particle - メーカー・企業11社の製品一覧とランキング

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particleのメーカー・企業ランキング

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  1. 住友精化 Osaka//others
  2. トクセン工業 本社 Hyogo//Building materials, supplies and fixtures manufacturers
  3. 希少金属材料研究所 Okayama//Building materials, supplies and fixtures manufacturers
  4. 4 宇部エクシモ Tokyo//others
  5. 5 セントラルテクノ Osaka//Trading company/Wholesale
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particleの製品ランキング

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  1. Olefins particles "Flowbeads" <Samples available> 住友精化
  2. Silver nanoparticles トクセン工業 本社
  3. Silver nanoparticles 'LM1' トクセン工業 本社
  4. Silver nanoparticles "M13" トクセン工業 本社
  5. Silica particles "Highpresica" synthesized from high-purity silicon compounds. 宇部エクシモ

particleの製品一覧

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Silica particles "Highpresica" synthesized from high-purity silicon compounds.

Silica particles "Highpresica" synthesized from high-purity silicon compounds.

High-precision microparticles known as "High Presica" have the characteristics of "uniform particle size," "spherical shape," "high purity," and "adjustable hardness."

High Presica is a microparticle synthesized from high-purity silicon compounds. There are hard silica particles that excel in load resistance and soft organic-inorganic hybrid particles that do not scratch delicate substrates. The characteristics of High Presica include a very uniform particle size (monodisperse), a nearly spherical shape, and extremely high purity. Leveraging these features, it is used as a spacer in liquid crystal displays (LCDs) to maintain uniform thickness in the cells containing liquid crystal materials, making it an essential component for enhancing LCD resolution. Additionally, it is used in various fields such as spacers for adjusting adhesive layer thickness, high-performance resin fillers (for semiconductor encapsulation materials, etc.), and particles for high-performance film coatings. *For more details, please download the catalog.*

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Tohoku University Technology: Intracellular delivery vehicle: T19-438

Tohoku University Technology: Intracellular delivery vehicle: T19-438

Cationic Polymers without cell toxicity

Cationic polymers are known to be used as nucleic drug delivery carrier because they are ease to be introduced into cells. However, it has been reported that the cationic polymers may inhibit cell proliferation by unspecific binding to intracellular proteins. This invention provides cationic polymer nanoparticles (nanogels) for intracellular delivery without inhibiting cell proliferation, by conducting radical polymerization reaction using a cationic polymerization initiator ADIP.  Properties of NIPAM-based cationic nanogels synthesizing through ADIP: ・Can be delivered into many kinds of cells (e.g. HeLa) simply by mixing cells and the nanogels without special treatment ・In cells, nanogels do not effect the cell division or the differentiation of the brown adipocyte ・Intracellular temperature can be measured because of the heat-sensitive unit NIPAM

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Properties of Gallium Oxide Nanoparticles

Properties of Gallium Oxide Nanoparticles

The range of size control is 10 to 2000 nm! It is a manufacturing method that synthesizes particles through direct oxidation.

The lack of sufficient breakdown voltage in aluminum oxide, titanium oxide, and silicon oxide is a problem. Our manufacturing method is a completely impurity-free process that uses 5N metal gallium to directly oxidize and synthesize particles. The developed gallium oxide nanoparticles have a diameter of 20nm and a length of 20 to 50nm. The method for synthesizing them in large quantities at this size is a new technology developed by our company. 【Features】 ■ Completely impurity-free process ■ Manufacturing method that directly oxidizes particles using 5N metal gallium ■ Nanoparticles with a diameter of 20nm and a length of 20 to 50nm ■ Size control range of 10 to 2000nm ■ Extremely chemically stable in terms of alkali and acid resistance *For more details, please refer to the PDF document or feel free to contact us.

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[Information] Introduction of various metal powders and oxide powders using our proprietary technology.

[Information] Introduction of various metal powders and oxide powders using our proprietary technology.

We have clearly presented an introduction to the particles made using conventional technology and our new manufacturing method.

