Your search keyword '"Tseng, Jo-Chi"' showing total 12 results

1. In Situ Bulk Observations and Ab Initio Calculations Revealing the Temperature Dependence of Stacking Fault Energy in Fe–Cr–Ni Alloys.

Author

Neding, Benjamin, Gorbatov, Oleg I., Tseng, Jo-Chi, and Hedström, Peter

Subjects

AB-initio calculations, ALLOY powders, TEMPERATURE effect, NICKEL-chromium alloys, ALLOYS, MAGNETIC moments, IRON alloys

Abstract

The dependence of stacking fault energy ( γ SFE ) on temperature in austenitic Fe–Cr–Ni alloy powders was investigated by in situ high energy synchrotron X-ray diffraction and ab initio calculations in the temperature range from − 45 °C to 450 °C. The X-ray diffraction peak positions were used to determine the stacking fault probability and subsequently the temperature dependence of γSFE. The effect of temperature on the diffraction peak positions was found to be mainly reversible; however, recovery of dislocations occurred above about 200 °C, which also gave an irreversible contribution. Two different ab initio-based models were evaluated with respect to the experimental data. The different predictions of the models can be explained by their respective treatment of the magnetic moments for Cr and Ni, which is critical for the alloy compositions investigated. Ab initio calculations, taking longitudinal spin fluctuations (LSF) into consideration within the quasi-classical phenomenological model, predict a temperature dependence of γ SFE in good agreement with the experimentally evaluated trend of increasing γSFE with increasing temperature: Δ γ SFE / Δ T = 0.05 mJm - 2 / K. The temperature effect on γSFE is similar for all three investigated alloys: Fe–18Cr–15Ni, Fe–18Cr–17Ni, Fe–21Cr–16Ni (wt pct), while their room temperature γ SFE are evaluated to be 22, 25, 20 mJ m−2, respectively. [ABSTRACT FROM AUTHOR]

Published

2021

2. Electrochemically dealloyed nanoporous Fe40Ni20Co20P15C5 metallic glass for efficient and stable electrocatalytic hydrogen and oxygen generation.

Author

Aneeshkumar, K. S., Tseng, Jo-chi, Liu, Xiaodi, Tian, Jinsen, Diao, Dongfeng, and Shen, Jun

Published

2021

3. A Novel High‐Pressure Tin Oxynitride Sn2N2O.

Author

Bhat, Shrikant, Wiehl, Leonore, Haseen, Shariq, Kroll, Peter, Glazyrin, Konstantin, Gollé‐Leidreiter, Philipp, Kolb, Ute, Farla, Robert, Tseng, Jo‐Chi, Ionescu, Emanuel, Katsura, Tomoo, and Riedel, Ralf

Subjects

BULK modulus, X-ray powder diffraction, ELECTRON diffraction, SYNCHROTRONS, SILICON nitride, DIAMOND anvil cell, TIN, SPACE frame structures

Abstract

We report the first oxynitride of tin, Sn2N2O (SNO), exhibiting a Rh2S3‐type crystal structure with space group Pbcn. All Sn atoms are in six‐fold coordination, in contrast to Si in silicon oxynitride (Si2N2O) and Ge in the isostructural germanium oxynitride (Ge2N2O), which appear in four‐fold coordination. SNO was synthesized at 20 GPa and 1200–1500 °C in a large volume press. The recovered samples were characterized by synchrotron powder X‐ray diffraction and single‐crystal electron diffraction in the TEM using the automated diffraction tomography (ADT) technique. The isothermal bulk modulus was determined as Bo=193(5) GPa by using in‐situ synchrotron X‐ray diffraction in a diamond anvil cell. The structure model is supported by DFT calculations. The enthalpy of formation, the bulk modulus, and the band structure have been calculated. [ABSTRACT FROM AUTHOR]

Published

2020

4. Improved kinetic behaviour of Mg(NH2)2-2LiH doped with nanostructured K-modified-LixTiyOz for hydrogen storage.

Author

Gizer, Gökhan, Puszkiel, Julián, Riglos, Maria Victoria Castro, Pistidda, Claudio, Ramallo-López, José Martín, Mizrahi, Martin, Santoru, Antonio, Gemming, Thomas, Tseng, Jo-Chi, Klassen, Thomas, and Dornheim, Martin

