Your search keyword '"Chen, Shih-Ting"' showing total 20 results

1. Defined cell adhesion for silicon-based implant materials by using vapor-deposited functional coatings

Author

Wu, Chih-Yu, Guan, Zhen-Yu, Lin, Pin-Chen, Chen, Shih-Ting, Lin, Po-Kang, Chen, Po-Chun, Chao, Pen-Hsiu Grace, and Chen, Hsien-Yeh

Published

2019

2. Assessment of the subjective perception of music quality using psychoacoustic approach

Author

Tang, Kuo Hao, Chen, Shih Ting, and Tsai, Yu Ting

Published

2016

3. Tailoring of the Structural, Optical, and Electrical Characteristics of Sol-Gel-Derived Magnesium-Zinc-Oxide Wide-Bandgap Semiconductor Thin Films via Gallium Doping.

Author

Tsay, Chien-Yie, Chen, Shih-Ting, and Tsai, Hsuan-Meng

Subjects

*WIDE gap semiconductors, *ZINC oxide films, *SEMICONDUCTOR thin films, *THIN films, *OXIDE coating, *SURFACE roughness, *GALLIUM, *ANTIREFLECTIVE coatings

Abstract

The Ga-doped Mg0.2Zn0.8O (GMZO) transparent semiconductor thin films were prepared using the sol-gel and spin-coating deposition technique. Changes in the microstructural features, optical parameters, and electrical characteristics of sol-gel-synthesized Mg0.2Zn0.8O (MZO) thin films affected by the amount of Ga dopants (0–5 at%) were studied. The results of grazing incidence X-ray diffraction (GIXRD) examination showed that all as-prepared MZO-based thin films had a wurtzite-type structure and hexagonal phase, and the incorporation of Ga ions into the MZO nanocrystals refined the microstructure and reduced the average crystallite size and flatness of surface roughness. Each glass/oxide thin film sample exhibited a higher average transmittance than 91.5% and a lower average reflectance than 9.1% in the visible range spectrum. Experimental results revealed that the optical bandgap energy of the GMZO thin films was slightly higher than that of the MZO thin film; the Urbach energy became wider with increasing Ga doping level. It was found that the 2 at% and 3 at% Ga-doped MZO thin films had better electrical properties than the undoped and 5 at% Ga-doped MZO thin films. [ABSTRACT FROM AUTHOR]

Published

2023

4. The impact of World Café on entrepreneurial strategic planning capability

Author

Chang, Wen-Long and Chen, Shih-Ting

Published

2015

5. Permeate Flux Enhancement in Air Gap Membrane Distillation Modules with Inserting Λ-Ribs Carbon-Fiber Open Slots.

Author

Ho, Chii-Dong, Chen, Luke, Yang, Yan-Ling, Chen, Shih-Ting, Lim, Jun Wei, and Chen, Zheng-Zhong

Published

2023

6. Defect reduction of laterally regrown GaN on GaN/patterned sapphire substrates

Author

Wuu, Dong-Sing, Wu, Hsueh-Wei, Chen, Shih-Ting, Tsai, Tsung-Yen, Zheng, Xinhe, and Horng, Ray-Hua

Published

2009

7. Effect of clay on the corrosion protection efficiency of PMMA/Na +-MMT clay nanocomposite coatings evaluated by electrochemical measurements

Author

Chang, Kung-Chin, Chen, Shih-Ting, Lin, Hui-Fen, Lin, Chang-Yu, Huang, Hsin-Hua, Yeh, Jui-Ming, and Yu, Yuan-Hsiang

Published

2008

8. Sensing acidosis: nociception or sngception?

Author

Chen, Shih-Ting, Lee, Cheng-Han, Lin, Jiann-Her, Hung, Chih-Hsien, Chen, Chih-Cheng, Han, Der-Sheng, and Sun, Wei-Zen

Subjects

*TISSUES, *ACIDOSIS, *SOMATOSENSORY disorders, *PHENOTYPES, *CHRONIC pain, *FIBROMYALGIA, *ACUPUNCTURE, *CENTRAL nervous system

