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1. Preparation and Evaluation of PVDF-HFP-Based Gel Electrolyte for Ge-Sensitized Thermal Cell

Author

Yadong Chai and Sachiko Matsushita

Subjects
gel polymer electrolyte, thermal energy conversion, thermoelectric material, semiconductor, redox reaction, renewable energy, Organic chemistry, QD241-441
Abstract

The semiconductor-sensitized thermal cell (STC) is a new thermoelectric conversion technology. The development of nonliquid electrolytes is the top priority for the practical application of the STC. In this study, a novel gel polymer electrolyte (PH-based GPE) composed of poly(vinylidenefluoride-co-hexafluoropropylene) (PH), 1-Methyl-2-pyrrolidone (NMP), and Cu ions was synthesized and applied to the STC system. The PH-based GPE synthesized at 45 °C showed higher open-circuit voltage (−0.3 V), short-circuit current density (59 μA cm−2) and diffusion coefficient (7.82 × 10−12 m2 s−1), indicating that a well-balanced structure among the NMP molecules was formed to generate a high-efficiency conduction path of the Cu ions. Moreover, the ion diffusion lengths decreased with decreasing content rates of NMP for the PH-based GPEs, indicating that the NMP plays an important role in the diffusion of Cu ions. Furthermore, the activation energy was calculated to be 107 kJ mol−1, and that was smaller compared to 150 kJ mol−1 for the poly(ethylene glycol)-based liquid electrolyte. These results play an important reference role in the development of electrolytes for STC systems. At the same time, they also provide a new avenue and reference indicator for the synthesis of high-performance and safe GPEs.

Published
2024
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2. Effect of tin substitution on the chemical composition and thermal expansion properties of Zr2SP2O12

Author

Ryosuke Uehara, Sachiko Matsushita, Akira Nakajima, and Toshihiro Isobe

Subjects
negative thermal expansion, x-ray powder diffraction, phase transition, hydrothermal, Clay industries. Ceramics. Glass, TP785-869
Abstract

Zr2-xSnxSyP2O12-δwas prepared using a hydrothermal synthesis method, and its thermal expansion properties were evaluated. The solid solubility limit of Sn was found to be approximately x = 0.6, and the substitution of Sn influenced the formation of defects at S sites. All Sn-substituted Zr2-xSnxSyP2O12-δ samples had smaller coefficients of thermal expansion(αv) than Zr2SP2O12. The lowest αv value obtained was approximately −125 ppm/K for Zr1.8Sn0.2S0.9P2O12‐δ at 373–453 K. Rietveld analysis revealed that the values of polyhedral volume, bond angle variance, and quadratic elongation in the MO6 octahedron of Zr2-xSnxSyP2O12-δ were larger than those of Zr2SP2O12. From these results, it was suggested that the increase in distortion caused by S vacancies can lead to increase in the lattice volume and control of CTEs.

Published
2021
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3. Gas separation using Knudsen and surface diffusion II: Effects of surface modification of epoxy/porous SiO2 composite

Author

Toshihiro Isobe, Masaki Nishimura, Yasuhiro Takada, and Sachiko Matsushita

Subjects
Ceramic-matrix composites (CMCs), Gas permeability, Clay industries. Ceramics. Glass, TP785-869
Abstract

Epoxy/porous SiO2 composites were prepared with the pore surface modified using various silane coupling agents. The N2 adsorption and desorption isotherm shows that the porous SiO2 used for raw materials has sufficiently high pore volume. Their pore sizes, calculated using Barrett–Joyner–Halenda method as less than 20 nm was markedly smaller than the mean free path of the gases used for this study. The respective degrees of gas selectivity CO2/N2, CH4/N2, and O2/N2 were measured. Results show that the epoxy/porous SiO2 composite surface-modified by APTES only exhibits CO2/N2 gas selectivity at a lower pressure drop. It originates in the affinity between amino group of the APTES and CO2 gas. The epoxy/porous SiO2 composite treated by APTES also shows gas separation capability. The 80% N2/20% CO2 mix gas was converted into 68.2% N2/31.8% CO2 gas after gas separation tests at 25 °C. The gas separation capability was maintained at high temperatures. The 80% N2/20% CO2 mix gas was converted into 70.8% N2/29.2% CO2 gas at 100 °C.

Published
2014
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4. Simulation Design for Rutile-TiO2 Nanostructures with a Large Complete-Photonic Bandgap in Electrolytes

Author

Toshihiro Isobe, Akira Nakajima, Sachiko Matsushita, and Mikiro Hayashi

Subjects
photonic band diagram, photonic band gap, photocatalyst, dye-sensitized solar cell, electrochemical reaction, Crystallography, QD901-999
Abstract

The photonic bands of various TiO2 2D photonic crystals, i.e., cylindrical, square and hexagonal columns connected with/without walls and filled with acetonitrile, were investigated from the perspective of dye-sensitized solar cells. The finite-difference time-domain methods revealed that two-dimensional (2D) photonic crystals with rods connected with walls composed of TiO2 and electrolytes had complete photonic band gaps under specific conditions. This optimally designed bandgap reaches a large Δω/ωmid value, 1.9%, in a triangular array of square rods connected with walls, which is the largest complete 2D bandgap thus far reported for a photochemical system. These discoveries would promote the photochemical applications of photonic crystals.

Published
2012
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8. Preparation of amorphous carbon membranes synthesized via a glucose-solution hydrothermal method

Author

Yosuke Nakamura, Sachiko Matsushita, Akira Nakajima, and Toshihiro Isobe

Subjects
Process Chemistry and Technology, Materials Chemistry, Ceramics and Composites, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Abstract

Carbon-based membranes are in the limelight as novel and high-performance materials for various applications. In this study, microporous carbon membranes were synthesized on porous alumina via a hydrothermal method from aqueous glucose solutions. The operating time and temperature for the hydrothermal treatment by evaluating the surface microstructure of the as-prepared membranes using various techniques like scanning electron microscopy (SEM) and electron probe microanalyzer mapping (EPMA). The SEM micrographs and the EPMA results indicate that the membranes formed were also deposited in the interiors of the porous alumina. A carbon membrane with few pinholes was prepared via a hydrothermal treatment at 200 °C for 5 h. The X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS) and Fourier-transform infrared spectroscopy (FTIR) analyses suggest that the obtained membranes are composed of amorphous carbon, including hydroxy groups. The result of the gas transmission rate (GTR) measurement indicates that the pore size of the amorphous carbon membranes had pores with a diameter of ∼0.3 nm. The ideal gas selectivities for H2/N2, N2/CH4, and H2/SF6 were over Knudsen theoretical values, showing approximately 7.0, 9.5, and 13.5, respectively.