This document introduces various types of metal powders and oxide powders based on our proprietary technology. It clearly presents an introduction to particles such as "flake metal particles like Fe, Ni, Cu" and "needle-like copper nanoparticles as well as metal nanoparticles like Fe, Ni, Co," distinguishing between conventional technologies and our new manufacturing methods. [Contents (excerpt)] - Introduction of flake metal particles like Fe, Ni, Cu - Introduction of needle-like copper nanoparticles and metal nanoparticles like Fe, Ni, Co - Magnetic nanoparticles of Fe, Ni, FeNi alloys, and FeCo alloys - Introduction of nanoparticles like SnO, ITO - Introduction of metal nanoparticles and oxide nanoparticles of metals like Ta, Nb, Mo, W *For more details, please refer to the PDF document or feel free to contact us.

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[Data] SAC composition of the world's smallest class size solder nanoparticles.

[Data] SAC composition of the world's smallest class size solder nanoparticles.

TEM-EDS! Composition analysis in a 200nm angular area shows that alloy nanoparticles with compositions close to the target have been produced.

This document introduces the "SAC composition of solder nanoparticles with the world's smallest class size." Composition analysis in a 200nm square area shows that alloy nanoparticles with a composition close to the target have been created. As for the electron diffraction analysis using TEM, it consists of a mixture of crystalline powders with β-Sn structure and Ag3Sn structure, suggesting that phase separation may have occurred during the reaction process. [Contents] - Introduction of solder composition Sn-Ag-Cu alloy nanoparticles - Lattice stripes of 10nm size particles - Composition analysis results of solder nanoparticles - Composition analysis area - EDX analysis Area 1 *For more details, please refer to the PDF document or feel free to contact us.

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High-resistance conductive tin oxide nanoparticles

High-resistance conductive tin oxide nanoparticles

Photos of the fabricated tin oxide nanoparticles' XRD and SEM!

This document introduces "High Resistance Conductive Tin Oxide Nanoparticles." It includes a table explaining representative samples and features photographs of the XRD of the produced tin oxide nanoparticles and the SEM of the produced tin oxide nanoparticles. Please take a moment to read it. [Contents (Excerpt)] ■ Explanation of Representative Samples ■ XRD of Produced Tin Oxide Nanoparticles 10–20nm ■ XRD of Produced Tin Oxide Nanoparticles 30–50nm Lot2 ■ XRD of Produced Tin Oxide Nanoparticles 50–100nm *For more details, please refer to the PDF document or feel free to contact us.

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[Data] New Liquid Phase Synthesis Method for Manganese Dioxide

[Data] New Liquid Phase Synthesis Method for Manganese Dioxide

A large-scale synthesis method for manganese dioxide nanoparticles sized 30-50 nm and fibrous manganese dioxide nanoparticles using a new liquid-phase synthesis method.

This document introduces a large-scale synthesis method for manganese dioxide nanoparticles sized 30 to 50 nm and fibrous manganese dioxide nanoparticles using a new liquid-phase synthesis method. Our company has established a method to control the reaction conditions in the liquid phase to synthesize precursors, which allows for control over particle size and shape using those precursors. With this method, it is possible to easily and cost-effectively synthesize large quantities of granular particles sized 40 nm and fibrous particles approximately 30 nm in diameter and 300 nm in length. [Contents] ■ Manufacturing methods and characteristics of manganese dioxide ■ Fibrous manganese dioxide nanoparticles ■ Manganese dioxide nanoparticles *For more details, please refer to the PDF document or feel free to contact us.

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Effects of non-colloidal nano-platinum particles

Effects of non-colloidal nano-platinum particles

I will introduce you to nano-platinum particles that have had their colloidal membrane removed, which have various effects.

Non-colloid nano-platinum particles are refined using a patented method that utilizes advanced nanotechnology to create platinum nanoparticles without adding a colloidal membrane for protection. This has made it possible to discover deodorizing effects and sterilizing and antibacterial effects that were previously hard to conceive based on conventional theories of platinum. Nano-platinum has high antioxidant power and is now being added to products such as food freshness preservers, cosmetics, and more recently, health foods and mineral water. 【Effects】 ■ Beauty and health ■ Deodorizing and antibacterial ■ Freshness preservation and antioxidant ■ Safety *For more details, please refer to the PDF document or feel free to contact us.

