Your search keyword '"Chang KJ"' showing total 29 results

1. Large-Gap and Topological Crystalline Insulating Phase in RbZnBi and CsZnBi.

Author

Lee H, Han MJ, and Chang KJ

Abstract

Topological insulators (TIs) are a new class of materials with gapless boundary states inside the bulk insulating gap. This metallic boundary state hosts intriguing phenomena such as helical spin textures and Dirac crossing points. Here, we theoretically propose RbZnBi and CsZnBi as a new family of TIs exhibiting large bulk band gaps and unique gapless surface states. Our first-principles density functional calculations show that two materials can be stabilized in two different structures depending on the stacking order of hexagonal ZnBi layers. While both materials in the AA-stacked structure become TI, the AB-stacked RbZnBi and CsZnBi are topological crystalline insulators with hourglass-shaped Fermion surface states protected by nonsymmorphic glide symmetry. The calculated bulk gap is about 1.5-1.8 times larger than that of Bi 2 Se 3 , which makes RbZnBi and CsZnBi promising candidates for future applications., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published

2024

2. Rational Design of High-Performance Cationic Organic Network Adsorbents.

Author

Li ZJ, Liu JY, Yu Y, Chang KJ, Wang H, Li YJ, and Gai K

Abstract

Development of high-performance ionic organic network (ION) adsorbents is of great importance for water remediation. However, the research on IONs is still nascent, especially, the design philosophy regarding contaminant adsorption has rarely been explored. In this contribution, we optimized the adsorption efficiency of IONs by increasing the density of charged sites and improving their accessibility. We first produced a new cationic organic network (CON), CON-LDU4 , with a high density of positive sites via synthesis from tetra(4-pyridyl)ethene. Compared to the analogue CON-LDU2 that synthesized from tetra(4-(4-pyridyl)phenyl)ethene, CON-LDU4 exhibited higher efficiency in adsorption of methyl blue, indicating that the higher ionic density results in the higher adsorption efficiency. To further improve the accessibility of the active sites, another new CON material ( CON-LDU5 ) was synthesized by employing a hard template. CON-LDU5 exhibited a larger specific surface area than CON-LDU4 , with clearly enhanced adsorption efficiency. Finally, CON-LDU5 was used to capture CrO 4 2- ions in water with fast adsorption kinetics ( k 2 = 0.0328 g mg -1 min -1 ) and high adsorption capacity (369 mg g -1 ).

Published

2022

3. Highly Ordered Polymer Nanostructures via Solvent On-Film Annealing for Surface-Enhanced Raman Scattering.

Author

Chang KJ, Chen HR, Hung CH, Hung PS, Tseng HF, Lin YL, Hsu HH, Kao TH, Wu PW, Liau I, and Chen JT

Abstract

Surface-enhanced Raman scattering (SERS) has been a useful sensing technique, in which inelastic light scattering can be significantly enhanced by absorbing molecules onto rough metal surfaces or nanoparticles. Although many methods have been developed to prepare SERS substrates, it is still highly desirable and challenging to design SERS substrates, especially with highly ordered and controlled three-dimensional (3D) structures. In this work, we develop novel SERS substrates with regular volcano-shaped polymer structures using the versatile solvent on-film annealing method. Polystyrene (PS) nanospheres are first synthesized by surfactant-free emulsion polymerization and assembled on poly(methyl methacrylate) (PMMA) films. After annealing in acetic acid vapors, PMMA chains are selectively swollen and wet the surfaces of the PS nanospheres. By selectively removing the PS nanospheres using cyclohexane, volcano-shaped PMMA films can be obtained. Compared with flat PMMA films with water contact angles of ∼74°, volcano-shaped PMMA films exhibit higher water contact angles of ∼110° due to the sharp features and rough surfaces. The volcano-shaped PMMA films are then coated with gold nanoparticles (AuNPs) as SERS substrates. Using rhodamine 6G as the probe molecules, the SERS results show that the Raman signals of the volcano-shaped PMMA/AuNP hybrid substrates are much higher than those of the pristine PMMA films and PMMA films with AuNPs. For the volcano-shaped PMMA/AuNP hybrid substrates using 400 nm PS nanospheres, a high enhancement factor (EF) value of ∼1.12 × 10 5 with a detection limit of 10 -8 M is obtained in a short integration time of 1 s. A linear calibration line with an R 2 value of 0.918 is also established, demonstrating the ability to determine the concentrations of the analytes. This work offers significant insight into developing novel SERS substrates, which is crucial for improving the detection limits of analytes.

Published

2022

4. Solid-State Carbon-Doped GaN Schottky Diodes by Controlling Dissociation of the Graphene Interlayer with a Sputtered AlN Capping Layer.

