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particle - メーカー・企業39社の業務用製品ランキング | イプロスものづくり

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  1. Polysphere Co., Ltd. Ibaraki//others
  2. フジミインコーポレーテッド Gifu//Electronic Components and Semiconductors
  3. OsakaSodaCO.,LTD. Development&Commercialization Div. Hyogo//Chemical
  4. 4 レンゴー 本社 Osaka//Paper and pulp
  5. 5 大東化成工業 Osaka//others
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particleの製品ランキング

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  1. 200nm Particle Size Calibration Standard 'Uni-spheres' Polysphere Co., Ltd.
  2. Silver nanoparticles for low temperature and low pressure/no pressure sintering. OsakaSodaCO.,LTD. Development&Commercialization Div.
  3. White fused alumina particles WA フジミインコーポレーテッド
  4. Plant-derived biodegradable spherical particles 'CELLULOBEADS' 大東化成工業
  5. 4 Plate-shaped alumina particles PWA フジミインコーポレーテッド

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 microspheres, known as High Presica, have characteristics such as "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 a uniform thickness of the cell containing the liquid crystal material, 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, among others), and particles for high-performance film coatings. *For more details, please download the catalog.*

  • Glass
  • particle

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Synthesis Technology: Metal Nanoparticles

Synthesis Technology: Metal Nanoparticles

It can be dispersed in organic solvents! It is used in various applications across a wide range of industries.

Our company uses a method called the bottom-up approach for the synthesis of metal nanoparticles and the synthesis of composite materials that support metal nanoparticles on a carrier. Compared to the top-down approach, it is possible to achieve a narrower particle size distribution. We have a track record of various synthesis methods and a wide range of elements. Our materials are used in a variety of industries for applications such as conductive materials, magnetic materials, luminescent materials, DDS materials, cosmetic materials, battery materials, and catalyst materials. 【Features】 ■ It is possible to disperse in organic solvents by introducing organic substances onto the particle surface. ■ Compared to the top-down approach, it is possible to achieve a narrower particle size distribution. ■ We have a track record of various synthesis methods and a wide range of elements. ■ We actively try elements and synthesis methods that have not been implemented before. *For more details, please refer to the related link page or feel free to contact us.

  • others
  • Other metal materials
  • particle

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[Book] Synthesis and Preparation of Metal Nanoparticles and Microparticles (No. 2127BOD)

[Book] Synthesis and Preparation of Metal Nanoparticles and Microparticles (No. 2127BOD)

Technical Specialty Books: Silver Nano Ink, Copper Nano Joining Materials, Electrodes, Displays, Solar Cells, Biosensors, Catalysts, Antimicrobials, etc.

Book Title: Synthesis, Preparation, and Latest Application Technologies of Metal Nanoparticles and Microparticles -------------------------- ★ A comprehensive guide to achieving "particle characteristics" tailored to your objectives and know-how for "application products and material development"! ■ Key Points of This Book 【Synthesis Technology】 Explanation of various synthesis methods for metal nanoparticles, including liquid phase and gas phase, and techniques for controlling size and shape. 【Wiring Materials】 Design and required characteristics of silver nanoparticle ink for inkjet printing. Development of copper-based wiring ink that can be made conductive through "oxidation resistance" and "low-temperature heating." 【Adhesive and Joining Materials】 Development examples of low-temperature, pressure-free silver sintering die bond materials. Characteristics of copper nanoparticles as bonding materials and development of bonding sheets. 【Optical Materials】 Development examples of photoelectric conversion devices, polarizing sheets, and multicolor electrochromic elements utilizing plasmon resonance. 【Sensors】 Development examples of biosensing and high-sensitivity biomolecule detection utilizing the characteristics of metal nanoparticles. 【Catalysts】 Catalyst design using various metal nanoparticles, and methods to improve function and reaction efficiency. 【Antibacterial Materials】 Evaluation of antibacterial and antiviral performance of silver nanoparticle-supported fibers and resins. Antibacterial effects of flat silver nanoparticles used in photosemiconductors.

  • IPROS3391385136135994447_220x220.png
  • others
  • Technical and Reference Books
  • Technical and Reference Books
  • particle

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Observation of Conductive Particle Shapes in COG Implementation

Observation of Conductive Particle Shapes in COG Implementation

Observing the conductive particles from the planar direction and the cross-sectional direction! A case study confirming the degree of deformation.