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Acrylic particles "Lumisis Marker"

Acrylic particles "Lumisis Marker"

No optical filters needed! Tracer particles suitable for flow visualization experiments and particle tracking methods.

The "Lumisis Marker" is a spherical acrylic particle (approximately 10μm) that contains the ultraviolet-excited phosphor "Lumisis." Complicated image processing such as masking is mostly unnecessary. Bubbles and debris on walls or in fluids are not visible, and optical filters are not required. Due to its invisible light, the halation caused by photography, which is a common issue, is almost nonexistent. 【Features】 ■ Particles that fluoresce in different colors when illuminated by a single light source ■ Almost no halation caused by photography due to invisible light ■ Bubbles and debris on walls or in fluids are not visible ■ Complicated image processing such as masking is mostly unnecessary ■ No optical filter required *For more details, please refer to the PDF document or feel free to contact us.

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Fluorescence of resin particles "Lumisis Marker"

Fluorescence of resin particles "Lumisis Marker"

Introducing cases where ultraviolet light, which is invisible, is used as a light source, as well as cases where visible light at 405nm (purple) is used as a light source!

The Lumisis Marker fluoresces strongly at wavelengths of 290 to 405 nm, and it has been confirmed that it also fluoresces at the visible light wavelength of 405 nm. When using ultraviolet light, which is invisible, only the Lumisis Marker fluoresces, and other objects such as walls and debris do not reflect light, making them invisible. When using visible light at 405 nm (purple) as the light source, the Lumisis Marker emits a fluorescent color, while other objects like walls and debris appear purple. When using common visible light such as blue, green, red, or white, all objects including the Lumisis Marker reflect the same color as the light source or the color of the objects themselves. *For more details, please refer to the PDF document or feel free to contact us.*

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Features of the spherical resin particles "Lumisis Marker"

Features of the spherical resin particles "Lumisis Marker"

Various thermoplastic resins are available as base materials! They show strong tendencies depending on the type.

"LumisisMarker" is a spherical resin particle containing our ultraviolet-excited phosphor "Lumisis." The ultraviolet-excited phosphor Lumisis is excited by ultraviolet wavelengths and shows a strong tendency to emit various colors such as red, blue, and green depending on the type. Various thermoplastic resins such as acrylic, nylon, polystyrene, and ABS can be used as the base material. 【Features】 ■ The excitation wavelength and fluorescence wavelength are the same as Lumisis's excitation wavelength. ■ The particle size can be controlled from the nanometer order to the 100μm order. ■ The proportion of Lumisis contained can be controlled. ■ The specific gravity is almost the same as that of the base resin. *For more details, please refer to the PDF document or feel free to contact us.

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Silver nanoparticles 'LS0305'

Silver nanoparticles 'LS0305'

TG (N2) is 0.1 to 0.35%! Introducing low-temperature sintered silver that can accommodate multiple solvent dispersions!

We would like to introduce our silver nanoparticles 'LS0305'. The particle shape is polyhedral, the particle size is 0.15 to 0.4 μm, and the specific surface area is 1.2 to 2.2 m²/g. We can accommodate multiple solvent dispersions. The shipping form is solvent dispersion, and the dispersible solvents include water, EtOH, DPM, C, CA, BC, TPM, and BCA. 【Properties (partial)】 ■ Particle shape: Polyhedral ■ Particle size (μm): 0.15 to 0.4 ■ Specific surface area (m²/g): 1.2 to 2.2 ■ Tap density (g/cm³): 4.5 to 6.5 ■ TG <N2> (%): 0.1 to 0.35 * You can download the English version of the catalog. * For more details, please refer to the PDF document or feel free to contact us.

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Silver nanoparticles "N300"

Silver nanoparticles "N300"

The electrical resistivity is 4.4 μΩ·cm (after sintering)! TG (N2) is 0.70 to 1.30%!