Published
2023

10. Decomposition of 2-naphthol in water and antiviral activity by CoOx modified (Ce0.8,Bi0.2)O2−δ and (Ce0.8,La0.2)O2−δ in the dark or under visible light

Author

Akira Nakajima, Kayano Sunada, Sachiko Matsushita, Toshihiro Isobe, Chihiro Kato, Nobutomo Otsuka, Hitoshi Ishiguro, and Takeshi Nagai

Subjects
chemistry.chemical_compound, Materials science, chemistry, Materials Chemistry, Ceramics and Composites, Photocatalysis, General Chemistry, Condensed Matter Physics, Photochemistry, Decomposition, 2-Naphthol, Visible spectrum
Published
2021

11. Active Micromixer of Microfluids via Plasmonic Marangoni Convection

Author

Koichi Hasebe, Hiroaki Agawa, Akira Nakajima, Sachiko Matsushita, Toshihiro Isobe, and Akihiro Matsutani

Subjects
Convection, Marangoni effect, Chemistry, Microfluidics, Micromixer, Metal nanostructures, Nanotechnology, General Chemistry, Colloidal crystal, Liquid waste, Plasmon
Abstract

Chemical reactions can be efficiently carried out in microfluidic devices using a small amount of solution, meaning that fewer resources are required and less liquid waste is generated, making them...

Published
2021

12. Transparent porous La2Mo2O9 thin film preparation and antibacterial and antiviral activities

Author

Akira Saruwatari, Akira Nakajima, Sachiko Matsushita, Toshihiro Isobe, Takeshi Nagai, Hitoshi Ishiguro, and Kayano Sunada

Subjects
Vacuum ultraviolet, Spin coating, chemistry.chemical_compound, Materials science, chemistry, Chemical engineering, Acetylacetone, Materials Chemistry, Ceramics and Composites, General Chemistry, Thin film, Condensed Matter Physics, Porosity
Published
2021

13. Effect of titanium substitution on the improvement of the thermal expansion properties of Zr2S0.9P2O12-δ

Author

Akira Nakajima, Sachiko Matsushita, Toshihiro Isobe, and Yuri Adachi

Subjects
010302 applied physics, Phase transition, Materials science, Solid solubility, Process Chemistry and Technology, Substitution (logic), chemistry.chemical_element, Thermodynamics, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Thermal expansion, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Lattice constant, Volume (thermodynamics), chemistry, Lattice (order), 0103 physical sciences, Materials Chemistry, Ceramics and Composites, 0210 nano-technology, Titanium
Abstract

This paper reports on the effect of Ti substitution on the thermal expansion behavior of Zr2-xTixS0.9P2O12-δ. The solid solubility limit of Ti in Zr2-xTixS0.9P2O12-δ was approximately x = 0.7 and could be classified into two types of Zr2-xTixS0.9P2O12-δ: x = 0–0.38 and x = 0.46–0.7. The all-Ti-substituted Zr2-xTixS0.9P2O12-δ had a smaller lattice volume than Zr2S0.9P2O12-δ. Zr2-xTixS0.9P2O12-δ (x = 0–0.38) showed a similar thermal expansion behavior to Zr2S0.9P2O12-δ, but Zr2-xTixS0.9P2O12-δ (x = 0.46–0.70) was less deformable than Zr2-xTixS0.9P2O12-δ (x = 0–0.38). In other words, Ti has two effects: reduction of the lattice constant and inhibition of the phase transition. Zr1.62Ti0.38S0.9P2O12-δ had the smallest lattice volume among the chemical compositions with a dynamic phase transition and had the lowest αv value of −114 ppm/K at 393–453 K.

Published
2021

14. Surface Treatment of Polyimide Using Solid-source H2O Plasma for Fabrication of Ge Electrode.

Author

Mie Tohnishi, Mina Sato, Akihiro Matsutani, Takashi Ubukata, and Sachiko Matsushita

Subjects
OXYGEN plasmas, HYDROGEN plasmas, SURFACE preparation, FOURIER transform spectroscopy, X-ray photoelectron spectroscopy, PHOTOELECTRON spectroscopy, ELECTRODES
Abstract

We demonstrated the surface treatment of polyimide using solid-source H2O plasma for the fabrication of Ge thin films as an electrode of flexible devices. By using the solid-source H2O plasma, the internal stress of a polyimide sheet with deposited Ge was decreased, and the adhesion between the polyimide and Ge was also improved. In addition, the solid-source H2O plasma treatment was effective for increasing the bending durability and decreasing the resistance of the Ge electrode on a polyimide surface. Moreover, we analyzed a polyimide surface treated with solid-source H2O plasma, by Fourier transform IR spectroscopy and X-ray photoelectron spectroscopy. We believe that the proposed solid-source H2O plasma process is useful for bonding between polyimide and Ge in the fabrication of flexible semiconductor electrodes. [ABSTRACT FROM AUTHOR]

Published
2023
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16. Liquid and gas separation abilities of carbon membranes synthesized using hydrothermal method

Author

Akira Nakajima, Miki Inada, Shoya Sano, Sachiko Matsushita, and Toshihiro Isobe

Subjects
Materials science, chemistry.chemical_element, General Chemistry, Condensed Matter Physics, Hydrothermal circulation, Membrane, chemistry, Chemical engineering, Materials Chemistry, Ceramics and Composites, medicine, Gas separation, Carbon, Activated carbon, medicine.drug
Published
2020

17. Local structure investigation of WOx cluster modified on titanium-substituted hydroxyapatite for promoting charge separation under UV illumination

Author

Kana Ishisone, Sachiko Matsushita, Toshihiro Isobe, Masato Wakumura, Takahiro Takei, and Akira Nakajima

