Your search keyword '"Piyapong Asanithi"' showing total 24 results

1. Hydroxyapatite/Graphene oxide composite for electrochemical detection of L-Tryptophan

Author

Piyapong Asanithi, Ibrar Alam, and Worapot Prongmanee

Subjects

Detection limit, Materials science, Graphene, Scanning electron microscope, General Chemical Engineering, Analytical chemistry, Oxide, General Chemistry, law.invention, Contact angle, chemistry.chemical_compound, stomatognathic system, chemistry, law, Electrode, Linear sweep voltammetry, Wetting

Abstract

In this work, hydroxyapatite/graphene oxide modified screen-printed electrode (SP-HAp/GO) were investigated for L -tryptophan (Trp) detection using linear sweep voltammetry (LSV) technique. HAp/GO composite was prepared by growth of HAp on GO in the simulated body fluid. Surface wettability, surface morphology and chemical functional group of the modified electrodes were determined by contact angle measurement, scanning electron microscope and Fourier transform infrared spectrometer, respectively. Contact angle of the electrode modified with HAp/GO composite is about two- and three-times larger than those of GO-modified electrode (SP-GO) and bare electrode (SP), respectively. SP-HAp/GO and SP show rough surface with cracks and pore-like structures, whereas SP-GO forms dense and smooth surface. After electrochemical determination of Trp, the linear range (7–1,000 µM) and limit of detection (LOD ∼ 5.5 µM) obtained from HAp/GO-modified electrode are better than those of bare (25–1000 µM, LOD ∼ 17.5 µM) and GO-modified (10–1000 µM, LOD ∼ 7.0 µM) electrodes. The information from this study may be useful for rapid Trp determination and for development of electrode materials used in bio-molecule sensors.

Published

2019

2. Influence of point defects on phase transformation and optical properties of TiO2 thin films via multilayering deposition technique

Author

Piyapong Asanithi, Wipakorn Jevasuwan, Naoki Fukata, Tula Jutarosaga, Siriwat Soontaranon, and Manas Sittishoktram

Subjects

Anatase, Materials science, Band gap, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, law.invention, Sputtering, law, Surface roughness, General Materials Science, Texture (crystalline), Crystallization, Composite material, Thin film, 0210 nano-technology, Refractive index

Abstract

Thin anatase TiO2 films with preferential (004) orientation were successfully fabricated via multilayering technique, growth and stop repeatedly, using DC-magnetron sputtering and annealed at a relatively low temperature. The multilayering deposition technique suppressed the number of oxygen vacancy defects in TiO2 films without interrupting the columnar growth. The main columnar structure oriented along (101) plane and along (004) plane. Confirmed by the texture coefficient, the preferential (004) orientation of TiO2 films increased with increasing number of compact layers and the highest value was observed for post-annealed films at 200 °C. The surface morphology analysis indicated that the increase of surface roughness with increasing number of compact layers was related to the promotion of crystallization. The optical properties of multilayer films revealed that high number of compact layers greatly enhanced their absorption in the entire visible region, expanded energy band gap and increased refractive index.

Published

2021

3. Photoluminescence study of interfacial charge transfer and photocatalytic activity in titanium dioxide/copper multilayer film

Author

Piyapong Asanithi, Tula Jutarosaga, Rungroj Tuayjaroen, Phasin Yaemsanguansak, and Manas Sittishoktram

Subjects

010302 applied physics, Photoluminescence, Materials science, Band gap, Mechanical Engineering, chemistry.chemical_element, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Copper, chemistry.chemical_compound, chemistry, Chemical engineering, Mechanics of Materials, Sputtering, 0103 physical sciences, Titanium dioxide, Photocatalysis, Methyl orange, General Materials Science, Thin film, 0210 nano-technology

Abstract

The 100-nm titanium dioxide (TiO2) thin film and its composites with copper (Cu) underlayers of various thicknesses, 4 nm–16 nm, were fabricated on glass substrates by a DC-magnetron sputtering technique. Optical properties of the pristine and the composite films revealed that increasing Cu underlayer thickness greatly increased their absorption in the entire visible region, leading to a decrease in the band gap energy. This should significantly enhance the solar-driven catalytic activity. However, it was found that the photocatalytic activity under the UV radiation determined from photo-degradation of methyl orange (MO) of thick Cu underlayer films exhibited the reduction in degradation rate. The photoluminescence indicated that Cu nanoparticles at TiO2/Cu interface layer not only generated shallow level defects in TiO2 band gap but also acted as recombination centers for photo-generated carriers. This phenomenon was the result of the presence of Cu surface roughness as well as the presence of large aggregates in thick Cu layers. Therefore, the life time and the number of free carriers transported to the TiO2 surface decreased causing the reduction in photodegradation activity of TiO2 composite films.

