underweight to the overweight groups, SGRQ-C and mMRC had a decreasing relationship in both the WHO and Asia-Pacific classifications. The prevalence of comorbidities in the different BMI groups showed similar trends in both BMI classifications systems.ConclusionThe present study demonstrated that patients with COPD who have a high BMI have better pulmonary function and health-related quality of life and reduced dyspnea symptoms. Furthermore, the Asia-Pacific BMI classification more appropriately reflects the correlation of obesity and disease manifestation in Asian COPD patients than the WHO classification.

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Tae-Hyung Kim

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Efficient and stable blue quantum dot light-emitting diode

Block Copolymers under Cylindrical Confinement

Curving and Frustrating Flatland

Comparison of World Health Organization and Asia-Pacific body mass index classifications in COPD patients

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