Author

Ke WC, Tesfay ST, Seong TY, Liang ZY, Chiang CY, Chen CY, Son W, Chang KJ, and Lin JC

Abstract

Carbon-doped GaN (GaN:C) Schottky diodes are prepared by controlling the destruction status of the graphene interlayer (GI) on the substrate. The GI without a sputtered AlN capping layer (CL) was destroyed because of ammonia precursor etching behavior in a high-temperature epitaxy. The damaged GI, like nanographite as a solid-state carbon doping source, incorporated the epitaxial growth of the GaN layer. The secondary ion mass spectroscopy depth profile indicated that the carbon content in the GaN layer can be tuned further by optimizing the sputtering temperature of AlN CL because of the better capping ability of high crystalline quality AlN CL on GI being achieved at higher temperature. The edge-type threading dislocation density and carbon concentration of the GaN:C layer with an embedded 550 °C-grown AlN CL on a GI substrate can be significantly reduced to 2.28 × 10 9 cm -2 and ∼2.88 × 10 18 cm -3 , respectively. Thus, a Ni-based Schottky diode with an ideality factor of 1.5 and a barrier height of 0.72 eV was realized on GaN:C. The series resistance increased from 28 kΩ at 303 K to 113 kΩ at 473 K, while the positive temperature coefficient (PTC) of series resistance was ascribed to the carbon doping that induced the compensation effect and lattice scattering effect. The decrease of the donor concentration was confirmed by temperature-dependent capacitance-voltage ( C - V - T ) measurement. The PTC characteristic of GaN:C Schottky diodes created by dissociating the GI as a carbon doping source should allow for the future use of high-voltage Schottky diodes in parallel, especially in high-temperature environments.

Published

2019

5. Cyclical Annealing Technique To Enhance Reliability of Amorphous Metal Oxide Thin Film Transistors.

Author

Chen HC, Chang TC, Lai WC, Chen GF, Chen BW, Hung YJ, Chang KJ, Cheng KC, Huang CS, Chen KK, Lu HH, and Lin YH

Abstract

This study introduces a cyclical annealing technique that enhances the reliability of amorphous indium-gallium-zinc-oxide (a-IGZO) via-type structure thin film transistors (TFTs). By utilizing this treatment, negative gate-bias illumination stress (NBIS)-induced instabilities can be effectively alleviated. The cyclical annealing provides several cooling steps, which are exothermic processes that can form stronger ionic bonds. An additional advantage is that the total annealing time is much shorter than when using conventional long-term annealing. With the use of cyclical annealing, the reliability of the a-IGZO can be effectively optimized, and the shorter process time can increase fabrication efficiency.

Published

2018

6. Prediction of Green Phosphorus with Tunable Direct Band Gap and High Mobility.

Author

Han WH, Kim S, Lee IH, and Chang KJ

Abstract

Black phosphorus is an emerging material in nanoelectronics and nanophotonics due to its high carrier mobility and anisotropic in-plane properties. In addition, the polymorphism of phosphorus leads to numerous searches for new allotropes that are more attractive than black phosphorus in a variety of applications. On the basis of ab initio evolutionary crystal structure search computation, we report the prediction of a phosphorus allotrope called green phosphorus (λ-P), which exhibits direct band gaps ranging from 0.7 to 2.4 eV and strong anisotropy in optical and transport properties. Free-energy calculations show that a single-layer form, termed green phosphorene, is energetically more stable than blue phosphorene, and a phase transition from black to green phosphorene can occur at temperatures above 87 K. We suggest that green phosphorene can be synthesized on corrugated metal surfaces rather than clean surfaces due to its buckled structure, providing guidance to achieving epitaxial growth.

Published

2017

7. Long-Range Lattice Engineering of MoTe 2 by a 2D Electride.

Author

Kim S, Song S, Park J, Yu HS, Cho S, Kim D, Baik J, Choe DH, Chang KJ, Lee YH, Kim SW, and Yang H

Abstract

Doping two-dimensional (2D) semiconductors beyond their degenerate levels provides the opportunity to investigate extreme carrier density-driven superconductivity and phase transition in 2D systems. Chemical functionalization and the ionic gating have achieved the high doping density, but their effective ranges have been limited to ∼1 nm, which restricts the use of highly doped 2D semiconductors. Here, we report on electron diffusion from the 2D electride [Ca 2 N] + ·e - to MoTe 2 over a distance of 100 nm from the contact interface, generating an electron doping density higher than 1.6 × 10 14 cm -2 and a lattice symmetry change of MoTe 2 as a consequence of the extreme doping. The long-range lattice symmetry change, suggesting a length scale surpassing the depletion width of conventional metal-semiconductor junctions, was a consequence of the low work function (2.6 eV) with highly mobile anionic electron layers of [Ca 2 N] + ·e - . The combination of 2D electrides and layered materials yields a novel material design in terms of doping and lattice engineering.