We would like to introduce our silver nanoparticles 'N300'. The tap density is 1.5 to 3.0 g/cm³, the specific surface area is 1.9 to 2.9 m²/g, and the thickness is ≤50 nm. The shipping form is powder. Additionally, the particle shape is flake-shaped, and the particle size is 0.3 to 0.5 μm. 【Properties (partial)】 ■ Particle shape: Flake shape ■ Particle size (μm): 0.3 to 0.5 ■ Thickness (nm): ≤50 ■ Specific surface area (m²/g): 1.9 to 2.9 ■ Tap density (g/cm³): 1.5 to 3.0 * You can download the English version of the catalog. * For more details, please refer to the PDF document or feel free to contact us.

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Production of spherical composite particles using granulation technology.

Production of spherical composite particles using granulation technology.

It is possible to control the particle size while maintaining a sharp particle size distribution!

We would like to introduce the production of spherical composite particles using our core technology and granulation technology. Spherical composite particles are composite materials made from fillers and resins using our uniquely developed granulation technology. You can choose any filler, and granules can be produced with functions derived from the filler. Additionally, we manufacture multiple types of fillers and can provide various proposals to meet your needs. 【Features】 ■ High fluidity ■ Control of particle characteristics ■ High filler loading *For more details, please refer to the PDF document or feel free to contact us.

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Olefins particles "Flowbeads" <Samples available>

Olefins particles "Flowbeads" <Samples available>

Foundation, suitable as a texture modifier for creams! It demonstrates excellent properties as a lubricant.

"Flowbeads" are spherical particles of olefins that can be used in various fields, such as cosmetic texture modifiers and various industrial additives. They have a nearly uniform particle size and a distribution close to a normal distribution, exhibiting good flowability and dispersibility, and excellent properties as a lubricant. [Features] - Spherical particles of olefins - Good flowability and dispersibility, showing excellent properties as a lubricant - Nearly uniform particle size with a distribution close to a normal distribution *For more details, please refer to the related link page or feel free to contact us.

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Gold nanoparticles

Gold nanoparticles

Colloidal gold nanoparticles for applications in biopharmaceuticals and imaging / Particle sizes: 5nm, 10nm, 20nm

Gold nanoparticles are of particular interest in the biomedical field due to their potential to utilize biomolecules, and they can be easily observed using a wide range of imaging systems, including UV-visible cameras, TEM, and SEM. Gold nanoparticles are used in a wide range of applications, from plasmonics-related and biosensor development to immunostaining, as well as in chemicals that enhance X-ray contrast and standards for SEM, TEM, UV-VIS cameras, and AFM. These high-quality gold nanoparticles meet NN-LABS' excellent quality control standards, achieving superior particle size distribution, monodispersity, and uniform morphology.

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[Business Introduction] Development of Various Nanoparticles

[Business Introduction] Development of Various Nanoparticles

Supercritical hydrothermal synthesis using only water as a solvent! Introduction to the nanoparticle research and development project.

We would like to introduce our business of "Development of Various Nanoparticles." Based on a supercritical hydrothermal synthesis method that does not require organic solvents, we are engaged in the design development and prototyping of nanoparticles. Our prototype equipment operates continuously, allowing us to positively respond to customer requests for the mass production of nanoparticles. We research, develop, and manufacture various new nanoparticles that can be used in a wide range of fields such as electrical and electronic component materials, magnetic materials, medical materials, phosphor materials, electrode materials, catalysts, and high-refractive-index materials, supporting companies in creating new functional products with new characteristics tailored to their needs. 【Features of Continuous Supercritical Hydrothermal Synthesis Method】 ■ All substances found on Earth can be continuously synthesized as nanosized particles. ■ The synthesis occurs at high temperatures, resulting in particles with good crystallinity. ■ By inducing uniform nucleation, particles with a narrow size distribution can be obtained. ■ The reaction time is very short, on the order of seconds, enabling large-scale production through continuous synthesis. ■ Nanoparticles with multi-component compositions can be synthesized. *For more details, please refer to the related links or feel free to contact us.

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Composite particles using ultra-fine bubbles: T20-3142

Composite particles using ultra-fine bubbles: T20-3142

Improving laser absorption rates makes it easier to shape with 3D printers, and also enhances corrosion resistance, heat resistance, and oxidation resistance.