Published

2020

4. Effect of Polyaniline content on the capacitance of Polyaniline/Carbon powder composite

Author

Santi Rattanaveeranon and Piyapong Asanithi

Subjects

Supercapacitor, History, Materials science, Composite number, chemistry.chemical_element, Sulfuric acid, Electrochemistry, Capacitance, Computer Science Applications, Education, chemistry.chemical_compound, Galvanostat, chemistry, Polyaniline, Carbon, Nuclear chemistry

Abstract

Developing capacitor with high capacitance and power capacity has received much attention in the scientific research. This research aimed to study the effect of polyaniline (PANI) content on the capacitance of the capacitor fabricated from PANI/carbon powder composites. Wasted-sweet potato was used as the source of carbon for synthesizing carbon powder (CP). Two types of CP were considered in the study, including with and without sulfuric acid pre-treatment. For CP without acid treatment, the sweet potato was heated at 900 °C for 2 h in argon atmosphere. For CP with acid treatment, the sweet potato was reacted with concentrated sulfuric acid for 2 h and then heated at 900 °C for 2 h in argon atmosphere. Both samples were ground before use. PANI contents of 0-5 %wt were used to combine with the CP samples. SEM, FTIR and potentiostat/galvanostat, respectively, investigated the physical, chemical and electrochemical properties of the composites. The electrochemical results showed that 5 %wt PANI composited with acid-treated CP provided the highest specific capacitance of 304.87 F/g. This composite also showed high stability under charge-discharge investigation. This study confirms that carbon powder synthesized from wasted-sweet potato composited with PANI can be useful for developing supercapacitor.

Published

2019

5. EFFECT OF SURFACE ENERGY ON THE GROWTH OF DIAMOND-LIKE CARBON/AMORPHOUS SILICON FILMS ON VARIOUS SUBSTRATES

Author

C. Srisang, Artorn Pokaipisit, Piyapong Asanithi, Supanee Limsuwan, and Pichet Limsuwan

Subjects

Amorphous silicon, Materials science, Diamond-like carbon, General Chemical Engineering, Analytical chemistry, Sputter deposition, Surface energy, Contact angle, chemistry.chemical_compound, chemistry, Transmission electron microscopy, Ellipsometry, Instrumentation, Layer (electronics), General Environmental Science

Abstract

Diamond-like carbon/amorphous silicon bilayer films were deposited on SiO2, Ge, and Ta2O5 substrates using a pulsed filtered cathodic arc (PFCA) system. Amorphous silicon (a-Si) layer was firstly deposited on three substrates using DC magnetron sputtering, then diamond-like carbon (DLC) film was deposited on a-Si layer via pulsed filtered cathodic arc. The thicknesses of a-Si layer and DLC film as monitored by in-situ ellipsometry during the film deposition were 7 and 10 nm, respectively. The surface energy of SiO2, Ge, and Ta2O5 substrates was determined by measuring the contact angle of water on these substrates. It was found that the contact angles of water on SiO2, Ge, and Ta2O5 substrates were 53°, 63°, and 75°, respectively. This result indicates that SiO2 has the highest surface energy while Ta2O5 has the lowest surface energy. The thickness of the a-Si layer and DLC film was determined from the cross-section transmission electron microscopy (TEM) images. The thinnest a-Si layer of 5.64 nm was obta...