Subjects
Materials science, Charge separation, chemistry.chemical_element, General Chemistry, Tungsten, Condensed Matter Physics, Local structure, X-ray absorption fine structure, Chemical engineering, chemistry, Materials Chemistry, Ceramics and Composites, Cluster (physics), Photocatalysis, Titanium
Published
2020

18. Fermi Level Dependence of a Working Electrode on the Open Circuit Voltage in a Sensitized Thermal Cell

Author

Hayato Sekiya, Seiya Sugawara, Takumi Ikeda, Sachiko Matsushita, Toshihiro Isobe, Takuma Araki, Akira Nakajima, and Haruki Kohata

Subjects
Working electrode, 010405 organic chemistry, Chemistry, business.industry, Open-circuit voltage, Fermi level, Physics::Optics, General Chemistry, 010402 general chemistry, 01 natural sciences, Quantitative Biology::Cell Behavior, 0104 chemical sciences, law.invention, Condensed Matter::Materials Science, Dye-sensitized solar cell, symbols.namesake, Semiconductor, law, Thermal, Solar cell, symbols, Optoelectronics, Physics::Chemical Physics, business, Thermal energy
Abstract

A sensitized thermal cell is a new thermal energy device based on a dye-sensitized solar cell; thermally excited carriers in a semiconductor are used instead of photon-excited carriers in a dye. In...

Published
2020

19. In-situ Temperature Measurement of Local Photothermal Conversion

Author

Sachiko Matsushita, Toshihiro Isobe, Koichi Hasebe, Akihiro Matsutani, Toshihiko Takeshima, Akira Nakajima, and Mina Sato

Subjects
In situ, Nanostructure, business.industry, Chemistry, Optoelectronics, Metal nanostructures, General Chemistry, Colloidal crystal, business, Temperature measurement, Photothermal conversion, Plasmon
Abstract

Plasmonic photothermal conversion on metal nanostructures has attracted much attention because of its quick response and its local effects. In this work, we built an in-situ two-dimensional tempera...

Published
2020

23. Plasmonic nanostructures fabricated via cost-effective method: plasmonic color pigment and microfluid device

Author

Sachiko Matsushita

Subjects
Materials science, Nanostructure, Fabrication, business.industry, Diamond, Dielectric, Colloidal crystal, engineering.material, engineering, Optoelectronics, Nanorod, Dewetting, business, Plasmon
Abstract

The demand for the fabrication of nanostructures consisting of metal and dielectric is increasing with the development of new plasmonic optics. Since 1997, the presenter has produced various dielectric nanostructures by the bottom-up method and reported their optical and electrochemical properties such as light propagation in two-dimensional polystyrene colloidal crystals[1], the electron emission of diamond nanorods arrays[2], photochemical micro beakers composed of TiO2[3], etc. The advantages of the bottom-up method are that you can easily try various materials in addition to being able to easily perform experiments at the laboratory level. In this presentation, we will report about the various nanostructures fabricated using thermal dewetting process of metal/dielectric interface[4], focusing on the application to the plasmonic color pigment and microfluid devices. 1 Chem. Commun. 2004, 506. 2 Chem. Lett. 2000, 29, 534. 3 Chem. Lett. 1997, 925. 4 Nanoscale Adv., 2020, 2, 2271.

Published
2021

24. Decomposition of 2-naphthol in water and antibacterial property by NiO and CeOx modified TiO2 in the dark or under visible light

Author

Mimori Shiohara, Akira Yamaguchi, Akira Nakajima, Chihiro Kato, Masahiro Miyauchi, Sachiko Matsushita, Toshihiro Isobe, Kayano Sunada, and Hitoshi Ishiguro

Subjects
Antibacterial property, Materials science, Non-blocking I/O, General Chemistry, Condensed Matter Physics, Photochemistry, Decomposition, chemistry.chemical_compound, chemistry, Materials Chemistry, Ceramics and Composites, Photocatalysis, 2-Naphthol, Visible spectrum
Published
2019

25. Effects of MoO modification on photocatalytic activity of hydroxyapatite and Ti-doped hydroxyapatite

Author

Noppakhate Jiraborvornpongsa, Sachiko Matsushita, Toshihiro Isobe, Akira Yamaguchi, Akira Nakajima, Masato Wakamura, and Masahiro Miyauchi

Subjects
Materials science, Photoluminescence, General Chemical Engineering, Doping, Oxide, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, Metal, Electron transfer, chemistry.chemical_compound, chemistry, Mechanics of Materials, Chemisorption, law, visual_art, Photocatalysis, visual_art.visual_art_medium, Calcination, Hydroxyapatite Modification Mo Photocatalyst Ti, 0210 nano-technology, Nuclear chemistry
Abstract

Titanium-doped hydroxyapatite (Ti-HAp, (Ca10-2x, Tix, hx) (PO4)6(OH)2, h: defect in Ca site) and hydrox- yapatite (HAp, Ca10(PO4)6(OH)2) powders were modified with an ethanol solution of molybdenyl acety- lacetonate (MoO2(C5H8O2)2) using chemisorption calcination cycle (CCC) technique, which provides metal oxide clusters. Their photocatalytic activity under UV illumination was evaluated by the decompo- sition of gaseous 2-propanol. The photocatalytic activity of the Mo-modified Ti-HAp samples increased concomitantly with increasing Mo concentration up to 0.72% against P. The highest photocatalytic activ- ity of Mo-modified Ti-HAp was about 13 times higher than that of Ti-HAp. The signal appearance of Mo (V) in electron spin resonance spectra and the decrease of photoluminescence intensity suggest electron transfer from the Ti-hybridized band to the MoOx cluster, which suppresses recombination of the pho- toinduced electron and hole pairs. The photocatalytic activity of Mo-modified HAp samples was attribu- ted to HOMO–LUMO excitation of MoOx cluster.

