Keuk-Min Jeong scite author profile

2,2′-Bis(thiophenyl)benzidine (BTPB) and 2,2′-bis(4-chlorothiophenyl)benzidine (BCTPB) were synthesized via a benzidine rearrangement reaction of the corresponding hydrazobenzene derivatives obtained after the reduction of (3-nitrophenyl)(phenyl)sulfane and (4-chlorophenyl)(3-nitrophenyl)sulfane, respectively. Transparent polyimides (PIs) with high refractive indices and small birefringences as well as good thermomechanical stabilities were synthesized by the conventional two-step thermal polycondensation of BTPB and BCTPB with five different dianhydrides in N-methyl-2-pyrrolidone. 3,3′,4,4′-Biphenyltetracarboxylic dianhydride (BPDA)/BCTPB PI, a fully aromatic and non-fluorinated PI, with a highly distorted noncoplanar conformation of the main chain was transparent and colorless with a transmittance of ∼83% and >88% at 450 nm and in the visible region, respectively. In addition, all six non-fluorinated sulfur-containing aromatic PIs exhibited high average refractive indices (1.7112–1.7339), and small birefringences (0.0007–0.0022) at 633 nm, because of the high atomic polarizability of sulfur and the rigid bulky molecular structure of BTPB and BCTPB. The more effective steric effect caused by bulky 4-chlorothiophenyl in BCTPB improved the optical transparency but decreased the average refractive indices of BCTPB-based PIs compared to BTPB-based PIs.

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Layer-by-layer assembly of graphene on polyimide films via thermal imidization and synchronous reduction of graphene oxide

Choi

Jeong

et al. 2017

Macromol. Res.

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Effect of Humidity on the Microstructures of Electrospun Polystyrene Nanofibers

Kim¹,

Lee²,

Shin³

et al. 2004

Microsc Microanal

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In recent years, many researchers have been studied and developed the nanofibers which have a large specific surface area and a small pore size. The polymer nanofibers are being used or finding uses in filtration, biomedical applications including wound dressings as structural elements in artificial organs, and reinforced composites. Thus these special needs have stimulated recent studies and renewed interest in the process, quantitative technical and scientific information regarding process and product characterization are extremely limited. The electrospinning can allow producing and encouraging the utilization of nanofibers. The surface morphology of e-spun fiber is affected by many variables that involve polymer concentration, applied voltage, spinning distance, air friction, gravity and ambient parameters. This study shows the effect of relative humidity on the microstructures of the e-spun Polystyrene (PS) fiber.A PS solution is prepared from PS pellet (Aldrich, molecular weight 170,000 g/mol) which is dissolved with Tetrahydrofuran and Dimethylformamide (Junsei Co.) in the ultrasonicator. The concentration of the PS solution was 7 weight%. The Spinning occurs from the droplet of solution protruding from the 0.7 mm internal diameter of the tip. A positive electric potential is applied to the polymer blend solution by attaching the lead to the variable high voltage power supply (Chungpa EMT Inc.). It was directly connected to the copper wire located in the inside of the solution. A drum collector covered with aluminum foil is placed 10 cm vertically from the tip of the syringe as a grounded collector. The relative humidity was changed with four steps from 10 to 70%. All experiments were performed at the constant temperature-humidity chamber. The surface morphology and the diameter of the e-spun fiber were investigated by the Scanning Electron Microscope (AMRAY model 1400), Atomic force Microscope (PSIA XE-100) and the image processor (GAIA Blue).The relative humidity has shown a great influence on the fiber diameter in terms of the analysis of SEM and measurement of fiber diameter which are given in FIG. 1 and TABLE 1. When the relative humidity was 10%, e-spun fibers have the average diameter of 130 nm (FIG. 1-a), but as the relative humidity increased to 70%, the fiber diameter gradually thickened to 380 nm (FIG. 1-d). The higher relative humidity makes thicker fiber because the higher electrostatic charge on the fiber surface has the opportunity to split the fibers more. Thus it results in producing thinner fibers in the travel of the fibers towards the target. In other words, the higher moisture can produce thicker fiber due to more discharge of electrostatics on the surface of the polymer solution.

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Highly transparent, organic-inorganic hybrid UV-curable coating materials with amphiphobic characteristics

Jeong

Nagappan

Min

et al. 2019

Progress in Organic Coatings

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Photoconductive polyimides derived from a novel imidazole-containing diamine

Jeong

Tapaswi

Kambara

et al. 2019

High Performance Polymers

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A new diamine containing an imidazole structure, 4,4′-(4,5-diphenyl-1H-imidazole-1,2-diyl)dianiline (DIMA), was synthesized to prepare photoconductive polyimides (PIs) with four types of dianhydrides such as 3,3′,4,4′-biphenyltetracarboxylic dianhydride, 4,4′-oxyduphthalic anhydride, 4,4′-(hexafluoroisopropylidene) diphthalic anhydride, and cyclobutane-1,2,3,4,-tetracarboxylic dianhydride, based on the fact that the imidazole ring is a useful n-type block with high electron-donating property and good thermal stability. The imidazole-containing diamine possesses high electron-donating properties due to the lone pair electrons at nitrogen, which affords a high hole-transport property. All the PIs prepared from DIMA were amorphous due to the large side group and kink structure of the diamine, optically transparent (transmittances of 92–98% at 450 nm), and exhibited high thermal stability (10% weight loss temperatures ranged 453–558°C).

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Keuk-Min Jeong

Transparent Aromatic Polyimides Derived from Thiophenyl-Substituted Benzidines with High Refractive Index and Small Birefringence

Layer-by-layer assembly of graphene on polyimide films via thermal imidization and synchronous reduction of graphene oxide

Effect of Humidity on the Microstructures of Electrospun Polystyrene Nanofibers

Highly transparent, organic-inorganic hybrid UV-curable coating materials with amphiphobic characteristics

Photoconductive polyimides derived from a novel imidazole-containing diamine

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