Published

2017

8. Study of Protein Dynamics under Nanoconfinement by Spin-Label ESR: A Case of T4 Lysozyme Protein.

Author

Chang KJ, Kuo YH, and Chiang YW

Subjects

Crystallography, X-Ray, Electron Spin Resonance Spectroscopy, Models, Molecular, Muramidase isolation & purification, Muramidase metabolism, Spin Labels, Bacteriophage T4 enzymology, Muramidase chemistry

Abstract

The electron spin resonance (ESR) spectra of spin-labeled proteins are sensitive to dynamics, but discrimination between the various dynamics is often difficult. Here, we report an improvement in ESR spectral sensitivity to local backbone dynamics of a protein by a methodology that performs ESR measurement when the protein is confined in the nanochannels of a mesoporous material. An extensive set of ESR data, which includes the spectra of a nitroxide-based side chain from buried and solvent-exposed sites of a T4 lysozyme (T4L) protein, were obtained over a range of temperatures, 200-300 K, to explore the dynamics of T4L under nanoconfinement. Spectra were simulated by performing theoretical fits to the data using the microscopic ordering with macroscopic disordering model. Two principle dynamic modes, which differ in mobility and ordering, are required to account for the spectra at temperatures >240 K. We show that the mobile one correlates only with the local backbone dynamics of buried sites, whereas the other reflects the difference in local hydration dynamics between the labeling sites in T4L. The assignment of the mobile component is supported by the X-ray crystallography data of T4L. Collectively, this study has demonstrated the validity of such a methodology for improving ESR sensitivity to buried sites in a protein.

Published

2017

9. Evidence for an Induced-Fit Process Underlying the Activation of Apoptotic BAX by an Intrinsically Disordered BimBH3 Peptide.

Author

Jhong SR, Li CY, Sung TC, Lan YJ, Chang KJ, and Chiang YW

Subjects

Kinetics, Models, Molecular, Peptides chemistry, bcl-2-Associated X Protein chemistry, Apoptosis, Bcl-2-Like Protein 11 chemistry, Bcl-2-Like Protein 11 metabolism, Peptides metabolism, bcl-2-Associated X Protein metabolism

Abstract

Apoptotic BAX protein functions as a critical gateway to mitochondria-mediated apoptosis. A diversity of stimuli has been implicated in initiating BAX activation, but the triggering mechanism remains elusive. Here we study the interaction of BAX with an intrinsically disordered BH3 motif of Bim protein (BimBH3) using ESR techniques. Upon incubation with BAX, BimBH3 binds to BAX at helices 1/6 trigger site to initiate conformational changes of BAX, which in turn promotes the formation of BAX oligomers. The study strategy is twofold: while BAX oligomerization was monitored through spectral changes of spin-labeled BAX, the binding kinetics was studied by observing time-dependent changes of spin-labeled BimBH3. Meanwhile, conformational transition between the unstructured and structured BimBH3 was measured. We show that helical propensity of the BimBH3 is increased upon binding to BAX but is then reduced after being released from the activated BAX; the release is due to the BimBH3-induced conformational change of BAX that is a prerequisite for the oligomer assembling. Intermediate states are identified, offering a key snapshot of the coupled folding and binding process. Our results provide a quantitative mechanistic description of the BAX activation and reveal new insights into the mechanism underlying the interactions between BAX and BH3-mimetic peptide.

Published

2016

10. Comparative analysis of antioxidant activity and functional components of the ethanol extract of lotus (Nelumbo nucifera) from various growing regions.

Author

Zhao X, Shen J, Chang KJ, and Kim SH

Subjects

Alkaloids analysis, Asia, Ethanol chemistry, Food, Preserved analysis, Food, Preserved economics, Functional Food economics, Internet, Nelumbo growth & development, Rhizome growth & development, Seeds growth & development, Solvents chemistry, Water analysis, Antioxidants analysis, Functional Food analysis, Nelumbo chemistry, Phytochemicals analysis, Plant Extracts chemistry, Rhizome chemistry, Seeds chemistry

Abstract

The variations in antioxidant activity and concentration of functional components in the ethanol extracts of lotus seeds and rhizomes based on the growing region and dryness were investigated. Free radical scavenging activity, total phenolic and flavonoid content, and concentration of several specific flavonoids and alkaloids in the ethanol extracts of lotus were measured. Antioxidant activity and its correlative total phenolic content varied characteristically depending on the growing region and dryness. High-perfomance liquid chromatography analysis showed that the ethanol extracts of lotus seeds from Vietnam (Ho Chi Minh City), raw rhizomes from Korea (Siheung), and dried rhizomes from Japan (Nigata) had the greatest specific flavonoid content. The ethanol extracts of seeds from China (Hubei), raw rhizomes from Japan (Nigata), and dried rhizomes from Korea (Siheung) had the greatest specific alkaloid content. Astragaline, rutin, isoquercetin, nuciferine, dauricine, isoliensinine, and neferine were identified in lotus rhizomes for the first time in this study.