Published
2019

26. Preparation and decomposition activity of MnO -modified (Ce0.73, Bi0.27)O2-δ on 2-naphthol in water in the dark or under visible light

Author

Akira Nakajima, Nobutomo Otsuka, Sachiko Matsushita, and Toshihiro Isobe

Subjects
Valence (chemistry), Oxide, 02 engineering and technology, Crystal structure, Activation energy, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Photochemistry, 01 natural sciences, 0104 chemical sciences, Ion, chemistry.chemical_compound, chemistry, Photocatalysis, General Materials Science, 0210 nano-technology, Solid solution, Visible spectrum
Abstract

Using hydrothermal processing, we prepared cerium–bismuth solid solution oxide powder ((Ce0.73, Bi0.27)O2-δ, CBO) with brownish yellow color, a fluorite-type crystal structure, and decomposition activity on 2-naphthol in water at 50–75 °C in the dark. The contribution of the Mars – van Krevelen (MvK) mechanism was inferred from the activation energy and the valence change of Ce ion before and after decomposition. Photocatalysis by visible light illumination increased the CBO decomposition activity. Modification of MnOx onto the CBO provided higher decomposition activity on 2-naphthol in the dark or under visible light. The activation energy and the valence difference indicated that the dark activity was imparted by the MvK mechanism of MnOx. A contribution by oxygen diffusion in CBO was inferred as enhancing the MvK mechanism. The decomposition activity was obtained even at 30 °C. A synergistic effect achieved by the combination of CBO with MnOx was inferred from calculation of the reaction constants. Results also show that MnOx modification extended the CBO photon absorption range.

Published
2019

27. Ag2S-Sensitized Thermal Cell

Author

Sachiko Matsushita, Toshihiro Isobe, Yuri Inagawa, and Akira Nakajima

Subjects
Materials science, business.industry, Analytical chemistry, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, Redox, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Ion, Micrometre, chemistry.chemical_compound, General Energy, Semiconductor, Ferrocene, chemistry, Excited state, Thermal, Physical and Theoretical Chemistry, 0210 nano-technology, business
Abstract

Sensitized thermal cells (STCs) are a new green power generation system operated by heating without a cooling temperature part. Here, we suggest Ag2S-sensitized thermal cells working at a low temperature (below 200 °C) and have a stylish sheet form. TiO2 was used for the electron transport layer, and ferrocene/ferricinium ions dissolved in dimethyl sulfoxide was selected for the redox couple ions. The Ag2S STCs generated power under light irradiation and at 90 °C in the dark. Electrochemical measurements and ICP-MS (inductively coupled plasma–mass spectrometry) indicated that thermally excited carriers caused the redox reaction and power generation occurred with heating. This result is an example of the first STC where the semiconductor part is less than a micrometer in size, not only improving the volume density of STC but also showing the possibility of STC with design awareness including flexibility.

Published
2019

28. Preparation and photocatalytic activity of Mo-modified Ti-doped HAp

Author

Kotaro Fujii, Masato Wakamura, Mitsutake Oshikiri, Noppakhate Jiraborvornpongsa, Sachiko Matsushita, Toshihiro Isobe, Akira Nakajima, and Masatomo Yashima

Subjects
Materials science, Photoluminescence, Morphology (linguistics), Aqueous solution, Process Chemistry and Technology, Doping, 02 engineering and technology, Crystal structure, 010402 general chemistry, 021001 nanoscience & nanotechnology, Photochemistry, 01 natural sciences, Decomposition, Catalysis, 0104 chemical sciences, Specific surface area, Photocatalysis, 0210 nano-technology, General Environmental Science
Abstract

Titanium-doped hydroxyapatite (Ti-HAp, (Ca10-2x, Tix, □x) (PO4)6(OH)2, □: defect in Ca site) powders were modified with a CaMoO4 aqueous solution. Then their photocatalytic activity under UV illumination was evaluated by the decomposition of gaseous 2-propanol. The crystal structure, morphology, light absorption, and specific surface area were almost unchanged by the modification, but small clusters were deposited onto the Ti-HAp surface. The photocatalytic activity of the Mo-modified samples increased concomitantly with increasing Mo concentration until 0.5% against Ti. The highest photocatalytic activity of Mo-modified Ti-HAp was about nine times higher than that of Ti-HAp. Computer modeling revealed that the contribution of MoO42− doping into the Ti-HAp structure plays no important role in the activity increase. A Mo(V) signal appeared by UV illumination in electron spin resonance spectra of Mo-modified Ti-HAp. The Mo modification decreased the photoluminescence intensity. These results suggest that photoinduced electrons can transfer from the Ti-hybridized band to the cluster, thereby improving the carrier separation efficiency and engendering higher photocatalytic activity.

Published
2019

29. A sensitized thermal cell recovered using heat

Author

B. Mei, J. Nishiyama, Yuri Inagawa, Takuma Araki, Akira Nakajima, Seiya Sugawara, Sachiko Matsushita, and Toshihiro Isobe

Subjects
Battery (electricity), Chemical substance, Materials science, Renewable Energy, Sustainability and the Environment, business.industry, Geothermal energy, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, Engineering physics, Power (physics), Semiconductor, Thermal, General Materials Science, Electric power, 0210 nano-technology, business, Thermal energy
Abstract

You can find thermal energy everywhere in the world, including geothermal energy. Here we report an amazing battery that could supply power semi-permanently by simply burying the cell in a heat source and turning the switch on and off. We examined the discharge termination process of a sensitized thermal cell (STC), a new thermal energy conversion system for generating electrical power from heat previously reported by the authors. To observe this termination process, we constructed a new STC system using a narrow-bandgap semiconductor, germanium (Ge), and surprisingly found that the battery characteristics were restored after discharging by placing or burying the battery in a heat source. This discovery should bring us closer to solving global energy problems.

Published
2019

30. Photocatalytic activity of Zr2(WO4)(PO4)2

Author

Sachiko Matsushita, Toshihiro Isobe, Yuko Hayakawa, and Akira Nakajima

Subjects
010302 applied physics, Materials science, Process Chemistry and Technology, Analytical chemistry, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Amorphous solid, Crystal, chemistry.chemical_compound, Adsorption, chemistry, Specific surface area, 0103 physical sciences, Materials Chemistry, Ceramics and Composites, Photocatalysis, Acetone, 0210 nano-technology
Abstract

Amorphous precursor was synthesized hydrothermally and heated to 900 °C for 4 h to obtain a single-phase Zr 2 (WO 4 )(PO 4 ) 2 crystal with a specific surface area of approximately 11 m 2 /g. The crystallographic parameters were experimentally estimated and the resulting approximate values used for density-functional-theory calculations. The indirect band-gap energy was calculated to be approximately 3.7 eV, in good agreement with the experimental value. Finally, the photocatalytic activity of Zr 2 (WO 4 )(PO 4 ) 2 was investigated that revealed its high adsorption capacity for 2-propanol, decomposing it into acetone and CO 2 .