Subjects

DOPING agents (Chemistry), HYDROGEN storage, NANOSTRUCTURED materials analysis, THERMODYNAMICS, DESORPTION kinetics

Abstract

The system Mg(NH2)2 + 2LiH is considered as an interesting solid-state hydrogen storage material owing to its low thermodynamic stability of ca. 40 kJ/mol H2 and high gravimetric hydrogen capacity of 5.6 wt.%. However, high kinetic barriers lead to slow absorption/desorption rates even at relatively high temperatures (>180 °C). In this work, we investigate the effects of the addition of K-modified LixTiyOz on the absorption/desorption behaviour of the Mg(NH2)2 + 2LiH system. In comparison with the pristine Mg(NH2)2 + 2LiH, the system containing a tiny amount of nanostructured K-modified LixTiyOz shows enhanced absorption/desorption behaviour. The doped material presents a sensibly reduced (∼30 °C) desorption onset temperature, notably shorter hydrogen absorption/desorption times and reversible hydrogen capacity of about 3 wt.% H2 upon cycling. Studies on the absorption/desorption processes and micro/nanostructural characterizations of the Mg(NH2)2 + 2LiH + K-modified LixTiyOz system hint to the fact that the presence of in situ formed nanostructure K2TiO3 is the main responsible for the observed improved kinetic behaviour. [ABSTRACT FROM AUTHOR]

Published

2020

5. Tracking the Active Catalyst for Iron‐Based Ammonia Decomposition by In Situ Synchrotron Diffraction Studies.

Author

Tseng, Jo‐Chi, Gu, Dong, Ternieden, Jan, Weidenthaler, Claudia, Pistidda, Claudio, Horstmann, Christian, and Dornheim, Martin

Subjects

AMMONIA, IRON catalysts, CHEMICAL decomposition, IRON oxides, SYNCHROTRONS, CRYSTAL structure

Abstract

Iron‐based catalysts for NH3 decomposition have been studied by a combination of catalytic tests and in situ synchrotron diffraction experiments performed in an inert sapphire plug‐flow cell. In contrast to steel‐based reaction cells, sapphire or quartz glass cells show no blind activity. Starting from iron oxide precursors, iron nitrides form during the activation cycle. Nitrides remain as main crystalline phases and govern the conversion of NH3 decomposition in the subsequent cycles. In this work structural and compositional changes of the nitrides were monitored in situ during heating and cooling cycles. The state of the catalyst under reaction conditions was analyzed by high resolution in situ synchrotron diffraction experiments. The analyses enable establishing reaction pathways and correlation of structural features with catalytic conversions. The most active phases are iron nitrides with high mobility and solubility for nitrogen atoms, such as Fe3Nx. Phase changes from Fe3Nx to γ‐FeNx were observed above 700 °C. The formation of γ‐FeNx seems to suppress the catalytic conversion. Moreover, the positive influence of a mesostructured support/catalyst composite on the catalytic conversion and catalyst stability were studied in detail. Storage solution: the aim of this work was the correlation of crystal structures and chemical compositions of iron‐based catalysts for the decomposition of ammonia. [ABSTRACT FROM AUTHOR]

Published

2018

6. Patient with abnormal eye movement.

Author

Cheng, Tzu‐Heng, Chao, Hsiao‐Yun, Tseng, Jo‐Chi, and Chen, Hsien‐Yi

Published

2022

7. Monodispersed Mesoporous Silica Spheres Supported Co3O4 as Robust Catalyst for Oxygen Evolution Reaction.

Author

Deng, Xiaohui, Rin, Ritsu, Tseng, Jo‐Chi, Weidenthaler, Claudia, Apfel, Ulf‐Peter, and Tüysüz, Harun

Subjects

MESOPOROUS silica, OXYGEN evolution reactions, CARBON dioxide, PHOTOSENSITIZERS, COMPOSITE materials