■Introduction of Tohoku University Technology To reduce the amount of energy required to melt metal particles in 3D printing, it is effective to disperse nm-order ceramic particles on the surface of the metal particles, thereby increasing the surface area as metal-ceramic composite particles. Additionally, the composite particles offer advantages such as improved corrosion resistance, heat resistance, and oxidation resistance. However, both metal and ceramic particles are positively charged in water, making it challenging to produce uniform composite particles. The inventors have previously succeeded in creating composite particles using carbon nanotubes without the use of agents for surface charge adjustment or binders. This invention relates to a technology that uses ultra-fine bubbles to produce uniform metal-ceramic composite particles with completely removed impurities, without even adding carbon nanotubes. It is expected that by shaping the obtained composite particles with a 3D printer, composite materials with improved properties can be realized.

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Hokkaido Univ. Technology: Bio-Catalytic Approach to Mesoscopic Particle Synthesis :HK24-007

Hokkaido Univ. Technology: Bio-Catalytic Approach to Mesoscopic Particle Synthesis :HK24-007

Innovative method using hydrolytic action of enzymes

 Mesoscopic particles, ranging from several tens to several hundred nm in size, have attracted attention in a wide range of fields as interesting materials where quantum size effects and bulk effects interact or synergize. Regarding manufacturing methods, top-down approaches such as physical grinding and bottom-up approaches such as chemical synthesis have been proposed. However, these methods face challenges related to yield, dispersibility, and cost, necessitating new solutions.  In this study, the inventor has developed a novel manufacturing method to address these issues: the "Biocatalytic Nanoparticle Shaping method" (BNS method), which utilizes enzymes. The BNS method can be applied to fabricate various mesoscopic particles by combining enzyme-degradable materials with organic/inorganic materials. For example, semiconducting quantum dots (QDs), porphyrin molecules, bipyridine molecules, and nanographene were used as core units, resulting in nearly monodispersed mesoscopic particles with uniform sizes, obtained as stable aqueous dispersions.

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Rare Metal Materials Research Institute engaged in the development and manufacturing of new materials.

Rare Metal Materials Research Institute engaged in the development and manufacturing of new materials.

Creation and manufacturing of functional particles such as oxides, fluorides, and metal nanoparticles through new processes!

Our company was established with the aim of constructing various special liquid-phase reactions and using those processes to mass-produce materials that are considered difficult to supply in large quantities to the market, providing the materials needed by various domestic companies at low cost. This document includes "the advantages of particle control in the liquid phase from a fundamental perspective," as well as "contract evaluation of batteries and magnetic materials," "materials that we have started selling," and "introduction of flake metal particles such as Fe, Ni, and Cu." Please feel free to download and take a look. [Contents] ■ Purpose and features of our establishment ■ Features of our particle construction methods and introduction of specific developed particles ■ Introduction of metal powders and oxide powders produced by various synthesis methods *For more details, please refer to the PDF document or feel free to contact us.

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[Information] Introduction of Infrared Absorbing ITO Nanoparticles

[Information] Introduction of Infrared Absorbing ITO Nanoparticles

Photos of the "produced ITO nanoparticle dispersion" and materials featuring "the characteristics of our ITO nanoparticles," etc.

This document introduces "Infrared Absorbing ITO Nanoparticles." Our manufacturing method is a slight improvement on the conventional co-precipitation method, allowing for low-cost production. In small quantities, the price is 200,000 per kg for 1 kg to 100 kg, but at the ton level, it is possible to reduce the price to below 150,000 per kg. Please take a moment to read. [Contents (excerpt)] ■ Establishment of a low-temperature synthesis method for ITO nanoparticles with a minimum size of 10 nm ■ Manufacturing process ■ Dispersion of the produced ITO nanoparticles ■ Features of our ITO nanoparticles ■ ITO nanoparticles Example 1 *For more details, please refer to the PDF document or feel free to contact us.

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[Data] MgF2 nanoparticles with size control ranging from 10 to 100 nm.