We will introduce the observation of the shape of conductive particles in COG implementation. ICs and liquid crystal panels are implemented using the COG method with ACF (anisotropic conductive film). A resin ball is used as the core, and a metal layer (such as nickel or gold) is deposited on its surface for conductivity. During connection, the particles deform appropriately to electrically connect the IC and the panel. To confirm the degree of particle deformation and the connection state, cross-sectional observations were conducted, revealing that the particle deformation amount was "medium," indicating an appropriate level of deformation. By examining the deformation of conductive particles from both the planar and cross-sectional directions, we can explore the correlation with display defects. Please feel free to contact us for any inquiries regarding panel-related defects. [Summary] - In implemented ICs, slight "warping" or "tilting" can cause differences in particle deformation between the edges and the center, potentially leading to display defects. - By examining the deformation of conductive particles from both the planar and cross-sectional directions, we can explore the correlation with display defects. *For more details, please refer to the PDF document or feel free to contact us.

  • Analytical Equipment and Devices
  • particle

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Nara Machinery Manufacturing Co., Ltd. Surface Modification of Particles

Nara Machinery Manufacturing Co., Ltd. Surface Modification of Particles

Nara Machinery's particle surface modification technology leads to applications in new materials.

At Nara Machinery Manufacturing, it is possible to create new materials that were not previously available and achieve significant performance improvements by modifying the surface of particles and compounding them. We have a hybridization system that allows for the fixation or film formation of fine particles (child particles) onto the surface of core particles (parent particles) in an extremely short time of about three minutes. This system is actively used in a wide range of fields based on combinations of raw materials. Additionally, our laser ablation technology, which generates nanoparticles of various materials and coats the surfaces of fine particles on-site, is also attracting attention. Through compounding, applications are possible in various fields. 【Features】 ■ Capable of creating new materials and achieving significant performance improvements ■ Actively used in a wide range of fields based on combinations of raw materials ■ Laser ablation technology that generates nanoparticles of various materials and coats the surfaces of fine particles on-site *For more details, please contact us or download the catalog.

  • Other processing machines
  • Other surface treatment equipment
  • Composite Materials
  • particle

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Sudix Biotech SGNP Glycan-Immobilized Gold Nanoparticles

Sudix Biotech SGNP Glycan-Immobilized Gold Nanoparticles

SGNP (Sugar-Immobilized Gold Nano-Particle) is a gold particle modified with sugar chains.

It has the characteristic of cross-linking with multivalent proteins and precipitating, allowing for the visual confirmation of interactions between glycan chains and proteins. Depending on how it is used, various assays, including the detection of glycan-protein interactions, are possible.

  • Contract Analysis
  • particle

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Tohoku University Technology: Slurry and spherical particle production method: T20-505

Tohoku University Technology: Slurry and spherical particle production method: T20-505

Production of small size and dense spherical particle by cancelling slurry precipitation Possible to apply to MoSiBTiC alloy particle

Particles with a uniform size of few 10 to 100 ㎛ are expected to be used as raw material for additive manufacturing (3D printer). The Pulsated Orifice Ejection Method (POEM) and the freeze-dry POEM (FD-POEM) developed by the inventor are used for their production. From the point of view of composition control and spheronization by surface tension, the raw material is preferable to be in slurry form. However, the precipitation in a short time and consequently high particle concentration cannot be achieved.   This invention makes possible to disperse particle for a relatively long time at a high concentration and to produce small & dense spherical particle than the conventional one using FD-POEM. Moreover, this invention can be applied to particle production of MoSiBTiC alloy, which is an ultra-high temperature material.

  • others
  • particle

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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

  • others
  • particle

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Product List: Standard Particles by Particle Size

Product List: Standard Particles by Particle Size

We will introduce "standard particles" with a very uniform particle diameter.

The "standard particles" handled by our company from Thermo Fisher Scientific have gained high trust in various fields, having been jointly developed with NIST for particle size measurement methods and adopted as NIST standards. The particle size standard particle series consists of highly reliable particles measured by photon correlation spectroscopy (PCS) and transmission electron microscopy (TEM) in accordance with NIST. These are uniform spherical particles calibrated by NIST's traceable methods, making them suitable for calibrating various analytical instruments and checking foreign matter inspection devices for silicon wafers, among other applications. Additionally, they are used in experiments and research requiring particles of specific sizes. 【Features】 ■ Particle size standard particles are very uniform spherical particles. ■ Highly reliable particles measured by photon correlation spectroscopy and transmission electron microscopy. ■ Particles calibrated by traceable methods. *For more details, please refer to the PDF document or feel free to contact us.

  • Other measurement, recording and measuring instruments
  • particle

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Fluid visualization / PIV tracer particles

Fluid visualization / PIV tracer particles

Polyethylene particles with a specific gravity of 1.00 suitable for visualizing water flow! Available in vibrant colors and with selectable particle sizes.

