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Microparticles - メーカー・企業24社の業務用製品ランキング | イプロスものづくり

更新日: 集計期間:May 27, 2026~Jun 23, 2026
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Microparticlesのメーカー・企業ランキング

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  1. Negami Chemical Industrial Co.,Ltd. Ishikawa//Chemical
  2. null/null
  3. 積水化成品工業 Tokyo//Chemical
  4. 4 null/null
  5. 5 アドマテックス 東京営業所 Tokyo//Other manufacturing
企業ランキングへ

Microparticlesの製品ランキング

更新日: 集計期間:May 27, 2026~Jun 23, 2026
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  1. Improvement of reactivity in the synthesis of agrochemical intermediates with microparticle products! 'Potassium carbonate powder'
  2. Functional cross-linked microparticles ART PEARL HP, FD Series Negami Chemical Industrial Co.,Ltd.
  3. True spherical polymer microparticles "Art Pearl" Negami Chemical Industrial Co.,Ltd.
  4. 4 Silica spherical microparticles "C-HOSTAR KE Series"
  5. 5 ART PEARL Hollow Urethane Microparticles Negami Chemical Industrial Co.,Ltd.

Microparticlesの製品一覧

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Monodisperse polymer particles, spherical shape, sharp particle size distribution, wide lineup.

Monodisperse polymer particles, spherical shape, sharp particle size distribution, wide lineup.

Uniformly sized spherical organic resin microparticles with a consistent particle size distribution.

This is a spherical resin microparticle with a controlled particle size distribution, utilizing our unique polymerization technology. It can be considered for applications that require a sharp particle size distribution. 【Features】 (1) We can meet requests for fine particle sizes from a wide range of product lineups. (2) The refractive index can be adjusted between 1.49 and 1.59. (3) Various customizations such as particle size, refractive index, and solvent resistance are also available. 【Examples of Applications】 Film coating applications that dislike coarse or small particles, and pore-forming applications that require uniform pores.

  • plastic
  • Microparticles

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Hollow nanoacrylic particles solvent dispersion transparent low refractive index and low dielectric properties.

Hollow nanoacrylic particles solvent dispersion transparent low refractive index and low dielectric properties.

Nano-sized organic resin particles that possess an air layer, allowing for the impartation of various properties (low refractive index, low dielectric constant, lightweight, thermal insulation).

These are organic resin microparticles with a particle diameter in the nanoscale and a hollow interior. They are provided in a solvent dispersion to achieve primary dispersion of the nanoscale particles. 〇 Features (1) The particle diameter is nanoscale, and the particle size distribution is uniform, allowing for the creation of a highly transparent low refractive index film when added to materials. (2) Being polymer microparticles, they have good compatibility with resin materials and organic solvents, resulting in excellent dispersibility. (3) Compared to inorganic hollow particles, the organic NH series has a lighter weight per particle, leading to a higher number of particles when added in the same weight, resulting in enhanced properties. (4) They have high affinity with the coating film, making it less likely for cracks to occur during film bending or punching processes. (5) The hollow structure allows for expected properties such as weight reduction, thermal insulation, and low dielectric constant in addition to lowering the refractive index. 〇 Comparison of reflections due to low-reflection films By adding to the coating film, the refractive index decreases, reducing light reflection. 〇 Comparison of coating film strength during film bending Since TP-NH is a resin composition, it has high compliance with organic binders, resulting in a coating film with excellent bend resistance.

  • plastic
  • Microparticles

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[Technical Article] Case Studies on Solving Issues with Hollow Polymer Microparticles

[Technical Article] Case Studies on Solving Issues with Hollow Polymer Microparticles

Differentiating from competitors through the development of insulating film materials for semiconductors compatible with 5G! What are the customizable organic materials that achieve low dielectric properties?

5G, the next-generation mobile communication system, can transmit large volumes of data at high speeds. The development of low-dielectric semiconductors and substrates that suppress signal transmission loss in the high-frequency range is required. 【Key Issues】 We want to promote low-dielectric properties not only through resin modification but also with additives. We need additives that are compatible with the base resin and customizable. 【Solution Points】 Hollow polymer microparticles can impart low-dielectric properties due to the air layer inside the particles. They are lightweight and flexible, and customization of particle size, composition, and heat resistance is also possible. For more details, please check the link below.