Published

2014

11. Analysis of fatty acids and phytosterols in ethanol extracts of Nelumbo nucifera seeds and rhizomes by GC-MS.

Author

Zhao X, Shen J, Chang KJ, and Kim SH

Subjects

Ethanol, Hexanes, Linoleic Acid analysis, Oleic Acid analysis, Palmitic Acid analysis, Rhizome chemistry, Sitosterols analysis, Fatty Acids analysis, Nelumbo chemistry, Phytosterols analysis, Plant Extracts chemistry, Seeds chemistry

Abstract

The purpose of this study was to investigate the fatty acid and phytosterol contents in ethanol extracts of lotus seeds and rhizomes. These ethanol extracts were extracted with hexane. The hexane extracts were hydrolyzed in a microwave reactor, and total fatty acids and phytosterols were analyzed. The hexane extracts were also subjected to silica gel column chromatography. Nonpolar components (triglycerides and steryl-fatty acid esters) were hydrolyzed, and then the contents were analyzed. Polar components (diglycerides, monoglycerides, fatty acids, and phytosterols) were analyzed directly. Seeds contained higher concentrations of fatty acids and phytosterols compared to rhizomes. Linoleic acid, palmitic acid, and oleic acid were the main fatty acid components in seeds and rhizomes, and most of them in seeds were in the ester form. In seeds, phytosterols existed mainly in the free form rather than in steryl-fatty acid ester form. β-Sitosterol was the most abundant phytosterol in seeds and rhizomes.

Published

2013

12. Stability and segregation of B and P dopants in Si/SiO2 core-shell nanowires.

Author

Kim S, Park JS, and Chang KJ

Abstract

Using molecular dynamics simulations, we generate realistic atomic models for oxidized Si nanowires which consist of a crystalline Si core and an amorphous SiO(2) shell. The amorphous characteristics of SiO(2) are well reproduced, as compared to those for bulk amorphous silica. Based on first-principles density functional calculations, we investigate the stability and segregation of B and P dopants near the radial interface between Si and SiO(2). Although substitutional B atoms are more stable in the core than in the oxide, B dopants can segregate to the oxide with the aid of Si self-interstitials which are generated during thermal oxidation. The segregation of B dopants occurs in the form of B interstitials in the oxide, leaving the self-interstitials in the Si core. In the case of P dopants, dopant segregation to the oxide is unfavorable even in the presence of self-interstitials. Instead, we find that P dopants tend to aggregate in the Si region near the interface and may form nearest-neighbor donor pairs, which are energetically more stable than isolated P dopants.

Published

2012

13. Effect of dimensionality on the localization behavior in hydrogenated graphene systems.

Author

Choe DH and Chang KJ

Abstract

Recently, several experiments have shown that graphene exhibits a metal-to-insulator transition by hydrogenation. Here we theoretically study the transport properties of hydrogenated graphene and graphene nanoribbons (GNRs), focusing on the conductance fluctuation behavior in the localized regime. Using a simple model for the conductance distribution in the quasi-localized regime where the conventional theory fails, we derive the modified single parameter scaling (SPS) relations for quasi-one-dimensional (Q1D) GNRs as well as two-dimensional (2D) graphene. We show that, as the dimensional crossover occurs from 2D to Q1D, the shape of the conductance distribution evolves from a positively skewed distribution to a log-normal distribution. We predict that GNRs with widths much larger than the localization lengths do not behave as a Q1D system. Our results provide fundamental insights into the dimensionality change not only in graphene, but also in general mesoscopic systems in the localized regime.

Published

2012

14. Structure-induced ferromagnetic stabilization in free-standing hexagonal Fe(1.3)Ge nanowires.

Author

Yoon H, Lee AT, Choi EA, Seo K, Bagkar N, Cho J, Jo Y, Chang KJ, and Kim B

Abstract

Single-crystalline free-standing hexagonal Fe(1.3)Ge nanowires (NWs) are synthesized for the first time using a chemical vapor transport process without using any catalyst. Interestingly, Fe(1.3)Ge NWs are found to be ferromagnetic at room temperature, while bulk Fe(1.3)Ge has the lower critical temperature of 200 K. We perform first-principles density functional calculations and suggest that the observed strong ferromagnetism is attributed to the reduced distances between Fe atoms, increased number of Fe-Fe bonds, and the enhanced Fe magnetic moments. Both experimental and theoretical studies show that the magnetic moments are enhanced in the NWs, as compared to bulk Fe(1.3)Ge. We also modulate the composition ratio of as-grown iron germanide NWs by adjusting experimental conditions. It is shown that uniaxial strain on the hexagonal plane also enhances the ferromagnetic stability.