Published

2013

6. Blue photoluminescent carbon nanodots from limeade

Author

Chandra Sekhar Tiwary, Piyapong Asanithi, I-Ming Tang, Pulickel M. Ajayan, S. Porntheeraphat, Jutaphet Wetcharungsri, Rassmidara Hoonsawat, and Phitsini Suvarnaphaet

Subjects

Citrus, Photoluminescence, Materials science, Biocompatibility, Optical Phenomena, Iron, chemistry.chemical_element, Quantum yield, Bioengineering, Nanotechnology, 02 engineering and technology, Saccharomyces cerevisiae, 010402 general chemistry, Photochemistry, Cell morphology, Spectrum Analysis, Raman, 01 natural sciences, law.invention, Biomaterials, Beverages, Hydrothermal carbonization, law, Quantum Dots, Cell Shape, Ions, Graphene, 021001 nanoscience & nanotechnology, Carbon, 0104 chemical sciences, Solutions, chemistry, Mechanics of Materials, Luminescent Measurements, Spectrophotometry, Ultraviolet, Nanodot, 0210 nano-technology

Abstract

Carbon-based photoluminescent nanodot has currently been one of the promising materials for various applications. The remaining challenges are the carbon sources and the simple synthetic processes that enhance the quantum yield, photostability and biocompatibility of the nanodots. In this work, the synthesis of blue photoluminescent carbon nanodots from limeade via a single-step hydrothermal carbonization process is presented. Lime carbon nanodot (L-CnD), whose the quantum yield exceeding 50% for the 490 nm emission in gram-scale amounts, has the structure of graphene core functionalized with the oxygen functional groups. The micron-sized flake of the as-prepared L-CnD powder exhibits multicolor emission depending on an excitation wavelength. The L-CnDs are demonstrated for rapidly ferric-ion (Fe3 +) detection in water compared to Fe2 +, Cu2 +, Co2 +, Zn2 +, Mn2 + and Ni2 + ions. The photoluminescence quenching of L-CnD solution under UV light is used to distinguish the Fe3 + ions from others by naked eyes as low concentration as 100 μM. Additionally, L-CnDs provide exceptional photostability and biocompatibility for imaging yeast cell morphology. Changes in morphology of living yeast cells, i.e. cell shape variation, and budding, can be observed in a minute-period until more than an hour without the photoluminescent intensity loss.

Published

2016

7. Effect of Sericin Protein on Growth of Hydroxyapatite over Surface of Silk Fibers Using Simulated Body Fluid

Author

Supanee Limsuwan, Pichet Limsuwan, Onanong Sukjai, and Piyapong Asanithi

Subjects

Materials science, Simulated body fluid, General Engineering, Nucleation, Biomaterial, Sericin, law.invention, Crystal, SILK, Chemical engineering, law, High surface area, Composite material, Crystallization

Abstract

Crystal of hydroxyapatite (HAp) was grown on silk fibers using simulated body fluid (SBF) at a temperature of 37 °C. Effect of SBF concentrations and sericin protein on the growth of HAp crystals on the silk fiber was discussed. The results showed that sericin protein was an important parameter to induce HAp crystals. Furthermore, the crystal was grown perfectly for both 1.0 and 1.5  standard SBF concentrations but difference in HAp crystal size. Sericin protein may lower nucleation barrier and high surface area to absorb SBF for HAp nucleation. These results may be a new research topic on HAp crystallization using protein as a seed. It may lead to further improvement and applied for many HAp-based biomaterial applications.

Published

2012

8. Characterization of SiC in DLC/a-Si films prepared by pulsed filtered cathodic arc using Raman spectroscopy and XPS

Author

C. Srisang, Piyapong Asanithi, Pichet Limsuwan, Krisda Siangchaew, and Artorn Pokaipisit

Subjects

Materials science, Diamond-like carbon, Analytical chemistry, General Physics and Astronomy, chemistry.chemical_element, Germanium, Surfaces and Interfaces, General Chemistry, Substrate (electronics), Sputter deposition, Condensed Matter Physics, Surfaces, Coatings and Films, symbols.namesake, X-ray photoelectron spectroscopy, chemistry, Ellipsometry, symbols, Raman spectroscopy, Layer (electronics)

Abstract

DLC/a-Si films were deposited on germanium substrates. a-Si film was initially deposited as a seed layer on the substrate using DC magnetron sputtering. DLC film was then deposited on the a-Si layer via a pulsed filtered cathodic arc (PFCA) system. In situ ellipsometry was used to monitor the thicknesses of the growth films, allowing a precise control over the a-Si and DLC thicknesses of 6 and 9 nm, respectively. It was found that carbon atoms implanting on a-Si layer act not only as a carbon source for DLC formation, but also as a source for SiC formation. The Raman peak positions at 796 cm−1 and 972 cm−1 corresponded to the LO and TO phonon modes of SiC, respectively, were observed. The results were also confirmed using TEM, XPS binding energy and XPS depth profile analysis.