  • Other polymer materials
  • Microparticles

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Enhancing the functionality of foundation! Cellulose particles 'CELLUFLOW'.

Enhancing the functionality of foundation! Cellulose particles 'CELLUFLOW'.

Introducing plant-derived porous cellulose particles with years of proven results as cosmetic ingredients!

"CELLUFLOW" is a porous, spherical cellulose microparticle. It has characteristics such as a smooth texture, low irritation to the skin, and water and oil absorption, making it suitable as a cosmetic ingredient. Due to its porous nature, it possesses water and oil absorption properties. By incorporating it into cosmetics such as foundation, eye color, and body powder, products with excellent texture, spreadability, and functionality can be developed. [Features] - Proven track record as a cosmetic base material for many years - Solves the microbead issue due to its plant-based material - Spherical particles of 10μm that penetrate pores and provide various functionalities - High strength both physically and chemically - Prevents makeup from breaking down for extended periods when formulated in foundation - Provides uniform application in foundation *For more details, please refer to the PDF document or feel free to contact us.

  • 企業:JNC
  • 価格:Other
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  • Cosmetic materials and raw materials
  • Microparticles

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Melamine resin microparticles "Hard Beads"

Melamine resin microparticles "Hard Beads"

For light diffusion, anti-blocking, etc.! - High hardness, high refractive index spherical resin microparticles.

We would like to introduce our melamine resin microparticles, "Hard Beads." The grades available are M1 (average particle diameter 1μm), M5 (average particle diameter 5μm), and M10 (average particle diameter 10μm). Additionally, the refractive index is 1.68, and the particle hardness is 76 MPa. 【Features】 ■ High hardness ■ High refractive index ■ Refractive index: 1.68 ■ Particle hardness (MPa): 76 *For more details, please download the PDF or feel free to contact us.

  • Other polymer materials
  • Microparticles

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Non-yellowing type urethane microparticles "Dynamic Beads"

Non-yellowing type urethane microparticles "Dynamic Beads"

It is a cross-linked polyurethane microparticle with excellent flexibility. It contributes to stress relief in rigid resins.

Dynamic beads are urethane microparticles synthesized through a suspension polymerization reaction. They are spherical in shape with a particle diameter on the order of micrometers, and it is possible to adjust their composition, hardness, and particle size. 【Features】 - High flexibility and resilience of urethane - Sharp particle size distribution - Stress relaxation in rigid resins, low warping, and prevention of cracking during processing - Excellent dispersibility in various organic solvents - High heat resistance and humidity reliability due to cross-linked microparticles - Light diffusion properties - Matte finish

  • Other polymer materials
  • Microparticles

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Separating and removing liquid particles from gas! 'Demister'

Separating and removing liquid particles from gas! 'Demister'

Used for separating and removing liquid particles (mist) accompanied by droplets in gas.

It is used for the purpose of separating and removing liquid droplets (mist) accompanied by gas. The wire mesh demister is a product that achieves high collection efficiency and low pressure loss, and is used for mist removal of particle sizes ranging from 5 to 10 micrometers. 【Structure】 A mesh woven from thin metal wires is processed into a wave shape in pairs, layered alternately in multiple layers so that their ridges do not overlap. 【Materials】 Demister grid: SUS304, SUS304L, SUS316, SUS316L, SUS329J4L, Hastelloy, titanium, PVC (U-PVC, C-PVC), PVDF, FRP Demister pad: SUS304, SUS304L, SUS316, SUS316L, Hastelloy, nickel, titanium, copper, Monel, Inconel, fluororesin (ETFE, FEP, PFA), Saran wrap.

  • Other physicochemical equipment
  • Microparticles

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Ultra-high molecular weight polyethylene microparticles "HiGlide"

Ultra-high molecular weight polyethylene microparticles "HiGlide"

Easily dispersible, well-established, and long-lasting! Materials for sites looking to improve lubrication, wear resistance, and durability.

"HiGlide" is a super high molecular weight polyethylene that improves the content and adhesion when added to materials through surface modification. By imparting hydrophilicity through surface modification, it significantly enhances dispersibility, content, and adhesion compared to conventional super high molecular weight PE. Additionally, it is an environmentally friendly material that is PFAS-free and can be used as a substitute for PTFE. 【Features】 ■ High dispersibility (uniform dispersion) due to hydrophilicity ■ Increased content during addition (improved compared to conventional) ■ Improved durability and effectiveness duration due to enhanced adhesion ■ Response to alternative demand due to being PFAS-free *For more details, please download the PDF or feel free to contact us.