This product is a polyethylene tracer particle designed by Cospheric to be dispersed and follow the flow field as a marker for visualizing water flow. We offer a variety of particle colors and a wide range of particle sizes. You can select the most suitable particles according to your experimental methods, such as visual observation or PIV (Particle Image Velocimetry), and the equipment you are using. These particles are widely used in research related to fluid dynamics, such as visualizing and analyzing flow in tanks and pipes. 【Key Points】 ■ Specific gravity suitable for water flow - Particles with a specific gravity of 1.00 that easily follow the flow of water ■ Vividly colored and fluorescent particles - A diverse lineup with high visibility in colors such as red, blue, green, and yellow ■ Selectable particle sizes - Products available in particle sizes from 10μm to 1mm *For more details, please refer to the PDF document or feel free to contact us.

  • plastic
  • Other image-related equipment
  • particle

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Introduction to the Business of Rare Metal Materials Research Institute, Inc.

Introduction to the Business of Rare Metal Materials Research Institute, Inc.

Currently, we are collaborating with numerous large companies both domestically and internationally in various fields to provide a range of functional particles tailored to different applications.

Our company conducts proposal-based material development according to customer applications and also develops and provides materials based on customer requests. We possess over dozens of specialized reaction processes as liquid phase reaction processes, enabling us to produce nanoparticles and micron particles of elements such as Li metal and Ta metal. Additionally, we manufacture graphene dispersion liquids, which are applied in lubricants, antistatic films, and anti-fouling films. Regarding silver particles, we produce the world's first string-like particles and hexagonal plate-like particles, as well as silver powder for low-temperature sintering. We also manufacture 6N nanoparticles of Ga oxide, as well as nanoparticles of molybdenum oxide and tungsten oxide. We develop and provide various compounds, including simple oxides, complex oxides, carbides, and nitrides, as nanoparticles upon customer request. Our company can also polymer coat the surfaces of nanoparticles and micron particles. Through such surface modification, we can provide them in solvent dispersion. Since we are not a research institution, we develop our products to meet the required quantities from customers, even at the ton level. We aim for processing unit costs at the ton level to be between 30,000 to 50,000 yen/kg, designing our processes to fall within industrial price ranges. Our company takes full responsibility for supply and fulfillment.

  • Other metal materials
  • particle

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Introduction of tungsten oxide and molybdenum oxide nanoparticles.

Introduction of tungsten oxide and molybdenum oxide nanoparticles.

Tungsten oxide and molybdenum oxide are used in various fields, and here is an example of how we control their size and shape.

The size can be controlled within a range of 20nm to 500nm. Additionally, various elements can be doped into the oxide. The shape can also be controlled to some extent. Regarding tungsten oxide nanoparticles, we synthesize particles in granular, cubic, needle-like, and plate-like shapes.

  • Chemicals
  • particle

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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 from 10 to 2000nm ■ Highly chemically stable in terms of alkali and acid resistance *For more details, please refer to the PDF document or feel free to contact us.

  • Other polymer materials
  • particle

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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.

  • Other polymer materials
  • particle

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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 "Solder Nano Particle SAC Composition of the World's Smallest Class Size." In the composition analysis of a 200nm square area, alloy nanoparticles with a composition close to the target have been produced. 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.

  • Other polymer materials
  • particle

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High-resistance conductive tin oxide nanoparticles

High-resistance conductive tin oxide nanoparticles

"Photos of the XRD of the synthesized tin oxide nanoparticles" and "Photos of the SEM of the synthesized tin oxide nanoparticles"!

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

  • Other polymer materials
  • particle

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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 mass 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 mass synthesize 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.

  • Other polymer materials
  • particle

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"Polystyrene Nanoparticles" ★Free reference materials!

"Polystyrene Nanoparticles" ★Free reference materials!

For the production of structural colors and 3D porous molds! "Easily arranged," "difficult to aggregate," "free of impurities" - 'Polystyrene nanoparticle' dispersion.

Our developed "Polystyrene Nanoparticles" achieve a uniform particle size without classification. They can easily create a regular array structure. Furthermore, they are characterized by a strong negative charge on the surface, making them difficult to aggregate in water. Since they are synthesized soap-free, there are no impurities such as surfactants. They are ideal not only for structural colors but also for nanosphere lithography and molds for three-dimensional porous bodies. Expected applications for three-dimensional porous bodies include electrodes for secondary batteries and capacitors, photocatalysts, dye-sensitized solar cells, photonic crystals, and sensors. For inquiries regarding nanoparticles, please feel free to consult us. 【Features】 ■ Spherical shape with a sharp particle size distribution ■ Lineup from 50 to 300 nm ■ Easy to arrange (negative charge: sulfonic acid group for employment) ■ Free of impurities (surfactant-free manufacturing) *For more details, please refer to the catalog or feel free to contact us.