Published

2012

9. A volumetric flask as a projector

Author

Piyapong Asanithi, Veeradate Piriyawong, Voranuch Thongpool, Supanee Limsuwan, and Pichet Limsuwan

Subjects

Materials science, business.industry, General Physics and Astronomy, Magnification, Laser, Education, law.invention, Lens (optics), Optics, Volume (thermodynamics), Projector, law, Laser pointer, Light beam, business, Natural pond

Abstract

A lens based on liquid in the confined volume of a volumetric flask was presented as a potential projector to observe microscopic floating organisms or materials. In this experiment, a mosquito larva from a natural pond was selected as a demonstration sample. By shining a light beam from a laser pointer of any visible wavelength through the volumetric flask filled with liquid, the movements of floating objects were clearly observed on a screen. The magnification was simply controlled by changing either the volume of the flask or the distance of the screen from the flask.

Published

2012

10. Non-Chemically Functionalized Graphene Exfoliated from Graphite in Water using Ultrasonic Treatment

Author

Pichet Limsuwan, B. Puangbuppha, and Piyapong Asanithi

Subjects

Materials science, Scanning electron microscope, Graphene, Sonication, General Medicine, law.invention, symbols.namesake, Distilled water, law, Homogeneity (physics), symbols, Graphite, Distilled Water, Composite material, Raman spectroscopy, Spectroscopy, Engineering(all)

Abstract

Single-, bi-, and multilayer graphenes were successfully prepared by sonicating bulk graphite in distilled water. Effect of different sonication times, including 3, 6, 12, 36, and 72 hours, on thickness of graphene layer were reported. Sonication time strongly affected the homogeneity and sedimentation of the graphene suspensions. Longer time of sonication enhanced the suspension homogeneity as well as increased the concentration of exfoliated graphene. The stably dispersed suspensions were obtained from 36 and 72 hours of sonication time, representing a clear gray suspension for more than 3 months. Thickness of the resulted graphenes was measured by scanning electron microscopy (SEM). UV-visible spectroscopy and Raman spectroscopy were used to investigate the graphitic characteristics of the exfoliated graphenes.

Published

2012

11. Synthesis of Carbon Particles using Laser Ablation in Ethanol

Author

Voranuch Thongpool, Pichet Limsuwan, and Piyapong Asanithi

Subjects

Range (particle radiation), Laser ablation, Materials science, Photoluminescence, Analytical chemistry, food and beverages, Pulse duration, General Medicine, Laser, Fluorescence, law.invention, Graphite flake, symbols.namesake, law, symbols, Graphite, Raman spectroscopy, Absorption (electromagnetic radiation), Carbon particles, Engineering(all)

Abstract

Carbon particles were synthesized via laser ablation of a bulk graphite in ethanol medium using Nd:YAG laser with a wavelength of 1064 nm. The target was irradiated by the laser beam with a pulse energy of 3 J, a pulse repetition rate of 2 Hz, and a pulse duration of 5 ms. Effect of using ethanol as a liquid medium for laser ablation on physical, chemical, and optical properties of resulted carbon particles was reported. SEM images presented that a flake-like morphology of graphite in the target has been transformed into a flower-like cluster after the ablation. Raman measurement showed that G peak position of the graphite flakes and that of the synthesized carbon particles were similar, about 1582 cm-1, whereas D peak position and its shape of the synthesized particles was different from those of graphite flakes. UV-visible and fluorescent spectrometers were used to investigate absorption and emission characteristics of the particles, respectively. The carbon particles can absorb a light in the UV range and emit a photoluminescence of bright blue-green color.