Published

2010

15. Defects responsible for the hole gas in Ge/Si core-shell nanowires.

Author

Park JS, Ryu B, Moon CY, and Chang KJ

Abstract

The origin of the ballistic hole gas recently observed in Ge/Si core-shell nanowires has not been clearly resolved yet, although it is thought to be the result of the band offset at the radial interface. Here we perform spin-polarized density-functional calculations to investigate the defect levels of surface dangling bonds and Au impurities in the Si shell. Without any doping strategy, we find that Si dangling bond and substitutional Au defects behave as charge traps, generating hole carriers in the Ge core, while their defect levels are very deep in one-component Si nanowires. The defect levels lie to within 10 meV from or below the valence band edge for nanowires with diameters larger than 33 A and the Ge fractions above 30%. As carriers are spatially separated from charge traps, scattering is greatly suppressed, leading to the ballistic conduction, in good agreement with experiments.

Published

2010

16. Formation of dopant-pair defects and doping efficiency in B- and P-doped silicon nanowires.

Author

Moon CY, Lee WJ, and Chang KJ

Subjects

Crystallization, Hydrogen chemistry, Molecular Conformation, Nanoparticles, Nanostructures chemistry, Oxygen chemistry, Nanotechnology methods, Nanowires chemistry, Silicon chemistry

Abstract

First-principles calculations are performed to investigate the stability of dopant-related defects and the dependence of doping efficiency on wire diameter and orientation in hydrogen-passivated silicon nanowires doped with B and P dopants. As the diameter decreases below a critical value, it is energetically more favorable for donor atoms to form donor-pair defects, which consist of two donors separated at the nearest-neighbor distance. While donor-pair defects are unstable in bulk Si, the stability of these defects is greatly enhanced because of the confinement effect in nanostructures, which leads to the increase of band gap and thereby the shallow level of a substitutional donor. As donor-pair defects are electrically inactive defects, the doping efficiency is expected to be suppressed in small-diameter wires, regardless of the presence of surface or interface dangling-bond defects which were previously proposed to be the compensating defects. In the case of B dopants, the formation of pair defects is unfavorable against shallow acceptor levels, in contrast to n-type dopants, without affecting the doping efficiency.

Published

2008

17. Targeting therapy for breast carcinoma by ATP synthase inhibitor aurovertin B.

Author

Huang TC, Chang HY, Hsu CH, Kuo WH, Chang KJ, and Juan HF

Subjects

Apoptosis drug effects, Aurovertins pharmacology, Breast Neoplasms enzymology, Breast Neoplasms pathology, Cell Line, Cell Line, Tumor, Cell Proliferation drug effects, Cell Survival drug effects, Enzyme Inhibitors pharmacology, Enzyme Inhibitors therapeutic use, Female, Humans, Inhibitory Concentration 50, Membrane Proteins analysis, Membrane Proteins metabolism, Mitochondrial Proton-Translocating ATPases analysis, Mitochondrial Proton-Translocating ATPases metabolism, Models, Molecular, Resveratrol, Stilbenes pharmacology, Up-Regulation drug effects, Aurovertins therapeutic use, Breast Neoplasms drug therapy, Mitochondrial Proton-Translocating ATPases antagonists & inhibitors

Abstract

Targeting of tumor tissues is one of the most powerful approaches to accelerate the efficiency of anticancer treatments. The investigation of effective targets, including proteins specifically and abundantly expressed in abnormal regions, has been one of the most important research topics in cancer therapy. In this study, we performed a proteomic analysis on human breast carcinoma tissues to investigate the tumor-specific protein expression in breast carcinoma. Our study showed that ATP synthase was up-regulated in tumor tissues and was present on the plasma membrane of breast cancer cells. Furthermore, we treated the breast cancer cells with ATP synthase inhibitors and examined the inhibitory efficiency. Aurovertin B, an ATP synthase inhibitor, has strong inhibition on the proliferation of several breast cancer cell lines, but little influence on the normal cell line MCF-10A. Aurovertin B inhibits proliferation of breast cancer cells by inducing apoptosis and arresting cell cycle at the G0/G1 phase. This study showed aurovertin B can be used as an antitumorigenic agent and may be exploited in cancer chemotherapy.

Published

2008

18. Oligoindole-based foldamers with a helical conformation induced by chloride.

Author

Chang KJ, Kang BN, Lee MH, and Jeong KS

Abstract

As a new type of foldamers, oligoindoles containing 4, 6, and 8 indole rings were synthesized, and their folding properties were characterized by a combination of 1H NMR techniques and UV/visible titration experiments. When chloride was added, the NH signals of the oligoindoles were downfield shifted as a result of hydrogen-bond formation, and the aromatic signals were upfield shifted by stacking between two indoles. Moreover, the ROESY experiment provided definitive NOE evidence for the helical stacking in the presence of chloride. Finally, the UV/visible titration experiments demonstrated that the oligoindoles formed 1:1 complexes with chloride, and the association constants greatly increased with increasing the number of the indole NHs. These observations are all consistent with the fact that oligoindoles adopt a helical conformation when complexed with chloride by hydrogen-bonding interactions.

