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Tohoku Univ. Technology:Submicron-sized particles of Fe-Ni-B and Fe-Co-B:T23-034

Tohoku Univ. Technology:Submicron-sized particles of Fe-Ni-B and Fe-Co-B:T23-034

Suppression of eddy-current loss up to 1 GHz and realization of high frequency shift of resonance frequency

Submicron-sized magnetic particles are expected to be used as materials for high-frequency equipment operating at several GHz. Demand for submicron-sized magnetic particles is increasing amid the increasing use of 5G and the challenge of suppressing high-frequency noise. However, it is generally difficult to produce submicron-sized particles. For example, in a top-down method such as grinding raw materials, the production of micron-sized particles is limited, and even in a bottom-up method such as reducing and depositing metal ions, microparticles aggregate to form micron-sized secondary particles. In addition, it is difficult to control the composition when reducing multiple metal ions and depositing compound microparticles. The present invention relates to a method for producing submicron microparticles of Fe-Ni-B and Fe-Co-B soft magnetic materials. As shown in the upper right panel, it is characterized in that a true spherical primary particle without agglomeration is formed, and the composition can be easily controlled. The right panel shows the frequency characteristics of the complex permeability of the fine particle. Since the µ'' becomes near 0 up to 1 GHz and shows a peak in a few GHz band, the following applications can be expected.

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Regarding the application of our graphene in electric double layer capacitors.

Regarding the application of our graphene in electric double layer capacitors.

To increase the rate of ion adsorption and desorption in the electrolyte, it is necessary to provide gaps.

Our company aims to commercialize graphene microparticles of less than a few microns as industrial products globally. After application, they adhere quite firmly upon drying, resulting in no gaps between the multilayer graphene. To increase the rate of ion adsorption and desorption of the electrolyte, as seen in electric double-layer capacitors, it is necessary to provide gaps. To use them effectively, it is presumed that adding a small amount of the conductive additive MCB currently used in lithium-ion batteries would be beneficial. **Features of our conductive graphene microparticles:** - Excellent conductivity, along with superior acid resistance, alkali resistance, heat resistance, and oxidation resistance. - Considered for use as a solid lubricant. - The manufacturing method is very cost-effective, allowing for expansion into general paint pigments. - Achieves a conductivity of 2×10^-3 Ωcm. - Prototypes have reached 10^-4 Ωcm. *For more details, please refer to the PDF materials or feel free to contact us.*

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Separating and removing liquid microparticles from gas! 'Demister'

Separating and removing liquid microparticles 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, and is formed by stacking multiple layers alternately so that the 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

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Hierarchical structure microparticles [Shinshu University Textile]

Hierarchical structure microparticles [Shinshu University Textile]

Emulsion polymerization in the presence of gel microparticles. Can be synthesized in large quantities and easily.

Solid microparticles can be freely fixed at targeted positions within a water-soluble gel. By combining solid components, we have overcome the weaknesses of gel microparticles and achieved multifunctionality. It can be adapted to various emulsion polymerization monomers such as polystyrene, polymethyl methacrylate, and polymethyl ethyl acrylate.

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