Published

2012

12. Raman Spectroscopy of DLC/a-Si Bilayer Film Prepared by Pulsed Filtered Cathodic Arc

Author

Piyapong Asanithi, Krisda Siangchaew, Artorn Pokaipisit, Supanee Limsuwan, Pichet Limsuwan, and C. Srisang

Subjects

Materials science, Article Subject, Bilayer, Analytical chemistry, chemistry.chemical_element, Germanium, Substrate (electronics), Sputter deposition, Cathodic protection, symbols.namesake, chemistry, Amorphous carbon, lcsh:Technology (General), symbols, lcsh:T1-995, General Materials Science, Raman spectroscopy, Layer (electronics)

Abstract

DLC/a-Si bilayer film was deposited on germanium substrate. The a-Si layer, a seed layer, was firstly deposited on the substrate using DC magnetron sputtering and DLC layer was then deposited on the a-Si layer using pulsed filtered cathodic arc method. The bilayer films were deposited with different DLC/a-Si thickness ratios, including 2/2, 2/6, 4/4, 6/2, and 9/6. The effect of DLC/a-Si thickness ratios on the sp3content of DLC was analyzed by Raman spectroscopy. The results show that a-Si layer has no effect on the structure of DLC film. Furthermore, the upper shift inGwavenumber and the decrease inID/IGinform that sp3content of the film is directly proportional to DLC thickness. The plot modified from the three-stage model informed that the structural characteristics of DLC/a-Si bilayer films are located close to the tetrahedral amorphous carbon. This information may be important for analyzing and developing bilayer protective films for future hard disk drive.

Published

2012

13. Variation of Color in Zirconium Nitride Thin Films Prepared by Reactive DC Magnetron Sputtering

Author

Pichet Limsuwan, Piyapong Asanithi, Pattarinee Klumdoung, and Surasing Chaiyakun

Subjects

chemistry.chemical_compound, Materials science, genetic structures, chemistry, General Engineering, Analytical chemistry, Wafer, Zirconium nitride, Gold color, Thin film, Sputter deposition, Deposition (chemistry), Volumetric flow rate

Abstract

This study is to evaluate a color variation of the zirconium nitride thin film, prepared from deposition technique of different N2 flow rates, ranging from 0.0 to 3.0 sccm, whereas the Ar flow rate is fixed at 3 sccm. The thin film was deposited on an unheated silicon wafer (100) via a reactive DC magnetron sputtering. The deposition current and deposition time were 0.6 A and 15 minutes, respectively. In the study, colors of film were changed from silver, gold, dark brown, brown, purple, pink to blue, when N2 flow rate further increase. Interestingly, the results indicate that gold color occurs in a very small interval of N2 flow rate.

Published

2011

14. Preparation of Carbon Nanoparticles by Long Pulsed Laser Ablation in Water with Different Laser Energies

Author

Somyod Denchitcharoen, Piyapong Asanithi, Pichet Limsuwan, and Voranuch Thongpool

Subjects

Laser ablation, Materials science, law, Nd:YAG laser, General Engineering, Analytical chemistry, Nanoparticle, Particle, Particle size, Graphite, Laser, Laser ablation synthesis in solution, law.invention

Abstract

Carbon nanoparticles were synthesized via laser ablation of graphite target in distilled water. The particle sizes of carbon nanoparticles were investigated as a function of laser energy: 1, 1.5, and 2 J/pulse. Using water as a matrix during synthesis is another potential way to control the particle size. The mean size increases when increasing the laser energy. The particle morphology is a globular shape. The sizes of the nanoparticle were evaluated from both SEM image analysis and Scherrer’s equation. The sizes from the equation are smaller than those obtained from SEM, which indicates that the particles are polycrystallines.

Published

2011

15. Stabilized Nanoporous Metals by Dealloying Ternary Alloy Precursors

Author

Alan B. Dalton, Jonah Erlebacher, Piyapong Asanithi, and Josh Snyder

Subjects

Materials science, chemistry, Mechanics of Materials, Nanoporous, Mechanical Engineering, chemistry.chemical_element, General Materials Science, Nanotechnology, Platinum, Ternary alloy

Published

2008

16. Growth of Silver Nanoparticles by DC Magnetron Sputtering

Author

Piyapong Asanithi, Pichet Limsuwan, and Surasing Chaiyakun

Subjects

Materials science, Article Subject, Direct current, Nanoparticle, Nanotechnology, Ag nanoparticles, Sputter deposition, Silver nanoparticle, Grain size, Chemical engineering, Sputtering, Transmission electron microscopy, lcsh:Technology (General), lcsh:T1-995, General Materials Science