Abstract

Monodispersed mesoporous silica spheres (MSS) with fibrous nanostructure and highly open porosity were fabricated by a facile one-pot synthetic route and loaded with Co3O4 nanoclusters for catalyzing the oxygen evolution reaction with Ru(bpy)32+-S2O82− photosensitizer and sacrificial reagent system. The effect of the loading amount on the morphology and microstructure of Co3O4 was investigated and it was found that lower Co3O4 content in the composite materials results in smaller crystallite size, which in turn leads to significantly enhanced oxygen evolution activity. Furthermore, owing to the monodispersity of the spheres and good accessibility of active species offered by the fibrous pore structure, the material shows a clear advantage over nonsupported Co3O4 nanoparticles and the commonly used ordered mesoporous silica supports such as KIT-6 and SBA-15. [ABSTRACT FROM AUTHOR]

Published

2017

8. Elevated circulating levels of tissue factor-positive microvesicles are associated with distant metastasis in lung cancer.

Author

Tseng, Jo-Chi, Chang, Liang-Che, Jiang, Boy-Yiing, Liu, Yu-Chih, Chen, Hung-Jie, Yu, Chih-Teng, and Hua, Chung-Ching

Subjects

THROMBOPLASTIN, VESICLES (Cytology), CANCER invasiveness, LUNG cancer patients, ENDOTHELIAL cells, BLOOD platelets, BLOOD plasma, LUNG cancer treatment

Abstract

Purpose: Microvesicles (MV) in the blood stream are associated with distant metastasis in cancer. Platelet or endothelial cell-related MV actively participate in thrombogenesis, which is an important step in cancer metastasis. This study investigated the correlations between MV levels of platelet-poor plasma and distant metastasis in lung cancer. Methods: Platelet-poor plasma from 44 treatment-naive lung cancer (23 with distant metastasis) and 19 normal subjects was used to determine the levels of glycoprotein Iβ (CD42) + platelet MV (PMV), P-selectin (CD62P) + PMV, VE-cadherin (CD144) + endothelial MV (EMV), tissue factor (CD142) + MV, thrombin-antithrombin complex and vascular endothelial growth factor (VEGF). Results: The level of CD142 + MV was significant (odds ratio 5.86, 95 % confidence interval 1.31-38.3) in predicting distant metastasis in lung cancer, and a cutoff value of 2.668 (after logarithm transformation) in the ROC curve had a specificity of 90 % and a sensitivity of 59 %. The presence of distant metastasis showed a significant correlation between CD144 + EMV and VEGF, but not between CD144 + EMV and CD42 + PMV or CD62P + PMV in lung cancer subjects. Conclusions: The finding of CD142 + MV in platelet-poor plasma may be useful for suggesting distant metastasis in lung cancer. In addition to thrombogenesis, interaction between VE-cadherin and VEGF may be needed for successful metastasis in lung cancer. [ABSTRACT FROM AUTHOR]

Published

2014

9. De-hydrogenation/Rehydrogenation Properties and Reaction Mechanism of A m Zn(NH 2) n -2 n LiH Systems (A = Li, K, Na, and Rb).

Author

Cao, Hujun, Pistidda, Claudio, Richter, Theresia M. M., Capurso, Giovanni, Milanese, Chiara, Tseng, Jo-Chi, Shang, Yuanyuan, Niewa, Rainer, Chen, Ping, Klassen, Thomas, and Dornheim, Martin

Abstract

With the aim to find suitable hydrogen storage materials for stationary and mobile applications, multi-cation amide-based systems have attracted considerable attention, due to their unique hydrogenation kinetics. In this work, AmZn(NH2)n (with A = Li, K, Na, and Rb) were synthesized via an ammonothermal method. The synthesized phases were mixed via ball milling with LiH to form the systems AmZn(NH2)n-2nLiH (with m = 2, 4 and n = 4, 6), as well as Na2Zn(NH2)4∙0.5NH3-8LiH. The hydrogen storage properties of the obtained materials were investigated via a combination of calorimetric, spectroscopic, and diffraction methods. As a result of the performed analyses, Rb2Zn(NH2)4-8LiH appears as the most appealing system. This composite, after de-hydrogenation, can be fully rehydrogenated within 30 s at a temperature between 190 °C and 200 °C under a pressure of 50 bar of hydrogen. [ABSTRACT FROM AUTHOR]