Abstract

Background: Sensing tissue acidosis is an important function of the somatosensory nervous system to response to noxious stimuli. Main body: In the pain clinic, acid or soreness sensation is a characteristic sensory phenotype of various acute and chronic pain syndromes, such as delayed onset muscle soreness, fibromyalgia, and radicular pain. However, soreness sensation is a sign of successful analgesia for acupuncture and noxipoint therapy. Thus, the nature of acid or soreness sensation is not always nociceptive (or painful) and could be anti-nociceptive. To facilitate the investigation of the molecular and neurobiological mechanisms of soreness sensation, we propose a concept called "sngception (sng- ception)" to describe the response of the somatosensory nervous system to sense tissue acidosis and to distinguish it from nociception. "Sng" is a Taiwanese word that represents the state of soreness while at the same time imitates the natural vocalization of humans feeling sore. Conclusion: Here we propose sngception as a specific somatosensory function that transmits the acid sensation from the peripheral to the central nervous system. Sngception could partially overlap with nociception, but it could also transmit antinociception, proprioception, and pruriception. [ABSTRACT FROM AUTHOR]

Published

2018

9. Synergistic effects between TiO 2 and carbon nanotubes (CNTs) in a TiO 2 /CNTs system under visible light irradiation.

Author

Wu, Chung-Hsin, Kuo, Chao-Yin, and Chen, Shih-Ting

Subjects

TITANIUM oxides, CARBON nanotubes, X-ray diffraction, TRANSMISSION electron microscopy, IRRADIATION, PHOTOINDUCED electron transfer

Abstract

This study synthesized a TiO2/carbon nanotubes (CNTs) composite via the sol-gel method. The surface characteristics of the TiO2/CNTs composite were determined by X-ray diffraction, transmission electron microscopy, specific surface area analyser, ultraviolent (UV)-vis spectroscopy, X-ray photoelectron spectroscopy and Raman spectrometer. The photocatalytic activity of the TiO2/CNTs composite was evaluated by decolourizing C.I. Reactive Red 2 (RR2) under visible light irradiation. Furthermore, the effects of calcination temperature, pH, RR2 concentration, and the TiO2/CNTs composite dosage on RR2 decolourization were determined simultaneously. The optimal calcination temperature to generate TiO2and the TiO2/CNTs composite was 673 K, as the percentage of anatase crystallization at this temperature was highest. The specific surface area of the TiO2/CNTs composite and TiO2were 45 and 42 m2/g, respectively. The band gap of TiO2and the TiO2/CNTs composite was 2.97 and 2.71 eV by UV-vis measurements, respectively. Experimental data indicate that the Ti-O-C bond formed in the TiO2/CNTs composite. The RR2 decolourization rates can be approximated by pseudo-first-order kinetics; moreover, only the TiO2/CNTs composite had photocatalytic activity under visible light irradiation. At pH 7, the RR2 decolourization rate constant of 0.5, 1 and 2 g/L TiO2/CNTs addition was 0.005, 0.0015, and 0.0047 min−1, respectively. Decolourization rate increased as pH and the RR2 concentration decreased. The CNTs functioned as electron acceptors, promoting separation of photoinduced electron-hole pairs to retard their recombination; thus, photocatalytic activity of the TiO2/CNTs composite exceeded that of TiO2. [ABSTRACT FROM PUBLISHER]

Published

2013

10. The performance of Taiwan's training quality excellence system.

Author

Chang, Wen-Long and Chen, Shih-Ting

Subjects

EMPLOYEE training, QUALITY assurance training, EFQM Excellence Model, BUSINESS enterprises, CONFIRMATORY factor analysis, BENCHMARKING (Management), ORGANIZATIONAL performance, SELF-evaluation, INVESTORS in People, QUALITY control standards

Abstract

The Taiwanese government has, based on the concept of the UK's Investors in People, and the ISO10015, drawn up the so-called Taiwan Training Quality System (TTQS), a training process including planning, designing, doing, and reviewing an outcome. This process is designed to ensure the reliability and validity of the system for the business training process. Also provided are methods for the implementation of self-assessment and improvement of the quality of the training system for enterprises and organisations. The aim of this study is to examine the criterion weights for The TTQS Excellence Model. With reference to the European Foundation for Quality Management (EFQM), our study divides the TTQS into two important parts: Enablers and Results. We utilise observations from 2053 enterprises which participated in the TTQS assessment in 2011. The TTQS score for each construct is turned into an EFQM Excellence Model to determine the weighted distribution for each construct. Our study compares the performance of businesses that have been awarded prizes from the government (as a benchmark) with that of non-benchmark enterprises. The results show that Taiwanese enterprises are not at all in alignment with the TTQS benchmarking business weights. [ABSTRACT FROM AUTHOR]