Abstract

Silver (Ag) nanoparticles are of great interest for many applications. However, their fabrications have been limited by the synthesis methods in which size, shape, and aggregation are still difficult to control. Here, we reported on using direct current (DC) magnetron sputtering for growing Ag nanoparticles on unheated substrates. Effects of sputtering condition on grain size of Ag nanoparticle were discussed. At constant sputtering current and deposition time, the average sizes of Ag nanoparticles were 5.9 ± 1.8, 5.4 ± 1.3, and 3.8 ± 0.7 nm for the target-substrate distances of 10, 15, and 20 cm, respectively. The morphology evolution from nanoparticles to wormlike networks was also reported. High-resolution transmission electron microscopy image represented clear lattice fringes of Ag nanoparticles with a d-spacing of 0.203 nm, corresponding to the (200) plane. The technique could be applied for growth of nanoparticles that were previously difficult to control over size and size uniformity.

Published

2012

17. Preparation and Characterization of Alumina Nanoparticles in Deionized Water Using Laser Ablation Technique

Author

Piyapong Asanithi, Pichet Limsuwan, Veeradate Piriyawong, and Voranuch Thongpool

Subjects

Diffraction, Laser ablation, Materials science, Absorption spectroscopy, Article Subject, Analytical chemistry, Nanoparticle, Laser, law.invention, Wavelength, law, lcsh:Technology (General), lcsh:T1-995, General Materials Science, Particle size, Spectroscopy

Abstract

Al2O3nanoparticles were synthesized using laser ablation of an aluminum (Al) target in deionized water. Nd:YAG laser, emitted the light at a wavelength of 1064 nm, was used as a light source. The laser ablation was carried out at different energies of 1, 3, and 5 J. The structure of ablated Al particles suspended in deionized water was investigated using X-ray diffraction (XRD). The XRD patterns revealed that the ablated Al particles transformed intoγ-Al2O3. The morphology of nanoparticles was investigated by field emission scanning electron microscopy (FE-SEM). The FE-SEM images showed that most of the nanoparticles obtained from all the ablated laser energies have spherical shape with a particle size of less than 100 nm. Furthermore, it was observed that the particle size increased with increasing the laser energy. The absorption spectra of Al2O3nanoparticles suspended in deionized water were recorded at room temperature using UV-visible spectroscopy. The absorption spectra show a strong peak at 210 nmarising from the presence of Al2O3nanoparticles. The results on absorption spectra are in good agreement with those investigated by XRD which confirmed the formation of Al2O3nanoparticles during the laser ablation of Al target in deionized water.

Published

2012

18. Carbon-nanotube-based materials for protein crystallization

Author

Rajesh Ponnusamy, Izabela Jurewicz, Jamie A. S. Cleaver, Eric W. Brunner, Lata Govada, Alan B. Dalton, Naomi E. Chayen, Emmanuel N. Saridakis, Richard P. Sear, and Piyapong Asanithi

Subjects

Nanotube, food.ingredient, Materials science, Surface Properties, Nucleation, Gelatin, law.invention, Crystal, food, law, Phase (matter), Materials Testing, General Materials Science, Crystallization, Particle Size, chemistry.chemical_classification, Nanotubes, Carbon, Biomolecule, Proteins, Crystallography, chemistry, Chemical engineering, Adsorption, Protein crystallization, Protein Binding

Abstract

We report on the first use OF carbon-nanotube-based films to produce crystals of proteins. The crystals nucleate on the surface of the film. The difficulty of crystallizing proteins is a major bottleneck in. the determination of the structure and function of biological molecules. The crystallization of two model proteins and two medically relevant proteins was studied. Quantitative data on the crystallization times of the model protein lyozyme are also presented. Two types of nanotube films, one made with the surfactant Triton X-100 (TX-100) and one with gelatin, were tested. Both induce nucleation of the crystal phase at supersaturations at which the protein solution would otherwise remain clear: however, the gelatin-based film induced nucleation down to much lower supersaturations for the two model proteins with which it was used. it appears that the interactions of gelatin with the protein molecules are particularly favorable to nucleation. Crystals of the C I domain of the human cardiac myosin-binding protein-C that diffracted to a resolution of 1.6 angstrom were obtained on the TX-100 film. This is far superior to the best crystals obtained using standard techniques, which only diffracted to 3.0 angstrom. Thus, both of our nanotube-based films are very promising candidates for future work on crystallizing difficult-to-crystallize target proteins.