  • Other polymer materials
  • particle

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Small Room of Nanomaterials: Fabrication of Porous Palladium

Small Room of Nanomaterials: Fabrication of Porous Palladium

Here is an example of creating porous palladium using nanoparticles!

This is an example of creating porous palladium using nanoparticles to detect hydrogen. In the future, hydrogen will be extremely important as an energy source for decarbonization. However, due to its high combustion heat and wide explosion limits, detection measures to prevent leaks are essential. We created a porous palladium structure using polystyrene nanoparticles of various sizes as a mold and investigated its properties. The sensitivity to hydrogen greatly depends on the periodicity of the pores, with larger pore diameters being more effective. *For more detailed information, please refer to the related links. Feel free to contact us for further inquiries.*

  • others
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White fused alumina particles WA

White fused alumina particles WA

A wide lineup ranging from an average particle diameter of about 0.3µm (#30000) to 60μm is also suitable for fillers that provide insulation and wear resistance!

"WA" is a white alumina powder composed of α-type corundum crystals with an Al2O3 purity of 96.0% or higher. White fused alumina is chemically inert, heat-resistant, and possesses extremely high insulation properties, as well as hardness second only to silicon carbide. For this reason, it is also used as a filler material for enhancing insulation and wear resistance. Our white fused alumina offers a wide range of products with average particle sizes from approximately 0.3µm (#30000) to 60µm (#240). It is characterized by a sharp particle size distribution and stable particle shape, allowing us to meet our customers' specific needs. [Expected Effects] - Electrical insulation filler (improving insulation for low to high voltage components, etc.) - Wear-resistant filler (enhancing durability of resin components, etc.) - Raw material for friction materials (improving friction properties of brake pads, etc.)

  • WAカタログ.jpg
  • Fine Ceramics
  • particle

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Biodegradable spherical cellulose particles "Viscopearl"

Biodegradable spherical cellulose particles "Viscopearl"

Spherical cellulose particles made from wood pulp! They are biodegradable not only in soil but also in seawater, making them suitable as an alternative material to plastic micro-particles!

"Bisco Pearl" offers a wide range of products with particle sizes from 3μm to 4mm, suitable for various applications. - Particle size 3μm to 50μm: Cosmetic ingredients, resin additives, ink and paint additives, light diffusers, matting agents, etc. - Particle size 200μm to 700μm: Scrubbing agents, ceramic pore-forming agents, resin additives, abrasives, etc. - Particle size 2mm to 4mm: Carriers for fragrances and pharmaceuticals, microbial immobilization carriers, etc. 【Certifications Obtained】 - Products certified with the international certification "OK biodegradable MARINE," proving biodegradability in seawater. - Biomass mark certified product (No. 230126) with 100% biomass content. - Products made from raw materials certified by FSC(R) for forest environmental conservation (FSC-C1119241). *For more details, please refer to the PDF document or feel free to contact us.*

  • Other polymer materials
  • Organic Natural Materials
  • particle

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GEMI Nanocomposites [Product Catalog Giveaway]

GEMI Nanocomposites [Product Catalog Giveaway]

A large number of precisely designed high-performance nanomaterials are featured!

This catalog is from GEMI Nanocomposites Co., Ltd., which primarily engages in the export and import sales of materials and products that create energy conservation, energy storage, and energy generation, as well as contract manufacturing. Featuring high-performance nanomaterials that are precisely designed, including "Bio Pure," "NanoXact," and "Econix." In addition to products, it also includes case studies on nanoparticles used as medical materials. [Contents] ■ Nanocomposite Assemblies ■ Commercial Use Cases ■ Brands ■ Plasmonic Nanoparticles ■ Gold and Silver Spherical Nanoparticles, etc. *For more details, please refer to the catalog or feel free to contact us.

  • Other polymer materials
  • particle

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Super abrasive (diamond & cBN)

Super abrasive (diamond & cBN)

Diamond and cBN products provided by one of the world's leading super abrasive suppliers.

We offer a lineup that includes mesh sizes, micron sizes, nano sizes, and polycrystalline types. Through strict internal standards, careful selection of raw materials, and advanced classification technology, we meet the diverse needs of our customers. We are particularly well-regarded in the market for our customization of classification accuracy. In addition to our production facilities, we are also conducting verification of basic properties and improvement research at Corning's R&D in the United States, linking activities not only to physical properties but also to chemical aspects for future product development. For more details, please contact us or download the catalog. *This catalog is in English.