Published

2013

11. A new bias field correction method combining N3 and FCM for improved segmentation of breast density on MRI.

Author

Lin, Muqing, Chan, Siwa, Chen, Jeon-Hor, Chang, Daniel, Nie, Ke, Chen, Shih-Ting, Lin, Cheng-Ju, Shih, Tzu-Ching, Nalcioglu, Orhan, and Su, Min-Ying

Subjects

MAGNETIC resonance mammography, BREAST cancer risk factors, CANCER invasiveness, QUANTITATIVE research, THREE-dimensional imaging, ALGORITHMS, CANCER diagnosis, MEDICAL imaging systems

Abstract

Purpose: Quantitative breast density is known as a strong risk factor associated with the development of breast cancer. Measurement of breast density based on three-dimensional breast MRI may provide very useful information. One important step for quantitative analysis of breast density on MRI is the correction of field inhomogeneity to allow an accurate segmentation of the fibroglandular tissue (dense tissue). A new bias field correction method by combining the nonparametric nonuniformity normalization (N3) algorithm and fuzzy-C-means (FCM)-based inhomogeneity correction algorithm is developed in this work. Methods: The analysis is performed on non-fat-sat T1-weighted images acquired using a 1.5 T MRI scanner. A total of 60 breasts from 30 healthy volunteers was analyzed. N3 is known as a robust correction method, but it cannot correct a strong bias field on a large area. FCM-based algorithm can correct the bias field on a large area, but it may change the tissue contrast and affect the segmentation quality. The proposed algorithm applies N3 first, followed by FCM, and then the generated bias field is smoothed using Gaussian kernal and B-spline surface fitting to minimize the problem of mistakenly changed tissue contrast. The segmentation results based on the N3+FCM corrected images were compared to the N3 and FCM alone corrected images and another method, coherent local intensity clustering (CLIC), corrected images. The segmentation quality based on different correction methods were evaluated by a radiologist and ranked. Results: The authors demonstrated that the iterative N3+FCM correction method brightens the signal intensity of fatty tissues and that separates the histogram peaks between the fibroglandular and fatty tissues to allow an accurate segmentation between them. In the first reading session, the radiologist found (N3+FCM>N3>FCM) ranking in 17 breasts, (N3+FCM>N3=FCM) ranking in 7 breasts, (N3+FCM=N3>FCM) in 32 breasts, (N3+FCM=N3=FCM) in 2 breasts, and (N3>N3+FCM>FCM) in 2 breasts. The results of the second reading session were similar. The performance in each pairwise Wilcoxon signed-rank test is significant, showing N3+FCM superior to both N3 and FCM, and N3 superior to FCM. The performance of the new N3+FCM algorithm was comparable to that of CLIC, showing equivalent quality in 57/60 breasts. Conclusions: Choosing an appropriate bias field correction method is a very important preprocessing step to allow an accurate segmentation of fibroglandular tissues based on breast MRI for quantitative measurement of breast density. The proposed algorithm combining N3+FCM and CLIC both yield satisfactory results. [ABSTRACT FROM AUTHOR]

Published

2011

12. Preparation and morphology of amphiphilic polystyrene-poly (2-vinylpyridine) heteroarm star copolymers prepared by ATRP.

Author

Yu, Yang-Yen, Chien, Wen-Chen, and Chen, Shih-Ting

Subjects

MORPHOLOGY, CHEMICAL synthesis, AMPHIPHILES, POLYSTYRENE, COPOLYMERS

Abstract

The article discusses a research study on the morphology and synthesis of amphiphilic linear polystyrene (PS)-block-poly-(2-vinylpyridine) (P2VP) and copolymers PS-block-P2VP and PS-star-P2VP using atom transfer radical polymerization (ATRP). Researchers synthesized amphiphillic copolymers with various P2VP chain lengths through the use of ATRP that showed aggregate morphologies in rods, spheres and vesicles. Conclusions indicated the possibility of preparing metal/copolymers by direct mixing.