Published
2019

31. Semiconductor-Sensitized Thermal Cells Operated Under 100 °C

Author

Sachiko Matsushita, Haruki Kohata, Yoshiharu Hida, Kenta Tamaki, Mone Hemmi, Akira Nakajima, and Toshihiro Isobe

Abstract

Concept The semiconductor-sensitized thermal cell (STC) is a new method for converting heat directly into electric power using dye-sensitized solar cells (DSSC). In the STC, the dye of DSSC was replaced with a semiconductor to allow the system to operate using heat instead of light.1 The number of thermally excited charges in a semiconductor is determined by the Fermi-Dirac distribution2; for example, Ge generates a number of thermally excited charges that exceeds the number of photons in room light at 80 ˚C. STC is expected as a powerful energy-harvesting device for wide applications such as IoT devices, distribution power sources, etc. Previous Results As the STC demonstration, liquid display was operated at 80 ˚C and Bluetooth devices was operated in the heat of asphalt.3 The biggest issue of STC is the power restore phenomena “in” heat. Initially, it was thought that the STC would stop generating electricity when it reached a chemical equilibrium at the set temperature. However, when the distance between the electrodes is close, the discharge performance restores when the circuit switch is turned off. In this presentation, we will focus on this recovery and electrochemically investigate what kind of phenomenon causes the recovery. Methods and Results To examine the recovery phenomenon, we focused on the electrolyte thickness. The STCs consist of three layers, an electrolyte layer sandwiched with a semiconductor working electrode and a counter electrode. We fabricated 4 different Ge-STCs with different electrolyte thicknesses and examined their electrochemical properties. Fluorine-doped tin oxide (FTO) was used for the counter electrode. The CuCl, CuCl2 and LiCl in PEG600 was used for the electrolyte.4 The 0.78, 1, 2 and 3 μL of the electrolyte were used when the thicknesses of the electrolyte were 85, 114, 228 and 342 μm, respectively, to eliminate the difference in the contact area of the electrode/electrolyte. The obtained cells were named according to their corresponding electrode distances (Cell-85, -114, -228 and -342). As a result, the cell with the narrowest electrode spacing and the lowest electrolyte mass discharged the longest (Figure). In the presentation, we will report these phenomena and electrochemical impedance analysis in detail. References (a) Matsushita, S.; Araki, T.; Mei, B.; Sugawara, S.; Inagawa, Y.; Nishiyama, J.; Isobe, T.; Nakajima, A., A sensitized thermal cell recovered using heat. J. Mater. Chem. A 2019, 7, 18249-18256; (b) Matsushita, S.; Tsuruoka, A.; Kobayashi, E.; Isobe, T.; Nakajima, A., Redox reactions by thermally excited charge carriers: towards sensitized thermal cells. Mater. Horiz. 2017, 4, 649–656. Inagawa, Y.; Isobe, T.; Nakajima, A.; Matsushita, S., Ag2S-Sensitized Thermal Cell. J. Phys. Chem. C 2019, 123 (19), 12135-12141. Kohata, H.; Obinata, M.; Ikeda, T.; Sekiya, H.; Mei, B.; Wang, Y.; Mizukoshi, K.; Isobe, T.; Nakajima, A.; Matsushita, S., Power Generation at Room Temperature -How to Design of the Sensitized Thermal Cell-. Research Square 2021, 384614. (a) Ikeda, T.; Sekiya, H.; Kohata, H.; Isobe, T.; Nakajima, A.; Matsushita, S., Role of the ions in the Ge/(CuCl, CuCl2 and LiCl)/FTO-sensitized thermal cell. J. Electroanal. Chem. 2021, 895, 115413; (b) Matsushita, S.; Sugawara, S.; Ikeda, T.; Araki, T.; Sekiya, H.; Kohata, H.; Isobe, T.; Nakajima, A., Fermi Level Dependence of a Working Electrode on the Open Circuit Voltage in a Sensitized Thermal Cell. Chem. Lett. 2020, 49 (9), 1013-1016. Figure 1

Published
2022

32. Temperature Dependence of a Perovskite-Sensitized Solar Cell: A Sensitized 'Thermal' Cell

Author

Sachiko Matsushita, Toshihiro Isobe, Akira Nakajima, and Seiya Sugawara

Subjects
Work (thermodynamics), Materials science, business.industry, Energy Engineering and Power Technology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, Semiconductor, law, Excited state, Solar cell, Thermal, Materials Chemistry, Electrochemistry, Chemical Engineering (miscellaneous), Optoelectronics, Electric power, Electrical and Electronic Engineering, 0210 nano-technology, business, Excitation, Perovskite (structure)
Abstract

Efficient and low-cost thermal energy-harvesting systems are needed to solve the global energy problem. Here, we suggest a new energy conversion system for generating electric power from heat without a cooling element. This device is a sensitized thermal cell (STC) based on a dye-sensitized solar cell. A semiconductor is used instead of the dye, and as a result, this system can work by using heat instead of light. To prove the efficacy of this system, we focused on an organic perovskite. This material has been used in a sensitized solar cell, and recent calculations show that it can generate several thermally excited charges at temperatures over 60 °C. Thus, if this perovskite cell can generate electric power with both light irradiation and thermal excitation, the STC concept would be perfectly proven, and the device succeeds thanks to the careful analysis of the perovskite’s unstableness. This is the dawn of the three-dimensional utilization of heat.