[Data] MgF2 nanoparticles with size control ranging from 10 to 100 nm.

Publication of SEM and TEM observation results of 10nm-sized MgF2 nanopowders!

This document introduces MgF2 nanoparticle products with size control in the range of 10 to 100 nm. It includes SEM observation results of 10 nm size MgF2 nanopowders, SEM observation results of secondary spherical agglomerates of 10 nm size MgF2 nanopowders, and TEM observation results of 10 nm size MgF2 nanopowders. Please take a moment to read it. 【Contents (excerpt)】 ■ 10 nm size MgF2 nanopowders - SEM observation results of 10 nm size MgF2 nanopowders - SEM observation results of secondary spherical agglomerates of 10 nm size MgF2 nanopowders - TEM observation results of 10 nm size MgF2 nanopowders - Crystallite size and lattice fringes of MgF2 nanopowders observed by high-resolution TEM *For more details, please refer to the PDF document or feel free to contact us.

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[Information] Applications and Market Potential of Magnesium Fluoride Nanoparticles for Anti-Reflective Coatings

[Information] Applications and Market Potential of Magnesium Fluoride Nanoparticles for Anti-Reflective Coatings

It introduces methods for dealing with anti-reflection, including examples of using MgF2 powder.

Anti-reflective films are applied to surfaces such as camera lenses and LCD monitors, primarily aimed at improving "light transmittance" and preventing "reflected images on LCD monitor screens." This document covers the applications and market potential of magnesium fluoride nanoparticles for anti-reflective films. It introduces methods for addressing reflections, the applications of anti-reflective films, the uses of magnesium fluoride as a low refractive index material, and examples of using MgF2 powder. 【Contents (excerpt)】 ■ What is an anti-reflective film? ■ Methods for addressing reflections ■ Principles of anti-reflective films ■ Applications of anti-reflective films ■ Applications beyond building materials *For more details, please refer to the PDF document or feel free to contact us.

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InGaZnO-based oxide nanoparticles

InGaZnO-based oxide nanoparticles

An example of a composite oxide consisting of oxides made from In, Ga, and Zn with the addition of Sn is presented.

This document introduces InGaZnO-based oxide nanoparticles. It includes features of our manufacturing method, conductive particles of InGaZnO-based oxides with an average particle size of 10nm, and an example of a composite oxide made by adding Sn to oxides composed of In, Ga, and Zn. We invite you to read it. 【Contents】 ■ Features of our manufacturing method ■ Conductive particles of InGaZnO-based oxides with an average particle size of 10nm ■ An example of a composite oxide made by adding Sn to oxides composed of In, Ga, and Zn ■ Colorless transparent dispersion of InGaZnO-based oxide nanoparticles (solvent: water) *For more details, please refer to the PDF document or feel free to contact us.

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[Information] Introduction of fine Cu2O particles

[Information] Introduction of fine Cu2O particles

A document introducing photos of "Cu2O particles in aqueous dispersion," "SEM images of Cu2O particles," and "TEM images of Cu2O particles."

This document introduces fine Cu2O particles. It includes photos of "water-dispersed Cu2O particles," "SEM images of Cu2O particles," and "TEM images of Cu2O particles." Please take a moment to read it. 【Contents】 ■ Water-dispersed Cu2O particles ■ SEM images of Cu2O particles ■ TEM images of Cu2O particles *For more details, please refer to the PDF document or feel free to contact us.

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[Information] Introduction of GaN Nanoparticles

[Information] Introduction of GaN Nanoparticles

Introducing the crystal stripe patterns of GaN nanoparticles using TEM, along with easy-to-understand photographs!

This document introduces "GaN nanoparticles" handled by the Rare Metal Materials Research Institute. When the nano-dispersed liquid was dispersed on a mesh for TEM observation, the nanoparticles strongly aggregated, making clear observation difficult. However, from the lattice fringes, the particle size was approximately 10 nm, and distinct diffraction spots were observed in the electron diffraction pattern, indicating that the particles were crystalline. Please take a moment to read it. [Contents] ■ GaN nanocrystalline particles ■ Crystal stripe patterns of GaN nanoparticles observed by TEM ■ Electron diffraction patterns of GaN nanoparticles using TEM *For more details, please refer to the PDF document or feel free to contact us.