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  • Other polymer materials
  • Microparticles

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Light-diffusing microparticles

Light-diffusing microparticles

Microparticles with characteristics such as perfect spherical shape, precise size, and extremely narrow particle size distribution, exhibiting excellent smoothness, dispersibility, heat resistance, and weather resistance.

We offer a lineup of light-diffusing particulate products made from monodisperse organic polymer particles such as PMMA, PS, and P(MMA/S), as well as organic silicon. Product characteristics: * Uniform particle size; * Narrow particle size distribution; * Good dispersibility with no overlap or aggregation; * High light diffusion efficiency; * High purity with no contamination; * Excellent heat resistance; * Good compatibility, allowing for efficient dispersion in substrates; * High mechanical strength and height; * Good chemical stability; * Insoluble in organic solvents; * High transmittance with adjustable refractive index. Product technical specifications: Appearance: Pure white Shape: Spherical Water content: < 2% Refractive index: Organic polymer particles: 1.49 - 1.59 Organic silicon particles: 1.43 Density (25°C): Organic polymer particles: 1.05 - 1.20 g/ml Organic silicon particles: 1.32 - 1.43 g/ml Heat resistance: Organic polymer particles: 250 - 270 °C Organic silicon particles: 350 °C (weight loss 2-3%)

  • Other polymer materials
  • Microparticles

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Polymer microparticles for dispersants

Polymer microparticles for dispersants

It has a very narrow particle size distribution, can accurately control the thickness of the panel without damaging the substrate, and contributes to the manufacturing of products with high clarity.

These are monodisperse microparticles made from highly cross-linked polymers, available in a rich variety of specifications with fine size increments, and are widely used in fields such as LCD and PDLC. They are measured using certified measuring instruments (Beckman Coulter Counter Multisizer) and certified methods, and to ensure measurement accuracy, they are calibrated with traceable standard particles from NIST before each measurement. Since the ion content of microparticle products can directly affect the quality of liquid crystals, deionized water is used in the manufacturing and cleaning processes, and products are regularly sampled and inspected. The manufacturing process does not use substances prohibited by the European Union RoHS directive, and does not contain organic compounds or heavy metals banned by RoHS. Product characteristics: * The particle size is very uniform, with a coefficient of variation (CV) of less than 3.5%. * It has excellent monodispersity, with no overlap or aggregation. * It has high purity and contains no contaminants. * It has high mechanical strength. * It possesses excellent heat resistance, cold resistance, and chemical resistance.

  • Other polymer materials
  • Microparticles

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Composite material black micro-particles

Composite material black micro-particles

These black microparticles are made from a composite material of polymer and silicon dioxide, featuring a pure black base color, and their blackness distinguishes them from products from other companies.

Composite black microparticles of polymer and silicon dioxide stand out in blackness compared to products from other companies. There is no concern about fading, and they can meet special customer requirements. Currently, mainstream sizes such as 4.0µm and 6.0µm are being mass-produced, and products of other sizes can also be provided as custom orders with a delivery time of about two weeks. Product characteristics: * The particle size is very uniform, with a coefficient of variation (CV) of less than 3.5%. * Excellent monodispersity, with no overlap or aggregation. * High purity, with no contaminants. * High mechanical strength. * Excellent heat resistance, cold resistance, and chemical resistance.

  • Composite Materials
  • Microparticles

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Fluorescent polystyrene microspheres

Fluorescent polystyrene microspheres

Fluorescent polystyrene microparticles are monodisperse polystyrene microparticles containing high-brightness fluorescent dyes.

Fluorescent polystyrene microparticles have fluorescent dyes embedded within the particles, effectively preventing the quenching of fluorescence and reducing the impact of environmental factors on fluorescence intensity. At the same time, the original functional groups are retained on the surface, which does not affect immunoassays, inspections, and other applications. The emission wavelength of this series of microparticles covers the entire visible light spectrum (from 460 nm to 750 nm), with the excitation wavelength being 30-40 nm lower than the emission wavelength. Fluorescent polystyrene microparticles are widely used in research fields such as side-flow chromatography, phagocytosis studies, pore size measurement, biochips, and microfluidic control. The emission spectrum of fluorescent microparticles is named based on the wavelength range of the fluorescence peak wavelength.