Published

2008

13. Effect of clay on the corrosion protection efficiency of PMMA/Na+-MMT clay nanocomposite coatings evaluated by electrochemical measurements

Author

Chang, Kung-Chin, Chen, Shih-Ting, Lin, Hui-Fen, Lin, Chang-Yu, Huang, Hsin-Hua, Yeh, Jui-Ming, and Yu, Yuan-Hsiang

Subjects

*CLAY, *CORROSION & anti-corrosives, *NANOSTRUCTURED materials, *TRANSMISSION electron microscopy, *COATING processes

Abstract

Abstract: The preparation of PMMA–clay nanocomposites was investigated by using sodium dodecylbenzenesulfonate (SDS) and potassium peroxodisulfate (KPS) as a surfactant and chain initiator for an in situ emulsion polymerization reaction, respectively. The as-prepared nanocomposites were then characterized by Fourier transformation infrared (FTIR) spectroscopy, wide-angle X-ray diffraction (WAXRD) patterns and transmission electron microscopy (TEM). It should be noted that the nanocomposite coating containing 1wt% of clay loading was found to exhibit an observable enhanced corrosion protection on cold-rolled steel (CRS) electrode at higher operational temperature of 50°C, which was even better than that of uncoated and electrode-coated with PMMA alone at room temperature of 30°C based on the electrochemical parameter evaluations (e.g., E corr, R p, I corr, R corr and impedance). In this work, all electrochemical measurements were performed at a double-wall jacketed cell, covered with a glass plate, through which water was circulated from a thermostat to maintain a constant operational temperature of 30, 40 and 50±0.5°C. Moreover, a series of electrochemical parameters shown in Tafel, Nyquist and Bode plots were all used to evaluate PCN coatings at three different operational temperatures in 5wt% aqueous NaCl electrolyte. The molecular barrier properties at three different operational temperatures of PMMA and PCN membranes were investigated by gas permeability analyzer (GPA) and vapor permeability analyzer (VPA). Effect of material composition on the molecular weight and optical properties of neat PMMA and PCN materials, in the form of solution and membrane, were also studied by gel permeation chromatography (GPC) and UV–vis transmission spectra. [Copyright &y& Elsevier]

Published

2008

14. Solution-Processed Mg-Substituted ZnO Thin Films for Metal-Semiconductor-Metal Visible-Blind Photodetectors.

Author

Tsay, Chien-Yie, Chen, Shih-Ting, and Fan, Man-Ting

Subjects

PHOTOELECTRICITY, THIN films, ZINC oxide films, SEMICONDUCTOR thin films, PHOTODETECTORS, OHMIC contacts

Abstract

The effects of Mg on the microstructural, optical, and electrical properties of sol-gel derived ZnO transparent semiconductor thin films and the photoelectrical properties of photodetectors based on MgxZn1−xO (where x = 0 to 0.3) thin films with the metal-semiconductor-metal (MSM) configuration were investigated in this study. All the as-synthesized ZnO-based thin films had a single-phase wurtzite structure and showed high average transmittance of 91% in the visible wavelength region. The optical bandgap of MgxZn1−xO thin films increased from 3.25 to 3.56 eV and the electrical resistivity of the films rose from 6.1 × 102 to 1.4 × 104 Ω·cm with an increase in Mg content from x = 0 to x = 0.3. Compared with those of the pure ZnO thin film, the PL emission peaks of the MgZnO thin films showed an apparent blue-shift feature in the UV and visible regions. The photo-detection capability was investigated under visible, UVA, and UVC light illumination. Linear I-V characteristics were obtained in these ZnO-based photodetectors under dark and light illumination conditions, indicating an ohmic contact between the Au electrodes and ZnO-based thin films. It was found that the pure ZnO photodetector exhibited the best photoconductivity gain, percentage of sensitivity, and responsivity under UVA illumination. Under UVC illumination, the photoconductivity gain and percentage of sensitivity of the MgZnO photodetectors were better than those of the pure ZnO photodetector. [ABSTRACT FROM AUTHOR]