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[Information] On the Powder Properties of Ruthenium Oxide

[Information] On the Powder Properties of Ruthenium Oxide

Publication of images comparing particle shapes and sizes using SEM at magnifications of 50,000x and 100,000x.

This document introduces the "Powder Characteristics of Ruthenium Oxide." In the section "Summary of Comparisons of Various RuO2 Nanoparticles," we present tables based on SEM and TEM observation results, categorizing by powder type and our processed products A/B. Additionally, we include comparisons of particle shape and size using SEM, illustrated with photographs, so please take a moment to read through it. [Contents] ■ Summary of Comparisons of Various RuO2 Nanoparticles ■ Comparison of Particle Shape and Size Using SEM (magnification 50,000x / magnification 100,000x) ■ Differences in Particle State Based on Our Grinding Methods Compared Using SEM ■ Comparison of Particle Shape and Size from Various Companies Using TEM ■ Comparison of Particle Shape and Size Using TEM *For more details, please refer to the PDF document or feel free to contact us.

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[Data] Catalog of Low Melting Point Silver Particles

[Data] Catalog of Low Melting Point Silver Particles

A catalog featuring the size and characteristics of "silver submicron particles for low-temperature sintering" and "silver plate-like particles for low-temperature sintering."

This document introduces "low melting point silver particles." It includes the size, characteristics, applications, and photos of "submicron silver particles for low-temperature sintering" and "plate-shaped silver particles for low-temperature sintering." Additionally, as supplementary data, we have included SEM images of the sintering state at 300°C, so please take a look. [Contents] ■ Submicron silver particles for low-temperature sintering ■ Plate-shaped silver particles for low-temperature sintering ■ Supplementary data *For more details, please refer to the PDF document or feel free to contact us.

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Sample giveaway for 10 people: Zirconia nanoparticles 'Zirconeo'

Sample giveaway for 10 people: Zirconia nanoparticles 'Zirconeo'

Ideal for high refractive index materials and molding materials! Zirconia nanoparticles developed using supercritical technology. Samples available for a limited time to 10 people!

The zirconia nanoparticles "Zirconeo Series" are nanosized zirconia particles developed using Aitec's supercritical hydrothermal synthesis method. They excel in compatibility with resins and transparency, making them suitable for high refractive index materials and molding materials. We also provide zirconia nanoparticle dispersions in powder form or as dispersions in water or organic solvents. The transparent dispersion containing zirconia particles under 10nm shows excellent compatibility with UV-curable resins. 【Features】 ■ Particle size is under 10nm ■ Main crystal structure is tetragonal ■ Specific surface area is over 200 square meters/g ■ Samples are available in both powder and dispersion forms ~ Free sample giveaway ongoing! ~ * Customers wishing for zirconia samples should download the catalog, fill out the questionnaire, and return it via fax. * This is on a first-come, first-served basis, and will end once we reach 10 requests. * For more details, please download the catalog or contact us directly.

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Silver nanoparticles

Silver nanoparticles

Silver powder that achieves world-class conductivity and low-temperature sintering characteristics.

Attention semiconductor and circuit board designers! Are you looking to increase the conductivity of your products and reduce sintering temperatures? There are silver nanoparticles that exhibit remarkable performance in semiconductors and circuit boards, which are increasingly demanding higher performance. Introducing "TOSFINE" from Toxen Industries. "TOSFINE" is produced using our unique particle manufacturing technology, which processes each particle into a flake shape, resulting in silver powder that combines the handling characteristics of flakes with the properties of nanoparticles. "TOSFINE" offers high conductivity and high mirror-like finish under dry conditions due to its highly smooth surface. 【Features】 - Achieves high conductivity and heat dissipation through single crystal flakes. - Exhibits sintering characteristics at low temperatures (120-200°C). - Realizes high conductivity even under dry conditions due to its high surface smoothness. - Has a uniform particle size distribution due to our unique manufacturing method. - We can propose particle sizes and surface treatments tailored to your applications.

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