  • Other polymer materials
  • Microparticles

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Colored polystyrene microparticles

Colored polystyrene microparticles

The internal coloring technology enriches and stabilizes the color of the microparticles, preventing dye leakage on the surface, thereby improving the covalent bonding efficiency and detection sensitivity of the microparticle surface.

Colored polystyrene microparticles based on white polystyrene microparticles are produced using a unique internal coloring technology. This internal coloring technology ensures that the color of the microparticles is rich and stable, and since the dye does not leak to the surface, it improves the efficiency of covalent bonding and detection sensitivity on the surface of the microparticles. Colored polystyrene microparticles modified with carboxyl groups bind to antigens, antibodies, and other substances through covalent bonds, and are widely used in lateral flow immunochromatography and emulsion agglutination tests. We offer a series of microparticle specifications that cover all colors of the rainbow, catering to various experimental needs in industrial and research fields.

  • Chemicals
  • Microparticles

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Standard fine particles

Standard fine particles

It covers a particle size range from 0.10μm to 200μm, with a rich variety of standard particle size specifications.

The standard particles for particle size are NIST traceable polystyrene microparticles with a highly uniform particle size. They are provided as a suspension with a solid content of 1.0% in a 10 mL titration bottle. Particles smaller than 1μm are measured by a centrifugal disk photometer (CPS), while particles larger than 1μm are measured by an electrical sensing zone (ESZ) method, calibrated with NIST traceable standard particles. Products in this series cover a particle size range from 0.10μm to 200μm and can accommodate various applications with a rich selection of size specifications.

  • Chemicals
  • Microparticles

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Magnetic acidified silica nanoparticles

Magnetic acidified silica nanoparticles

Magnetic silicon oxide nanoparticles have a core-shell structure, with a superparamagnetic iron oxide core inside and a silicon oxide shell covering the outside.

Magnetic silica microparticles are all submicron in size, and the hydrophilicity of the silica surface ensures good dispersion of the microparticles in water. They are typically used for the extraction and purification of nucleic acids. The surface of the unmodified products has silica hydroxyl groups, allowing for the extraction of DNA and RNA from blood, cell culture media, animal and plant tissues, and forensic samples. Carboxyl group-modified products are suitable for applications such as the purification of PCR products and the selection of NGS fragments. Magnetic silica products modified with other functional groups (such as thiol groups, epoxy groups, etc.) are also available for custom orders.

  • Chemicals
  • Microparticles

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Magnetic chitosan microparticles

Magnetic chitosan microparticles

Magnetic chitosan microparticles are created by dispersing magnetic iron oxide nanoparticles of about 10 nm in size into chitosan microparticles, with a chitosan content of 4.0%.

The interior of chitosan microparticles has a cross-linked structure, and the particle size distribution is broad, ranging from 40 to 80 μm. On the surface of the magnetic chitosan microparticles, Protein A or Ni-NTA affinity ligands are bound, and they are used in scenarios such as small-scale antibody/protein purification, immunoprecipitation, and pull-down experiments. Other functional groups and unmodified magnetic chitosan microparticles can also be offered as custom products.

  • Chemicals
  • Microparticles

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Non-magnetic fluorescent coding microparticles, particle size 5μm.

Non-magnetic fluorescent coding microparticles, particle size 5μm.

Non-magnetic product with internally dyed fluorescent microparticles and red fluorescent coating.

Polystyrene material, carboxyl group surface modification, particle size 4μm, red color in the APC fluorescence channel, with 8 types of fluorescent coding products ranging from intensity A to H available.

  • Chemicals
  • Microparticles

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Core-shell type microparticle Polymer@Metal

Core-shell type microparticle Polymer@Metal

Customizable to meet your needs!! Core-shell type microparticles that can accommodate a variety of applications.

Core-shell type microparticles are microparticles that use different materials for the core (center) and shell (surface), allowing for various properties to be imparted through the combination of the core and shell. Our company handles microparticles manufactured by C&C Materials in South Korea. C&C Materials excels in coating technology, enabling: - Uniform coating - Simultaneous coating of multiple materials.

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  • Other machine elements
  • Microparticles

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Low electrical resistance, low-cost conductive materials! Core-shell type microparticles.

Low electrical resistance, low-cost conductive materials! Core-shell type microparticles.