Published
2018

33. Power Generation at Room Temperature -How to Design of the Sensitized Thermal Cell

Author

Takumi Ikeda, Mitsugu Obinata, Mei Biao, Akira Nakajima, Sachiko Matsushita, Toshihiro Isobe, Ye Wang, Hayato Sekiya, Kazushi Mizukoshi, and Haruki Kohata

Subjects
Electricity generation, Materials science, business.industry, Thermal, Optoelectronics, business
Abstract

The effective utilisation of thermal energy is crucial to a world aiming at sustainable development goals. The sensitised thermal cell (STC) is a new thermal energy conversion technology, which was reported in 2017, for generating electricity via the redox reactions of electrolyte ions with thermally excited carriers The effective utilisation of thermal energy is crucial to a world aiming at sustainable development goals. The sensitised thermal cell (STC) is a new thermal energy conversion technology, which was reported in 2017, for generating electricity via the redox reactions of electrolyte ions with thermally excited carriers in semiconductors. STC is attracting attention as a technology that could affect oil prices globally. Here, we report the successful construction of STC, which discharges and recovers well at room temperature, by studying the interelectrode and ion diffusion distances. The fabricated STC is thinner than 0.5 mm and can be rendered flexible. Further, STCs, which possess a power generation capacity of 0.1 mA, 100 mV per 1 mm2 area, and shall be installed “in” internet-of-things (IoT) devices, drainage pipes, and walls in the future.in semiconductors. STC is attracting attention as a technology that could affect oil prices globally. Here, we report the successful construction of STC, which discharges and recovers well at room temperature, by studying the interelectrode and ion diffusion distances. The fabricated STC is thinner than 0.5 mm and can be rendered flexible. Further, STCs, which possess a power generation capacity of 0.1 mA, 100 mV per 1 mm2 area, and shall be installed “in” internet-of-things (IoT) devices, drainage pipes, and walls in the future.

Published
2021

34. Power Generation at Room Temperature

Author

Sachiko Matsushita, Toshihiro Isobe, Akira Nakajima, Takumi Ikeda, Haruki Kohata, Ye Wang, Hayato Sekiya, Kazushi Mizukoshi, Mei Biao, and Mitsugu Obinata

Subjects
Electricity generation, Materials science, business.industry, Process engineering, business
Abstract

The effective utilisation of thermal energy is crucial to a world aiming at sustainable development goals. The sensitised thermal cell (STC) is a new thermal energy conversion technology, which was reported in 2017, for generating electricity via the redox reactions of electrolyte ions with thermally excited carriers in semiconductors. STC is attracting attention as a technology that could affect oil prices globally. Here, we report the successful construction of STC, which discharges and recovers well at room temperature, by studying the interelectrode and ion diffusion distances. The fabricated STC is thinner than 0.5 mm and can be rendered flexible. Further, STCs, which possess a power generation capacity of 0.1 mA, 100 mV per 1 mm2 area, and shall be installed “in” internet-of-things (IoT) devices, drainage pipes, and walls in the future.

Published
2021

35. The sensitized thermal cell: towards zero emissions of greenhouse gas

Author

Sachiko Matsushita

Subjects
Electricity generation, Power station, business.industry, Environmental science, Electric power, Electricity, business, Zero emission, Geothermal gradient, Thermal energy, Automotive engineering, Renewable energy
Abstract

The sensitized thermal cell (STC) is a battery that can convert heat directly into electric power at low environmental temperatures (100°C or lower). It can be buried in the ground and generate electricity directly from the Earth’s crust. This STC was originally suggested by the authors in 2017 (Mater. Horiz., 2017,4, 649-656), and media in different continents and countries, including Europa, the United States, Asia, Arab, and Africa, reported the STC as a sensational technique that can directly affect the oil price. The most valuable feature of the STC is, after the electricity generation was stop, the reaction could restart with a simple flip of an on/off switch in the external circuit after the electricity generation was stopped. These batteries could be, for example, buried in a geothermal spot and work as a power plant.

Published
2021

36. Preparation of cerium molybdates and their antiviral activity against bacteriophage Φ6 and SARS-CoV-2

Author

Sachiko Matsushita, Toshihiro Isobe, Takuro Ito, Takeshi Nagai, Hitoshi Ishiguro, Hisakazu Yano, Akira Nakajima, Ryuichi Nakano, Akiyo Nakano, Kayano Sunada, and Yuki Suzuki

Subjects
Materials science, Coronavirus disease 2019 (COVID-19), Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), coronavirus, chemistry.chemical_element, 02 engineering and technology, Molybdate, complex oxide, 010402 general chemistry, medicine.disease_cause, 01 natural sciences, Hydrothermal circulation, Article, Bacteriophage, chemistry.chemical_compound, Specific surface area, medicine, General Materials Science, Coronavirus, ComputingMethodologies_COMPUTERGRAPHICS, biology, Mechanical Engineering, 021001 nanoscience & nanotechnology, biology.organism_classification, Condensed Matter Physics, antiviral, 0104 chemical sciences, molybdate, Cerium, cerium, chemistry, Mechanics of Materials, 0210 nano-technology, Nuclear chemistry
Abstract

Graphical abstract, Two cerium molybdates (Ce2Mo3O12 and γ-Ce2Mo3O13) were prepared using either polymerizable complex method or hydrothermal process. The obtained powders were almost single-phase with different cerium valence. Both samples were found to have antiviral activity against bacteriophage Φ6. Especially, γ-Ce2Mo3O13 exhibited high antiviral activity against both bacteriophage Φ6 and SARS-CoV-2 coronavirus, which causes COVID-19. A synergetic effect of Ce and molybdate ion was inferred along with the specific surface area as key factors for antiviral activity.

Published
2021

38. 'Sensitized 'Thermal' Cell: A New Heat Conversion System to Electricity,'

Author

Sachiko Matsushita

Subjects
Work (thermodynamics), Global energy, Materials science, business.industry, New energy, Engineering physics, law.invention, Semiconductor, law, Solar cell, Thermal, Electricity, Electric power, business
Abstract

Efficient and low-cost thermal energy-harvesting systems are needed to solve the global energy problem. Here, we suggest a new energy conversion system for generating electric power from heat without a cooling element. This device is a sensitized thermal cell (STC) based on a dye-sensitized solar cell. A semiconductor is used instead of the dye, and as a result, this system can work by using heat instead of by light. This STC was created that generates electricity by “placing” or “burying” the cell in a heat source. In this invited talk, we will present the latest results of the STC research.