  • Other metal materials
  • particle

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Research-use virus particles "NATtrol SARS-CoV2 Series"

Research-use virus particles "NATtrol SARS-CoV2 Series"

Non-infectious virus particles that contain nucleic acids. For the development of diagnostic tests for coronavirus infections.

The "NATtrol SARS-CoV2 Series" is a non-infectious, refrigerated-stable product that contains chemically modified, purified intact virus particles, manufactured by ZeptoMetrix (ZMC) for nucleic acid testing. Due to being chemically and enzymatically treated and having modifications made to the surface proteins, it can be safely used for research and development without binding to or entering host cells. 【Products Available (partial list)】 ■ NATSARS(COV2)-ERC Positive Control ■ NATSARS(COV2)-NEG Negative Control ■ Recombinant Stock ■ Reagents for Endotoxin Testing (Lysate) *For more details, please refer to the materials available for download in PDF format. Feel free to contact us with any inquiries.

  • Other Nucleic Acid/DNA Research
  • particle

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4-3 Fine pitch connection

4-3 Fine pitch connection

"Example 2: Classification of anisotropic conductive particles for fine pitch connections" Refer to the attached document.

- Anisotropic conductive particles with a gold plating on the surface of resin, which is essential for high image quality in imaging devices. - The second application is used for connecting numerous circuits and IC chips provided on a glass substrate. - By applying double-sided tape containing anisotropic conductive particles to the circuit portion of the glass substrate, placing the IC chip on it, and pressing the terminal parts of the IC with a jig, it is possible to connect thousands of terminals in a short time. - Similar to spacer particles, "the presence of coarse particles is not allowed even at a ratio of one in ten billion."

  • Other mounting machines
  • particle

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Diamond particles "Nano Amando"

Diamond particles "Nano Amando"

Carbon nanoparticles with an average diameter of 2.6±0.5 nm.

"Nanoamond" is a diamond particle that has a size in the single-digit nanometer range and is expected to become an excellent general-purpose material. Currently, we are actively exploring its applications, and promising uses backed by patents and papers include high-speed ultra-precision polishing, lubricants, composition reinforcement components, nano-carbon raw materials, drug carriers, and composite films (LBL method), among others, with expectations for applications in a wide range of fields. Considering the diversity of applications discovered so far, it is believed that many more uses will be discovered and developed in the future. [Product Forms] ■ Colloidal solution (medium: water, DMSO, EG, PG, PAO, etc.) ■ Soft hydrogel ■ Hard hydrogel ■ Aerosolized anhydrous low-agglomeration fine powder *For more details, please download the PDF or feel free to contact us.

  • Other polymer materials
  • others
  • particle

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Amorphous silica particles "Admafuse"

Amorphous silica particles "Admafuse"

Amorphous silica particles that can improve resin adhesion!

"Admafuse" is an amorphous silica particle that has been spheroidized using a unique melting technology. The average particle size ranges widely from 5 to 30 μm. Customization, such as particle size adjustment, is also available. Additionally, the same surface treatment technology as "Admafine" can be applied. 【Basic Characteristics】 ■ High fluidity and low viscosity: Optimized formulation through blending technology ■ Particle size and particle size distribution: Adjustable according to your requirements ■ Shape: Achieves high sphericity through unique combustion technology ■ High purity: A lineup specialized for low alpha radiation ■ Classification: High-precision cutting possible with dry classification technology *For more details, please download the PDF or feel free to contact us.

  • Other polymer materials
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True NANO Silver® Nanoparticles

True NANO Silver® Nanoparticles

Exhibiting excellent nano properties! Silver nanoparticles produced by organometallic methods and the Recanalization method.

"True NANO Silver(R)" is a silver nanoparticle that can bond aluminum with high conductivity, high thermal conductivity, and high heat resistance. It eliminates the need for equipment such as atmosphere adjustment furnaces and welding machines, achieving a reduction in material costs. This is expected to contribute to the lightweighting of electrical and electronic devices, including motors. Additionally, it is capable of bonding a wide variety of materials, not just aluminum. [Features] ■ Excellent physical properties ■ High productivity ■ Low introduction costs *For more details, please download the PDF or feel free to contact us.

  • Other polymer materials
  • particle

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Effects of non-colloidal nano-platinum particles

Effects of non-colloidal nano-platinum particles

I will introduce nano-platinum particles that have a variety of effects after removing the colloidal membrane.

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

  • Organic Natural Materials
  • particle

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