Published

2022

10. Gene Polymorphisms of Fibrinolytic Enzymes in Coal Workers' Pneumoconiosis.

Author

Chang, Liang-Che, Tseng, Jo-Chi, Hua, Chung-Ching, MD, Yu-Chih Liu, Shieh, Wen-Bin, and Wu, Huang-Pin

Subjects

RESEARCH, GENETIC polymorphism research, FIBRINOLYTIC agents, COAL miners, DUST diseases, EXONS (Genetics), PLASMINOGEN activators, INTRONS, SERINE proteinase inhibitors, FIBROSIS, ENVIRONMENTAL health research, INDUSTRIAL hygiene research, DISEASES

Abstract

The authors assessed the gene polymorphisms of missense C/T polymorphism in exon 6 of the urokinase-plasminogen activator (PLAU) gene (PLAU P141L), Alu-repeat in intron 8 of the tissue-type plasminogen activator (PLAT) gene (PLAT TPA25 Alu insertion), and 4G/5G in the promoter region of the serine proteinase inhibitor, clade E (SERPINE) or plasminogen activator inhibitor type 1 gene (SERPINE1 -675 4G/5G) in 153 healthy volunteers and 154 retired coal miners with coal miners' pneumoconiosis (CWP). The CWP subjects included 94 individuals with simple pneumoconiosis and 60 individuals with progressive massive fibrosis presenting with worse pulmonary function. The distributions of genotypes of these three genes did not differ between the control and CWP subjects or between subjects with simple pneumoconiosis and those with progressive massive fibrosis. However, by assessing duration of work and its interaction with genotypes by means of logistic regression, the authors found the missense C/T polymorphism in exon 6 of the PLAU gene to be an effect modifier of the association between work duration and the development of progressive massive fibrosis. [ABSTRACT FROM AUTHOR]

Published

2006

11. Investigation of the Structural Heterogeneity and Corrosion Performance of the Annealed Fe-Based Metallic Glasses.

Author

Liang, Dandan, Tseng, Jo-Chi, Liu, Xiaodi, Cai, Yuanfei, Xu, Gang, Shen, Jun, Nóvoa, X. Ramón, and de la Fuente, Daniel

Subjects

SUPERCOOLED liquids, GLASS transition temperature, METALLIC glasses, HETEROGENEITY, CORROSION resistance, DISTRIBUTION (Probability theory)

Abstract

This study investigated the structural heterogeneity, mechanical property, electrochemical behavior, and passive film characteristics of Fe–Cr–Mo–W–C–B–Y metallic glasses (MGs), which were modified through annealing at different temperatures. Results showed that annealing MGs below the glass transition temperature enhanced corrosion resistance in HCl solution owing to a highly protective passive film formed, originating from the decreased free volume and the shrinkage of the first coordination shell, which was found by pair distribution function analysis. In contrast, the enlarged first coordination shell and nanoscale crystal-like clusters were identified for MGs annealed in the supercooled liquid region, which led to a destabilized passive film and thereby deteriorated corrosion resistance. This finding reveals the crucial role of structural heterogeneity in tuning the corrosion performance of MGs. [ABSTRACT FROM AUTHOR]

Published

2021

12. Frontispiece: A Novel High‐Pressure Tin Oxynitride Sn2N2O.

Author

Bhat, Shrikant, Wiehl, Leonore, Haseen, Shariq, Kroll, Peter, Glazyrin, Konstantin, Gollé‐Leidreiter, Philipp, Kolb, Ute, Farla, Robert, Tseng, Jo‐Chi, Ionescu, Emanuel, Katsura, Tomoo, and Riedel, Ralf

Subjects

TIN, SYNCHROTRON radiation

Abstract

Frontispiece: A Novel High-Pressure Tin Oxynitride Sn2N2O Keywords: density functional calculations; electron diffraction; high-pressure synthesis; synchrotron radiation; tin oxynitride Density functional calculations, electron diffraction, high-pressure synthesis, synchrotron radiation, tin oxynitride. [Extracted from the article]

Published

2020