Published

2005

19. Unusual palladium-catalyzed silaboration of allenes using organic iodides as initiators: mechanism and application.

Author

Chang KJ, Rayabarapu DK, Yang FY, and Cheng CH

Abstract

A highly regio- and stereoselective method for the synthesis of various 2-silylallylboronates 7 from allenes 1 and 2-(dimethylphenylsilanyl)-4,4,5,5-tetramethyl[1,3,2]dioxaborolane (5) catalyzed by palladium complexes and initiated by organic iodides is described. Treatment of monosubstituted aryl and alkylallenes RCH=C=CH(2) (1a-m) and 1,1-dimethylallene (1n) with borylsilane 5 in the presence of Pd(dba)(2) (5 mol %) and organic iodide 3a (10 mol %) afforded the corresponding silaboration products 7a-n in moderate to excellent yields. This catalytic silaboration is totally regioselective with the silyl group of 5adding to the central carbon and the boryl group to the unsubstituted terminal carbon of allene. Furthermore, the reactions show very high E stereoselectivity with the Z/E ratios lying in the range from 1/99 to 7/93. In the absence of an organic iodide, silaboration of 1 with 5 still proceeds, but gives products having completely different regiochemistry as that of 7. The silaboration chemistry can be applied to the synthesis of homoallylic alcohols. Treatment of allenes (1) with borylsilane 5 and aldehydes 14 in the presence of Pd(dba)(2) (5 mol %) and 3a (10 mol %) at 80 degrees C in ethyl acetate for 5 h afforded homoallylic alcohols 15a-p in one pot in good to excellent yields, with exceedingly high syn selectivity (>93%). Mechanistic pathways involving an unusual palladium-catalyzed three-component assembling reaction of dimethylphenylsilyl iodide, allene 1, and borylsilane 5 were proposed to account for these catalytic reactions.

Published

2005

20. Reversible control of assembly and disassembly of interlocked supermolecules.

Author

Chang KJ, An YJ, Uh H, and Jeong KS

Abstract

Two kinds of interlocked supramolecular complexes that display stimulus-responsive assembly and disassembly have been described. One is a pseudorotaxane driven by hydrogen-bonding interactions between rings 2a and 2b and rods 1a and 1b. The rods contain a binding site for the ring as well as a stimulus-responsive diazo group, both of which are conformationally constrained in parallel by connecting them to a rigid xanthene skeleton. The trans isomer of 1a bearing a rigid binding site cannot form the pseudorotaxanes with the rings 2a and 2b because the neighboring diazophenyl group sterically shields the binding site. However, when trans-1a was converted to the corresponding cis-1a by UV light, the pseudorotaxanes are immediately formed with association constants of 70 +/- 10 M(-1) and (1.1 +/- 0.1) x 10(3) M(-1) for 2a and 2b, respectively, in CDCl3 at 24 +/- 1 degrees C. The pseudorotaxanes are completely disassembled into their molecular component when heated at 80-85 degrees C for 20 min. The assembly and disassembly processes can be reversibly cycled by repeating irradiation and heating alternatively. In the case of the rod 1b that possesses a flexible binding site, both cis and trans isomers can form the corresponding pseudorotaxanes with association constants of (2.0 +/- 0.3) x 10(2) M(-1) for 2a and trans-1b and of (7.4 +/- 0.5) x 10(2) M(-1) for 2a and cis-1b in CDCl3 at 24 +/- 1 degrees C. In this system, therefore, external stimuli can modulate the relative distribution of the pseudorotaxane and its components. Finally, the work was extended to the construction of a kinetically more stable molecular machine based on a rotaxane-like complex 10.11 between a metallocycle 11 and a dumbbell 10. In this system, the complex and its components showed separate sets of the signals, not the averaged, in 1H NMR spectroscopy as expected by the increased kinetic stability., (Copyright 2004 American Chemical Society)

Published

2004

21. Cobalt-catalyzed regioselective carbocyclization reaction of o-iodophenyl ketones and aldehydes with alkynes, acrylates, and acrylonitrile: a facile route to indenols and indenes.

Author

Chang KJ, Rayabarapu DK, and Cheng CH

Abstract

An efficient cobalt-catalyzed carbocylization for the synthesis of indenols and indenes and a new method for reductive decyanation are described. 2-Iodophenyl ketones and aldehydes 1a-g undergo carbocyclization with various disubstituted alkynes 2a-k in the presence of Co(dppe)I(2) and zinc powder in acetonitrile at 80 degrees C for 3 h to afford the corresponding indenol derivatives 3a-s and4a-m in good to excellent yields. For some unsymmetrical alkynes, the carbocyclization was remarkably regioselective, affording a single regioisomer. The cobalt-catalyzed carbocyclization reaction was successfully extended to the synthesis of indene derivatives. Thus, the reaction of 2-iodophenyl ketones and aldehydes (1) with acrylates H(2)C=CHCO(2)R (7a-d) and acrylonitrile H(2)C=CHCN (7e) proceeds smoothly in the presence of Co(dppe)Cl(2)/dppe and zinc powder in acetonitrile at 80 degrees C for 24 h to afford the corresponding indenes 8a-k and 9a-c in moderate to good yields. Interestingly, when 7e was employed for the carbocylization, reductive decyanation also occurred to give an indene derivative without the cyano functionality. A possible mechanism for this cobalt-catalyzed carbocyclization reaction is also proposed.

