Compound nanoparticles Boron carbide nanoparticles (B4C, >99%, 45-55nm, hexagonal)-NP-B4C-2-1

Compound nanoparticles Boron carbide nanoparticles (B4C, >99%, 45-55nm, hexagonal)
EM Japan Co., Ltd.

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About This Product

■How to handle metal nanoparticlesBefore use, check whether there is gas inside the bag containing nanoparticles. If there is, poke a small hole in the corner of the bag and slowly apply pressure to release the gas. If the temperature inside the bag starts to rise, wait until it cools down, then repeat the process again.

If you put a bag containing nanoparticles in a refrigerator (3℃ -10℃) for a certain period of time, the gas will decrease. Gas in the bag is a very common phenomenon due to the very high catalytic effect of nanoparticles. Once the gas is released, product quality and performance will not be affected in any way.

■Handling precautions・Avoid vibration and friction with metal nanoparticle powder.
・Store away from moisture, heat, shock, and sunlight.
- Metal nanoparticles are extremely dangerous as they can explode or catch fire if handled incorrectly. It should only be handled by people with specialized knowledge.

■Appropriate usage environmentMost recommended for use in a glove box sealed with inert gas (nitrogen, argon). Alternatively, it can be used safely in a vacuum environment.

When used in the atmosphere, oxygen binds to particles and radiates heat during the oxidation process, resulting in high temperatures that may cause an explosion or ignition. This becomes more dangerous as the particle size decreases.

■Appropriate storage methodThe product is placed in a bag filled with nitrogen gas, but the nitrogen will escape, so if you leave it as is, the quality will be damaged (oxidation of the particle surface) in about a week. When not in use, store in a vacuum state or fill with nitrogen or Ar gas, and store in a frozen state (recommended below -50°C), even if the package has not been opened. It can be stored for a minimum of 2 years and a maximum of 5 years. (Storage in an inert atmosphere or vacuum is required)

■Dispersion method of nanoparticlesSince nanoparticle powder basically forms aggregates (secondary particles), it is necessary to deagglomerate it (reform it into primary particles), which requires experience.
・When used in an aqueous phase Disperse by ultrasonication
・When used in oil phase, use a high shear mixer to disperse
・When using dry powder, use a ball mill to disperse

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There are 3 models for this product.

Product
Compound nanoparticles Boron carbide nanoparticles (B4C, >99%, 45-55nm, hexagonal)

Handling Company
EM Japan Co., Ltd.

Categories

Chemicals

Boron Carbide

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Last viewed: 12 hours ago

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3 Models of Compound nanoparticles Boron carbide nanoparticles (B4C, >99%, 45-55nm, hexagonal)

Click on the part number for more information about each product

Part Number	Price (excluding tax)	Weight	Manufacturing method	Color	Crystal phase	Boron carbide nanoparticle analysis certificate Si	Boron carbide nanoparticle analysis certificate O	Boron Carbide Nanoparticle Analysis Certificate Ni	Boron carbide nanoparticle analysis certificate N	Boron Carbide Nanoparticle Analysis Certificate Fe	Boron carbide nanoparticle analysis certificate C	Boron carbide nanoparticle analysis certificate B	Specific surface area	Zeta potential	Bulk density
NP-B4C-2-1	Available upon quote	1g	Plasma vapor phase synthesis method	Black	Cubic crystal	<0.1%	<0.1%	<0.01%	<0.08%	<0.1%	21.52%	77.48%	40-60m2/g	-26mV	0.10g/cm3
NP-B4C-2-5	Available upon quote	5g	Plasma vapor phase synthesis method	Black	Cubic crystal	<0.1%	<0.1%	<0.01%	<0.08%	<0.1%	21.52%	77.48%	40-60m2/g	-26mV	0.10g/cm3
NP-B4C-2-25	Available upon quote	25g	Plasma vapor phase synthesis method	Black	Cubic crystal	<0.1%	<0.1%	<0.01%	<0.08%	<0.1%	21.52%	77.48%	40-60m2/g	-26mV	0.10g/cm3

Click on the part number for more information about each product

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EM Japan Co., Ltd.

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Response Time

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Japan

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Compound nanoparticles Boron carbide nanoparticles (B4C, >99%, 45-55nm, hexagonal) EM Japan Co., Ltd.

EM Japan Co., Ltd.'s Response Status

About This Product

■How to handle metal nanoparticles

■Handling precautions

■Appropriate usage environment

■Appropriate storage method

■Dispersion method of nanoparticles

3 Models of Compound nanoparticles Boron carbide nanoparticles (B4C, >99%, 45-55nm, hexagonal)

NP-B4C-2-1

NP-B4C-2-5

NP-B4C-2-25

Other products of EM Japan Co., Ltd.

About Company Handling This Product

Related search keywords

Compound nanoparticles Boron carbide nanoparticles (B4C, >99%, 45-55nm, hexagonal)
EM Japan Co., Ltd.