Published
2020

39. Coupling of wrinkle patterns to microsphere-array lithographic patterns

Author

Takuya Ohzono, Masatsugu Shimomura, and Sachiko Matsushita

Subjects
Materials science, Hexagonal crystal system, business.industry, General Chemistry, Condensed Matter Physics, Elastomer, Microsphere, Wavelength, Optics, medicine, Coupling (piping), Compression (geology), medicine.symptom, business, Lithography, Wrinkle
Abstract

We report a method to modulate spontaneously formed microwrinkle patterns on a metal-capped elastomer surface by introducing lithographic patterns (structures) on the original surface as spatial triggers for directed wrinkling. The lithographic patterns are designed to have approximately the same lateral length scales as the characteristic wavelength of the microwrinkles by utilizing self-assembled two-dimensional microsphere arrays with hexagonal packing as a lithographic mask. When the lateral periodicity of the lithographic pattern is close to the wavelength of wrinkles, a novel directional order originating from the hexagonal packing of microspheres is induced. Otherwise, the wrinkle crests tend to form along the small ridges of the lithographic structure. The compression direction-dependent and reversible ordering of wrinkle patterns by compressive strain is also found for patterns with directional order.

Published
2020

40. Development of a sensitized 'thermal' cell

Author

Sachiko Matsushita

Subjects
Materials science, business.industry, Renewable energy, law.invention, Semiconductor, law, Thermal, Solar cell, Optoelectronics, Energy transformation, Electric power, business, Thermal energy, Excitation
Abstract

Efficient and low-cost thermal energy-harvesting systems are crucial to solve the global energy problem. A new energy conversion system for the generation of electric power directly from heat energy is described herein. The device is a sensitized thermal cell (STC) based on a dye-sensitized solar cell. In the established system, thermally-excited electrons in a semiconductor were utilized instead of photon-excited electrons in a dye. Consequently, the STC generated electricity by “placing” or “burying” the cell in the heat source. The present study summarized the recent results of the STC and the difference between photo excitation and thermally excitation.

Published
2020

41. Effects of cerium and tungsten substitution on antiviral and antibacterial properties of lanthanum molybdate

Author

Akira Nakajima, Kayano Sunada, Takeshi Nagai, Sachiko Matsushita, Toshihiro Isobe, Hitoshi Ishiguro, and Matsumoto Takumi

Subjects
Materials science, chemistry.chemical_element, Bioengineering, 02 engineering and technology, Molybdate, 010402 general chemistry, medicine.disease_cause, 01 natural sciences, Antiviral Agents, Article, Ce, Tungsten, Biomaterials, Bacteriophage, chemistry.chemical_compound, Lanthanum, medicine, Escherichia coli, chemistry.chemical_classification, Molybdenum, biology, Cerium, 021001 nanoscience & nanotechnology, biology.organism_classification, antiviral, 0104 chemical sciences, La2Mo2O9, Anti-Bacterial Agents, antibacterial, Enzyme, chemistry, Mechanics of Materials, Alkaline phosphatase, 0210 nano-technology, Bacteriophage Qβ, Nuclear chemistry
Abstract

Powders of cerium (Ce)-substituted and tungsten (W)-substituted La2Mo2O9 (LMO) were prepared using polymerizable complex method. Their antiviral and antibacterial performances were then evaluated using bacteriophage Qβ, bacteriophage Φ6, Escherichia coli, and Staphylococcus aureus. The obtained powders, which were almost single-phase, exhibited both antiviral and antibacterial properties. Effects of dissolved ions on their antiviral activity against bacteriophage Qβ were remarkable. A certain contribution of direct contact to the powder surface was also inferred along with the dissolved ion effect for antiviral activity against bacteriophage Φ6. Dissolved ion effects and pH values suggest that both Mo and W are in the form of polyacids. Antiviral activity against bacteriophage Φ6 was improved by substituting Ce for La in LMO. Similarly to LMO, Ce-substituted LMO exhibited hydrophobicity. Inactivation of alkaline phosphatase enzyme proteins was inferred as one mechanism of the antiviral and antibacterial activities of the obtained powders., Graphical abstract Unlabelled Image, Highlights • Ce and W were partially substituted in La2Mo2O9 (LMO). • These powders inactivated E. coli, S. aureus, bacteriophage Qβ, and bacteriophage Φ6. • Inactivation of alkaline phosphatase enzyme proteins on these materials was confirmed. • Antiviral activity against bacteriophage Φ6 of LMO was improved by substituting Ce. • Hydrophobicity and UV shielding performance were also confirmed for this material.

Published
2020

42. Aluminium metal-insulator-metal structure fabricated by the bottom-up approach

Author

Takayuki Okamoto, Akira Nakajima, Sachiko Matsushita, Toshihiro Isobe, Mai Mita, and Rie Watanabe

Subjects
Free electron model, Materials science, Fabrication, Physics::Optics, chemistry.chemical_element, Sintering, Bioengineering, 02 engineering and technology, Metal-insulator-metal, Chemical vapor deposition, 010402 general chemistry, 01 natural sciences, Aluminium, General Materials Science, Plasmon, business.industry, Oscillation, General Engineering, General Chemistry, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, chemistry, Optoelectronics, 0210 nano-technology, business
Abstract

Plasmonic color is an elegant color resulting from light absorption and emission induced by collective oscillation of free electrons in a metal and enables unprecedented new color expression. In particular, Al plasmonic color is highly desirable because of the low cost and high stability of Al. Here, we report a new cost-effective, wide-area fabrication method for an Al metal–insulator–metal (MIM) plasmonic nanostructure using a vapor deposition and sintering process.