Published

2010

19. Formation of SiC in DLC/a-Si films as characterized by Raman spectroscopy and XPS

Author

Krisda Siangchaew, Piyapong Asanithi, Artorn Pokaipisit, Pichet Limsuwan, and C. Srisang

Subjects

History, Materials science, Bilayer, Analytical chemistry, chemistry.chemical_element, Germanium, Substrate (electronics), Sputter deposition, Computer Science Applications, Education, symbols.namesake, chemistry, X-ray photoelectron spectroscopy, Ellipsometry, symbols, Raman spectroscopy, Layer (electronics)

Abstract

Bilayer DLC/a-Si films was deposited on germanium substrate. a-Si films was initially deposited as a seed layer on the substrate using DC magnetron sputtering. DLC films was then deposited on the a-Si layer via a pulsed filtered cathodic arc (PFCA) system. In situ ellipsometry was used to monitor growth in thickness of a-Si and DLC films, allowing a good control over growth conditions. The thickness of DLC and a-Si layers were 9 nm and 6 nm, respectively. In this work, the interface of a-Si and DLC layers was investigated by Raman spectroscopy and X-ray photoelectron spectroscopy (XPS). It was found that the SiC layer was formed at the interface of a-Si and DLC layers.

Published

2013

20. Aligned, isotropic and patterned carbon nanotube substrates that control the growth and alignment of Chinese hamster ovary cells

Author

Che Azurahanim Che Abdullah, Shaoli Fang, Márcio D. Lima, Eric W. Brunner, Piyapong Asanithi, Chiara Bo, Alan B. Dalton, Richard P. Sear, Ray H. Baughman, Raquel Ovalle-Robles, Izabela Jurewicz, Xavier Lepró, Chihye Lewis Azad, and Steve Collins

Subjects

Nanotube, Time Factors, Morphology (linguistics), Materials science, Bioengineering, Nanotechnology, CHO Cells, Carbon nanotube, Microscopy, Atomic Force, law.invention, Cricetulus, Tissue engineering, law, Cricetinae, Animals, General Materials Science, Electrical and Electronic Engineering, Cell Shape, Lithography, Nanoscopic scale, Cell Proliferation, Microscopy, Confocal, Nanotubes, Carbon, Mechanical Engineering, Chinese hamster ovary cell, Substrate (chemistry), General Chemistry, Mechanics of Materials

Abstract

Here we culture Chinese hamster ovary cells on isotropic, aligned and patterned substrates based on multiwall carbon nanotubes. The nanotubes provide the substrate with nanoscale topography. The cells adhere to and grow on all substrates, and on the aligned substrate, the cells align strongly with the axis of the bundles of the multiwall nanotubes. This control over cell alignment is required for tissue engineering; almost all tissues consist of oriented cells. The aligned substrates are made using straightforward physical chemistry techniques from forests of multiwall nanotubes; no lithography is required to make inexpensive large-scale substrates with highly aligned nanoscale grooves. Interestingly, although the cells strongly align with the nanoscale grooves, only a few also elongate along this axis: alignment of the cells does not require a pronounced change in morphology of the cell. We also pattern the nanotube bundles over length scales comparable to the cell size and show that the cells follow this pattern.