Published

2004

22. Efficient modulation of hydrogen-bonding interactions by remote substituents.

Author

Chang SY, Kim HS, Chang KJ, and Jeong KS

Abstract

[structure: see text] A series of tetralactam macrocycles having different substituents were prepared, and their binding affinities for an adipamide guest were investigated in CDCl3 by 1H NMR titrations. The association constants strongly depend on the substituents, varying up to DeltaDeltaG = 3.4 kcal/mol; electron-donating substituents (OMe, NMe2) decrease the binding affinity, while electron-withdrawing groups (Cl, NO2) increase it. These large substituent effects have been rationalized by secondary repulsions and partial perturbations of intramolecular hydrogen bonds.

Published

2004

23. Cobalt-catalyzed carbocyclization of o-iodobenzaldehydes and o-iodophenylketones with alkynes.

Author

Chang KJ, Rayabarapu DK, and Cheng CH

Abstract

[reaction: see text] Treatment of various o-iodobenzaldehydes and o-iodophenyl ketones with alkynes in the presence of Co(dppe)I(2) and Zn powder in acetonitrile at 80 degrees C afforded the corresponding indenols in moderate to excellent yields with exceedingly high regioselectivity. For most unsymmetrical alkynes tested, the carbocyclization gave a single regioisomer.

Published

2003

24. Mitochondrial form of a tRNA synthetase can be made bifunctional by manipulating its leader peptide.

Author

Wang CC, Chang KJ, Tang HL, Hsieh CJ, and Schimmel P

Subjects

Cloning, Molecular methods, Codon, Initiator genetics, Culture Media, Cytoplasm enzymology, Cytoplasm genetics, Gene Targeting methods, Genetic Complementation Test, Mitochondria genetics, Multienzyme Complexes biosynthesis, Multienzyme Complexes deficiency, Protein Engineering methods, Protein Sorting Signals physiology, Saccharomyces cerevisiae enzymology, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae growth & development, Saccharomyces cerevisiae Proteins biosynthesis, Sequence Deletion, Valine-tRNA Ligase biosynthesis, Valine-tRNA Ligase deficiency, Mitochondria enzymology, Multienzyme Complexes chemistry, Multienzyme Complexes genetics, Protein Sorting Signals genetics, Saccharomyces cerevisiae Proteins chemistry, Saccharomyces cerevisiae Proteins genetics, Valine-tRNA Ligase chemistry, Valine-tRNA Ligase genetics

Abstract

Previous studies showed that yeast VAS1 encodes both the cytoplasmic and mitochondrial forms of valyl-tRNA synthetase (ValRS), using alternative transcription and translation. The ValRS isoforms have identical polypeptide sequences, except for a 46-amino acid leader peptide that functions as a mitochondrial targeting signal. Although the two forms of the enzyme exhibit indistinguishable tRNA specificities in vitro, they cannot substitute for each other in vivo because of their different localizations. Here we show that the 46-residue leader sequence can be divided into two nonoverlapping peptides, each of which retains the ability to target the enzyme into mitochondria. The engineered proteins (with truncated leader sequences) are dual-targeted, rescuing both the cytoplasmic and mitochondrial defects of a vas1 knockout strain. Thus, in addition to alternative splicing and alternative translation initiation as mechanisms by which a single gene can encode cytoplasmic and mitochondrial activities, the inherent characteristics of a single polypeptide may enable it to be distributed simultaneously between two cellular compartments. This mechanism may explain how certain other single genes in Saccharomyces cerevisiae provide dual functions.

Published

2003

25. 3-(alphaR)-alpha-((2S,5R)-4-allyl-2,5-dimethyl-1-piperazinyl)-3-hydroxybenzyl)-N-alkyl-N-arylbenzamides: potent, non-peptidic agonists of both the micro and delta opioid receptors.