Published

2019

15. Sensing acidosis: nociception or sngception?

Author

Lin JH, Hung CH, Han DS, Chen ST, Lee CH, Sun WZ, and Chen CC

Subjects

Animals, Humans, Nociception physiology, Acidosis physiopathology, Central Nervous System physiopathology, Pain Perception physiology

Abstract

Background: Sensing tissue acidosis is an important function of the somatosensory nervous system to response to noxious stimuli., Main Body: In the pain clinic, acid or soreness sensation is a characteristic sensory phenotype of various acute and chronic pain syndromes, such as delayed onset muscle soreness, fibromyalgia, and radicular pain. However, soreness sensation is a sign of successful analgesia for acupuncture and noxipoint therapy. Thus, the nature of acid or soreness sensation is not always nociceptive (or painful) and could be anti-nociceptive. To facilitate the investigation of the molecular and neurobiological mechanisms of soreness sensation, we propose a concept called "sngception (sng- ception)" to describe the response of the somatosensory nervous system to sense tissue acidosis and to distinguish it from nociception. "Sng" is a Taiwanese word that represents the state of soreness while at the same time imitates the natural vocalization of humans feeling sore., Conclusion: Here we propose sngception as a specific somatosensory function that transmits the acid sensation from the peripheral to the central nervous system. Sngception could partially overlap with nociception, but it could also transmit antinociception, proprioception, and pruriception.

Published

2018

16. Enhanced Growth Activities of Stem Cell Spheroids Based on a Durable and Chemically Defined Surface Modification Coating.

Author

Chen ST, Wu CY, and Chen HY

Subjects

Adipose Tissue chemistry, Cell Adhesion, Humans, Surface Properties, Cell Culture Techniques methods, Spheroids, Cellular cytology, Stem Cells cytology

Abstract

Surface modification layers are needed for the precise definition of surface chemistries and are equally important for durable and stable adhesive properties to ensure long-term stability and effective performance for biotechnological applications. This study demonstrates a robust modification layer that is synthesized based on chemical vapor deposition copolymerization, and the resultant coating layer is composed of the side-by-side presentation of N-hydroxysuccinimide ester and maleimide functionalities with a controlled ratio to define the immobilization accessibility of chitosan and growth factor protein (FGF-2) molecules on the substrate surface for enhancing cellular activities of stem cells. Characterizations of the copolymer modification layer showed excellent durability, including adhesive strength and thermal stability, and the layer is free of concerns for delamination and/or unacceptable deformation/debris formation that can cause potential toxicity to the surrounding biological environment. Modifications using the copolymer layer on the cell culture surface have demonstrated synergistic activity by chitosan to support the formation of spheroids and by FGF-2 to enhance the proliferation of human adipose-derived stem cells (ADSCs) within the spheroids while increasing the spheroid size and cell numbers. Healthy and flourishing growth activities were discovered for ADSCs on the modified culture surfaces, and the results are useful for potential and related stem cell research and the interfaces of biomaterials.

Published

2018

17. Fabrication of Functional Polymer Structures through Bottom-Up Selective Vapor Deposition from Bottom-Up Conductive Templates.

Author

Wu CY, Hsieh HP, Chen ST, Liu TY, and Chen HY

Abstract

An electrically induced bottom-up process was introduced for the fabrication of multifunctional nanostructures of polymers. Without requiring complicated photolithography or printing techniques, the fabrication process first produced a conducting template by colloidal lithography to create an interconnected conduction pathway. By supplying an electrical charge to the conducting network, the conducting areas were enabled with a highly energized surface that generally deactivated the adsorbed reactive species and inhibited the vapor deposition of poly- p-xylylene polymers. However, the template allowed the deposition of ordered poly- p-xylylene nanostructures only on the confined and negative areas of the conducting template, in a relatively large centimeter-scale production. The wide selection of functionality and multifunctional capability of poly- p-xylylenes naturally rendered the synergistic and orthogonal chemical reactivity of the resulting nanostructures. With only a few steps, the construction of a nanometer topology with the functionalization of multiple chemical conducts can be achieved, and the selected deposition process represents a state-of-the-art nanostructure fabrication in a simple and versatile approach from the bottom up.