Published

2011

21. Electronic carbon-nanotube-based materials for protein crystallization

Author

Piyapong Asanithi, Rajesh Ponnusamy, Izabela Jurewicz, Alan B. Dalton, Emmanuel N. Saridakis, Lata Govada, Richard P. Sear, Jamie A. S. Cleaver, Eric W. Brunner, and Naomi E. Chayen

Subjects

Materials science, Chemical engineering, Structural Biology, law, Carbon nanotube, Protein crystallization, law.invention

Published

2010

22. Growth of Hydroxyapatite on Silk Fibers Using Simulated Body Fluid

Author

Pichet Limsuwan, Onanong Sukjai, Supanee Limsuwan, and Piyapong Asanithi

Subjects

Materials science, Simulated body fluid, Silk, General Medicine, Sericin, law.invention, Hydroxyapatite, Simulated Body Fluid, Crystal, Condensed Matter::Materials Science, SILK, Optical microscope, stomatognathic system, law, Condensed Matter::Strongly Correlated Electrons, Composite material, Engineering(all)

Abstract

Crystals of hydroxyapatite (HAp) were grown on silk fibers using simulated body fluid (SBF) at a temperature of 37 °C. Two different conditions of silk thread were investigated for efficiency of inducing HAp: i) with sericin protein and ii) without sericin protein. Effect of simulated body fluid (SBF) concentrations at 1.0 × SBF and 1.5 × SBF and sericin protein on HAp growth was discussed. The results showed that HAp was successfully crystallized on silk from both 1.0 × SBF and 1.5 × SBF concentrations. The crystal size obtained from the 1.5 × SBF concentration was larger than that of the 1.0 × SBF concentration. However, it was found that the 1.5 × SBF offered less number of the crystals per unit area than that of the 1.0 × SBF. The physical and chemical compositions of HAp were characterized by XRD, SEM and optical microscopy. This study may be very useful for many applications, especially in biomedical and material science.

23. Influence of Bulk Graphite Density on Electrical Conductivity

Author

S. Rattanaweeranon, Pichet Limsuwan, Veeradate Piriyawong, Voranuch Thongpool, and Piyapong Asanithi

Subjects

Materials science, Scanning electron microscope, Graphene, Sonication, Analytical chemistry, Temperature, General Medicine, Conductivity, Electrical Conductivity, law.invention, symbols.namesake, Electrical resistivity and conductivity, law, symbols, Graphite, Volume density, Composite material, Raman spectroscopy, Engineering(all), Graphene oxide paper

Abstract

Electrical conductivity of bulk graphite was investigated as a function of its volume density and temperature. The bulk graphite was prepared from pressing natural graphite powders obtained from two different conditions: i) without any treatment and ii) with 24 hr of ultrasonic treatment. Powders from each condition were consolidated using an isobaric press of different pressures, including 5, 10, 20, 30, 40 and 50 MPa. Ultrasonic treatment helped to exfoliate graphene from its parent graphite which enhanced the electrical conductivity of the compressed bulk graphite. Scanning electron microscopy (SEM) and UV-Vis spectroscopy confirmed that multilayer graphenes and nanographite were obtained after the sonication. Raman spectroscopy was also used to investigate the graphitic characteristics of sonicated graphite. The bulk graphite of 50 MPa consolidation from the sonicated powders offered the highest electrical conductivity which was due to its highest density as well as a combination of multilayer graphene. Effect of temperature on the electrical conductivity was discussed. The conductivity increases when increasing the temperature.

24. Effect of Laser Pulse Energy on the Formation of Alumina Nanoparticles Synthesized by Laser Ablation in Water

Author

Piyapong Asanithi, Pichet Limsuwan, Veeradate Piriyawong, and Voranuch Thongpool

Subjects

Materials science, Laser ablation, Alumina, Analytical chemistry, Nanoparticle, chemistry.chemical_element, Laser Ablation, General Medicine, Laser, Laser ablation synthesis in solution, law.invention, Suspension (chemistry), Wavelength, Chemical engineering, chemistry, law, Aluminium, Nanoparticles, Laser Energy, Spectroscopy, Engineering(all)

Abstract

Alumina nanoparticles were synthesized from a bulk aluminium using laser ablation from Nd:YAG laser with a wavelength of 1064 nm in deionized water. Physical and chemical properties of the nanoparticles were investigated as a function of the laser pulse energies, including 1, 3 and 5 J. 3 J of laser energy offered plenty of spherical nanoparticles with a uniform size distribution of less than 100 nm. UV-visible spectroscopy was used to evaluate the optical property of the obtained suspension, representing a strong peak at 213 nm. XRD analysis showed that plenty of the nanoparticles are κ-Al2O3, which would be very useful for many applications.