Published
2020

43. Direct observation of the morphology and peeling behavior of poly(vinyl alcohol) derivatives in water by scanning probe microscopy

Author

Kazuko Nakazono, Akira Nakajima, Kei Kobayashi, Sachiko Matsushita, and Toshihiro Isobe

Subjects
Vinyl alcohol, chemistry.chemical_compound, Scanning probe microscopy, Materials science, Morphology (linguistics), Pulmonary surfactant, chemistry, Chemical engineering, Materials Chemistry, Ceramics and Composites, Direct observation, General Chemistry, Condensed Matter Physics
Published
2018

44. Crystal face dependence of the decomposition of 2-naphthol in water under dark condition by rutile modified with MnOx

Author

Mimori Shiohara, Akira Nakajima, Sachiko Matsushita, and Toshihiro Isobe

Subjects
Materials science, 010405 organic chemistry, General Chemistry, 010402 general chemistry, Condensed Matter Physics, 01 natural sciences, Decomposition, 0104 chemical sciences, Crystal, chemistry.chemical_compound, Crystallography, chemistry, Rutile, Face (geometry), Materials Chemistry, Ceramics and Composites, 2-Naphthol
Published
2018

45. Surface potential on gold nanodisc arrays fabricated on silicon under light irradiation

Author

Tomotarou Ezaki, Sachiko Matsushita, Toshihiro Isobe, Akira Nakajima, Kunio Nishioka, Akihiro Matsutani, Dai Shoji, Takayuki Okamoto, and Mina Sato

Subjects
Materials science, Silicon, Physics::Optics, chemistry.chemical_element, 02 engineering and technology, Substrate (electronics), Electron, 010402 general chemistry, 01 natural sciences, symbols.namesake, Microscopy, Materials Chemistry, Rayleigh scattering, Plasmon, Kelvin probe force microscope, business.industry, Surfaces and Interfaces, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 0104 chemical sciences, Surfaces, Coatings and Films, chemistry, symbols, Optoelectronics, 0210 nano-technology, business, Electron-beam lithography
Abstract

This paper proposes Kelvin probe force microscopy (KFM) as a new measurement method of plasmon phenomenon. The surface potential of two arrays, namely, a monomeric array and a tetrameric array, of gold nanodiscs (600 nm diameter) on a silicon substrate fabricated by electron beam lithography was investigated by KFM with the view point of irradiation light wavelength change. In terms of the value of the surface potential, contrasting behaviour, a negative shift in the monomeric disc array and a positive shift in the tetrameric disc array, was observed by light irradiation. This interesting behaviour is thought to be related to a difference in localised plasmons caused by the disc arrangement and was investigated from various viewpoints, including Rayleigh anomalies. Finally, this paper reveals that KFM is powerful not only to investigate the plasmonic behaviour but also to predict the electron transportation.

Published
2018

46. Comparative study of the dynamic hydrophobicity of fluoroalkylsilane coatings tilted at acute and obtuse angles

Author

Sachiko Matsushita, Toshihiro Isobe, Munetoshi Sakai, Yuta Higashino, Akira Nakajima, and Hirokazu Takahashi

Subjects
Materials science, Angle dependence, technology, industry, and agriculture, 02 engineering and technology, Surfaces and Interfaces, General Chemistry, Surface finish, Chemical vapor deposition, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Surfaces, Coatings and Films, Physics::Fluid Dynamics, Colloid and Surface Chemistry, Drag, Homogeneity (physics), Velocity ratio, Composite material, 0210 nano-technology, Contact area, Slipping
Abstract

The relation between surface homogeneity and internal fluidity for a droplet sliding on a surface tilted at acute and obtuse angles was investigated using two hydrophobic fluoroalkylsilane (FAS) coatings with different roughness. The coatings (FAS-smooth and FAS-rough) were prepared on an Si substrate using chemical vapor deposition or soaking methods and were tilted at 35° or 145°. Sliding velocity of water droplets on the surface tilted at 145° was greater than that tilted at 35° for both coatings. For 35° tilting, the dominant mode of the sliding velocity was slipping for FAS-smooth, whereas rolling governed the entire sliding velocity for FAS-rough. The slipping mode was more important than the rolling one for both coatings when they were tilted at 145°. The change of slipping velocity was more remarkable than that of rolling one for both coatings between 35° and 145° tilting. Results show that the difference in gravity direction and contact area of the droplets contributed to this tilt angle dependence of the sliding velocity. When a droplet slid down with acceleration on FAS-smooth surface, the coefficient of the viscous drag force correlated with the velocity ratio (Utotal/Uslip).

Published
2018

47. Gold Nanocups Fabricated Using Two-Dimensional Colloidal Crystals and Simulation of Their Optical Trapping Force

Author

Hiroaki Agawa, Akira Nakajima, Takayuki Okamoto, Sachiko Matsushita, and Toshihiro Isobe

Subjects
Trap (computing), Optical tweezers, Chemistry, Nanotechnology, Metal nanostructures, 02 engineering and technology, General Chemistry, Colloidal crystal, 010402 general chemistry, 021001 nanoscience & nanotechnology, 0210 nano-technology, 01 natural sciences, 0104 chemical sciences
Abstract

Optical tweezers are powerful and flexible tools for manipulating micrometre-sized objects. Recently, metal nanostructures are gathering attention to trap nanometre-sized objects to utilize their p...

Published
2018

49. Anti-Bacterial and Photocatalytic Activities of (Mo0.5, W0.5)O3 with Cu(Mo0.5, W0.5)O4 Prepared by Impregnation Method and Mechanochemical Processing

Author

Sachiko Matsushita, Toshihiro Isobe, Akira Nakajima, Mai Mizutani, and Kayano Sunada

Subjects
021110 strategic, defence & security studies, Chemistry, 0211 other engineering and technologies, Photocatalysis, 02 engineering and technology, Anti bacterial, 021001 nanoscience & nanotechnology, 0210 nano-technology, Nuclear chemistry
Published
2018

50. Decomposition of 2-naphthol in water by TiO2 modified with SnOx or (Mn, Sn)Ox and MnOx

Author

Sachiko Matsushita, Toshihiro Isobe, Daichi Tanaka, and Akira Nakajima

Subjects
Thesaurus (information retrieval), Chemical substance, Materials science, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Decomposition, 0104 chemical sciences, law.invention, chemistry.chemical_compound, Search engine, chemistry, Chemical engineering, Magazine, law, Materials Chemistry, Ceramics and Composites, Photocatalysis, 0210 nano-technology, Science, technology and society, 2-Naphthol
Published
2018

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