Author

Bishop MJ, Garrido DM, Boswell GE, Collins MA, Harris PA, McNutt RW, O'Neill SJ, Wei K, and Chang KJ

Subjects

Animals, Benzamides chemistry, Benzamides pharmacology, Guinea Pigs, Ileum drug effects, Ileum physiology, In Vitro Techniques, Male, Mice, Muscle Contraction drug effects, Muscle, Smooth drug effects, Muscle, Smooth physiology, Piperazines chemistry, Piperazines pharmacology, Stereoisomerism, Structure-Activity Relationship, Vas Deferens drug effects, Vas Deferens physiology, Benzamides chemical synthesis, Piperazines chemical synthesis, Receptors, Opioid, delta agonists, Receptors, Opioid, mu agonists

Abstract

Opioid analgesics with both micro and delta opioid receptor activation represent a new approach to the treatment of severe pain with an improved safety profile. Compounds with this profile may exhibit strong analgesic properties due to micro agonism, with a reduced side effect profile resulting from delta agonism. Replacing the p-diethylamide of the known potent delta opioid receptor selective agonist BW373U86 with a m-diethylamide resulted in a compound with agonist activity at both the micro and delta opioid receptors. Modifying the amide to an N-methyl-N-phenylamide increased agonist potency at both receptors. A series of 3-(alphaR)-alpha-((2S,5R)-4-allyl-2,5-dimethyl-1-piperazinyl)-3-hydroxybenzyl)-N-alkyl-N-arylbenzamides have been made to explore the structure-activity relationship (SAR) around the N-methyl-N-phenylamide. Several potent agonists of both the micro and delta opioid receptors have been identified, including (+)-3-((alphaR)-alpha-((2S,5R)-4-allyl-2,5-dimethyl-1-piperazinyl)-3-hydroxybenzyl)-N-(4-fluorophenyl)-N-methylbenzamide (23), which has EC50 values of 0.67 and 1.1 nM at the micro (guinea pig ileum assay) and delta (mouse vas deferens assay) opioid receptors, respectively.

Published

2003

26. Opioid receptor interactions and conformations of the 6 alpha and 6 beta epimers of oxymorphamine. Solid-state conformation of 6 alpha-oxymorphamine.

Author

Lever OW Jr, Bhatia AV, and Chang KJ

Subjects

Animals, Brain metabolism, Isomerism, Magnetic Resonance Spectroscopy, Molecular Conformation, Oxymorphone metabolism, Rats, Structure-Activity Relationship, Hydromorphone analogs & derivatives, Oxymorphone analogs & derivatives, Receptors, Opioid metabolism

Abstract

The affinities of the oxymorphamine epimers for mu and delta opioid receptors were determined in vitro. The 6 alpha and 6 beta epimers are potent mu-selective ligands with similar receptor-binding profiles. The relatively undramatic effect of C-6 chirality on receptor interactions is intriguing in view of the recently demonstrated profound influence of C-6 chirality on ring-C solution conformations (ring C is a chair conformer in the beta epimer but adopts a twist-boat conformation in the alpha epimer) and prompted the determination of the crystal structure of alpha-oxymorphamine. The crystal structure showed that ring C in this epimer also adopts a twist-boat conformation in the solid state. Molecular modeling of the oxymorphamines in the preferred ring-C conformations (alpha = boat, beta = chair) demonstrated that the 6-amino groups project to spatial loci significantly more proximal (0.35 A) than would be the case (2.2 A) if both epimers adopted chair conformations for ring C. Consequently, although the epimeric oxymorphamines differ in ring-C conformation, the principle potential heteroatomic binding sites in each epimer are oriented similarly, which may be partly responsible for the lack of dramatic differences in receptor binding profiles.

Published

1985

27. Structural parameters determining cholinergic and anticholinergic activities in a series of 1,3-dioxolanes.

Author

Chang KJ, Deth RC, and Triggle DJ

Subjects

Alkylation, Animals, Binding Sites, Dioxoles chemical synthesis, Guinea Pigs, Histamine H1 Antagonists pharmacology, Ileum drug effects, In Vitro Techniques, Jejunum drug effects, Muscle Contraction drug effects, Optical Rotation, Parasympatholytics chemical synthesis, Parasympathomimetics chemical synthesis, Rats, Receptors, Cholinergic drug effects, Stereoisomerism, Structure-Activity Relationship, Dioxoles pharmacology, Parasympatholytics pharmacology, Parasympathomimetics pharmacology

Published

1972

28. Stereoselectivity of cholinergic activity in a series of 1,3-dioxolanes.

Author

Chang KJ and Triggle DJ

Subjects

Animals, Dioxoles administration & dosage, Guinea Pigs, Ileum drug effects, In Vitro Techniques, Muscle, Smooth drug effects, Parasympathomimetics administration & dosage, Receptors, Drug, Stereoisomerism, Structure-Activity Relationship, Dioxoles pharmacology, Parasympathomimetics pharmacology

Published

1973

29. Studies on the cholinergic receptor. 6. Synthesis and muscarinic activity of 2-methyl-4-(2-dimethylaminoethyl)-1,3-dioxolane methiodide.

Author

Chang KJ, Ridley HF, and Triggle DJ

Subjects

Amines chemical synthesis, Iodine, Magnetic Resonance Spectroscopy, Methylamines chemical synthesis, Quaternary Ammonium Compounds chemical synthesis, Receptors, Cholinergic, Structure-Activity Relationship, Dioxoles chemical synthesis, Parasympathomimetics chemical synthesis, Receptors, Drug

Published

1971