Published

2018

18. Development of Antifouling Hyperbranched Polyglycerol Layers on Hydroxyl Poly-p-xylylene Coatings.

Author

Chen PR, Wang TC, Chen ST, Chen HY, and Tsai WB

Abstract

Antifouling surfaces that are resistant to protein adsorption and cell adhesion are desirable for many biomedical devices, such as diagnostic devices, biosensors, and implants. In this study, we developed an antifouling hyperbranched polyglycerol (hPG) surface on hydroxyl poly-p-xylylene (PPX-OH). PPX-OH was deposited via chemical vapor deposition (CVD), and an hPG film was then developed via the ring-opening reaction of glycidol. The hPG film greatly reduced the adhesion of L929 cells and platelets as well as protein adsorption. The addition of alkenyl groups in the hPG layer allows the conjugation of biomolecules, such as peptides and biotin, and elicits specific biological interactions. Since the CVD deposition of PPX-OH could be applied to most types of materials, our approach makes it possible to decorate an antifouling hPG film on most types of materials. Our method could be applied to biosensors, diagnostics, and biomedical devices in the future.

Published

2017

19. Synergistic effects between TiO2 and carbon nanotubes (CNTs) in a TiO2/CNTs system under visible light irradiation.

Author

Wu CH, Kuo CY, and Chen ST

Subjects

Catalysis, Light, Coloring Agents isolation & purification, Nanotubes, Carbon chemistry, Naphthalenesulfonates isolation & purification, Photolysis, Titanium chemistry, Triazines isolation & purification

Abstract

This study synthesized a TiO2/carbon nanotubes (CNTs) composite via the sol-gel method. The surface characteristics of the TiO2/CNTs composite were determined by X-ray diffraction, transmission electron microscopy, specific surface area analyser, ultraviolent (UV)-vis spectroscopy, X-ray photoelectron spectroscopy and Raman spectrometer. The photocatalytic activity ofthe TiO2/CNTs composite was evaluated by decolourizing C.I. Reactive Red 2 (RR2) under visible light irradiation. Furthermore, the effects of calcination temperature, pH, RR2 concentration, and the TiO2/CNTs composite dosage on RR2 decolourization were determined simultaneously. The optimal calcination temperature to generate TiO2 and the TiO2/CNTs composite was 673 K, as the percentage of anatase crystallization at this temperature was highest. The specific surface area of the TiO2/CNTs composite and TiO2 were 45 and 42 m2/g, respectively. The band gap of TiO2 and the TiO2/CNTs composite was 2.97 and 2.71 eV by UV-vis measurements, respectively. Experimental data indicate that the Ti-O-C bond formed in the TiO2/CNTs composite. The RR2 decolourization rates can be approximated by pseudo-first-order kinetics; moreover, only the TiO2/CNTs composite had photocatalytic activity under visible light irradiation. At pH 7, the RR2 decolourization rate constant of 0.5, 1 and 2 g/L TiO2/CNTs addition was 0.005, 0.0015, and 0.0047 min(-1), respectively. Decolourization rate increased as pH and the RR2 concentration decreased. The CNTs functioned as electron acceptors, promoting separation of photoinduced electron-hole pairs to retard their recombination; thus, photocatalytic activity of the TiO2/CNTs composite exceeded that of TiO2.

Published

2013

20. Controlling pore morphology and properties of nanoporous silica films using the different architecture PS-b-P2VP as a template.

Author

Yu YY, Chien WC, and Chen ST

Abstract

Nanoporous silica films were prepared through the templating of amphiphilic block copolymer, poly(styrene-2-vinyl pyridine) (PS-b-P2VP), and monodispersed colloidal silica nanoparticles. The experimental and theoretical studies suggested that the intermolecular hydrogen bonding existes between the colloidal silica nanoparticles and PS-b-P2VP. The effects of the loading ratio and P2VP chain length on the morphology and properties of the prepared nanoporous silica films were investigated. TEM and AFM studies showed that the uniform pore size could be achieved and the pore size increased with increasing porogen loading. The refractive index and dielectric constant of the prepared nanoporous films decreased with an increase in PS-b-P2VP loading. On the other hand, the porosity increased with an increasing PS-b-P2VP loading. This study demonstrated a methodology to control pore morphology and properties of the nanoporous silica films through the templating of PS-b-P2VP.

Published

2010