Customizable to meet your needs!! Core-shell type microparticles that can accommodate a variety of applications.

Core-shell type microparticles are microparticles that use different materials for the core (center) and shell (surface), allowing for the combination of core and shell to impart various properties. Our company handles microparticles manufactured by C&C Materials in South Korea. The Metal on Metal type is a microparticle coated with metal on top of metal, serving as a low-cost conductive particle as an alternative to silver. It features a dense and uniform core-shell structure and maintains stability in conductive performance over time (such as 1000 hours at 85°C/85% humidity and 280°C SMT TEST).

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  • Other metal materials
  • Microparticles

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[Guide Document] MPI Corporation Fine Powder Wax Dispersion Method

[Guide Document] MPI Corporation Fine Powder Wax Dispersion Method

Introducing information on dispersing wax microparticles as a base for various systems!

Micro Powders, Inc.'s wax microparticles, based on polymers, have low surface energy. Therefore, understanding the technology for appropriately mixing wax microparticles into various coating agents is crucial. This document provides information for dispersing wax microparticles as a base in various systems. It includes "General Concepts," "Understanding Wax Density," "Dispersion Techniques," and more, so please take a moment to read through it. [Contents] ■ Introduction ■ General Concepts ■ Understanding Wax Density ■ Dispersion Techniques ■ Solvent-Based Systems *For more details, please refer to the PDF document or feel free to contact us.

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  • paint
  • Microparticles

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True spherical polymer microparticles "Art Pearl"

True spherical polymer microparticles "Art Pearl"

It is a fine particle polymer produced from suspension polymerization, suitable for light diffusing agents, AB agents, matte agents, and tactile improvement agents. There are acrylic-based and urethane-based types.

Art Pearl is a spherical cross-linked microparticle polymer produced by aqueous suspension polymerization, which does not aggregate and easily disperses in water and most organic solvents. There are two types of resin: urethane-based and acrylic-based, with particle sizes ranging from 2 to 150 μm. Acrylic-based is used as a light diffuser and matting agent, while urethane-based is used as a tactile modifier and decorative agent. We also offer cross-linked styrene microparticles, cellulose microparticles, and cross-linked urethane acrylate! For more details, please download the catalog. We also provide free samples, online briefings, and product customization. Please feel free to contact us.

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  • plastic
  • Composite Materials
  • Other polymer materials
  • Microparticles

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ART PEARL Hollow Urethane Microparticles

ART PEARL Hollow Urethane Microparticles

It is a lightweight, crack-resistant hollow microparticle of cross-linked polyurethane that has an air layer inside.

Hollow particles with internal space possess lightweight, thermal insulation, and light diffusion properties, and are applied in the fields of electronics and building materials. However, existing hollow particles made from rigid materials such as silica and acrylic resin have faced challenges of being hard and brittle. Negami Industries has utilized its unique polymerization method to apply highly tough and high-strength cross-linked urethane resin to the shell material, thereby improving handling properties while maintaining the unique characteristics of hollow particles.

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  • plastic
  • Microparticles

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Ultra-hard urethane-based microparticles ART PEARL UAH series

Ultra-hard urethane-based microparticles ART PEARL UAH series

It is a polyurethane-based microparticle with hardness equivalent to glass beads!

It has low oil absorption and excellent stain resistance.

  • art-pearl.jpg
  • plastic
  • Microparticles

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Polymer microparticles with excellent light diffusion properties.

Polymer microparticles with excellent light diffusion properties.

Due to its excellent light diffusion properties, it is suitable for optical applications as a light diffuser or matting agent.

Porous microparticles; ART PEARL TE-812T Titanium oxide encapsulated microparticles; ART PEARL GPB-003TL

  • art-pearl.jpg
  • plastic
  • Microparticles

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Bridging acrylic microparticles (polymer microparticles)

Bridging acrylic microparticles (polymer microparticles)

It is a spherical microparticle polymer created from suspension polymerization. We have a wide range of products centered around crosslinked polymethyl methacrylate.

- It has a perfect spherical shape with excellent fluidity and smoothness. - It easily disperses in water and most organic solvents. - We offer a range of particles from flexible and elastic to high-strength. - It has excellent heat resistance and solvent resistance. - The average particle size can be adjusted from 2 to 150 μm, with high reproducibility of particle size distribution.

  • art-pearl.jpg
  • plastic
  • Microparticles

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