In order to develop excellent antibacterial technology, 

we have invested heavily in research and development and made efforts

to manufacture and sell excellent nano copper.





   


In order to develop excellent antibacterial technology, we have invested heavily 

in research and development 

and made efforts to manufacture 

and sell excellent nano copper.



Overview

COPPERBLE

Antibacterial Nano Copper

COPPERBLE's nano copper antibacterial agent is in liquid and powder form, so it can be easily applied to any field. 

Inorganic antibacterial agents have 99.9% long-term antibacterial properties and are human-friendly due to their excellent bonding strength. In addition, it is possible to impart uniform antibacterial power to

products with ultra-fine nanoparticles with a size of 10 to 50nm. Currently, COPPERBLE has secured manufacturing technology for nano copper antibacterial agents through patent registration.

 Features

COPPERBLE antibacterial nano-copper has superior strengths compared to conventional nano-copper in all aspects such as long-term antibacterial, antibacterial, bonding, and utility.

1. Fine nano copper

Fine nano copper material with a size of 10-50 nm

2. Long-term antibacterial

Inorganic antibacterial agent, long-term antibacterial properties

3. antibacterial power 

Uniform antibacterial power with fine nanoparticles

4. Human-friendly 

Human body-friendly with excellent bonding strength

5. Securing technical skills

Securing nano copper manufacturing technology (Patent registration 10-21887044)

 Performance

01

COPPERBLE Nano Copper Antibacterial Principle

Due to the microscopic size effect of the nano copper powder, the copper atoms on the surface are highly activated, releasing a large amount of copper ions. The positively charged copper ions and the negatively charged cell membrane cause adsorption, 

then pass through the cell wall to enter the cell and destroy the cell membrane. Destroyed cells lose their ability to divide and multiply. At the same time, when the bacteria die, the copper ions are dissolved in the bacteria to play the role of repeated sterilization, which can achieve 99.9% antibacterial effect.

02

COPPERBLE Nano Copper Antibacterial Performance

Antibacterial film performance test (JIS Z 2801) result of COPPERBLE nano copper After 24 hours, the antibacterial activity of Staphylococcus aureus and Escherichia coli It was found to be as high as 99.9%.


Through the official test report conducted by the FITI testing institute COPPERBLE's nano copper kills 99.9% of viruses and bacteria It has been recognized that it has the ability to destroy.


What is antibacterial film performance test (JIS Z 2801)?

JIS Z 2801 test is for plastic, metal, ceramic and other antibacterial surfaces. to test the ability to inhibit or kill the growth of microorganisms As a standard test for antibacterial performance in the United States as a test is being adopted.


* Patent registration: 1021870440000

Securing technology for manufacturing fine nano copper

Antibacterial Nano Copper COPPERBLE

Overview

COPPERBLE Antibacterial Nano Copper

COPPERBLE's nano copper antibacterial agent is in liquid and powder form, so it can be easily applied to any field.

Inorganic antibacterial agents have 99.9% long-term antibacterial properties and are human-friendly due to their excellent bonding strength. 

In addition, it is possible to impart uniform antibacterial power to products with ultra-fine nanoparticles with a size of 10 to 50nm.

Currently, COPPERBLE has secured manufacturing technology for nano copper antibacterial agents through patent registration.

Features

COPPERBLE antibacterial nano-copper has superior strengths compared to conventional nano-copper in

all aspects such as long-term antibacterial, antibacterial, bonding, and utility.

03

COPPERBLE Nano Copper
Long-term Antibacterial

Unlike general organic antibacterial agents, which react with oxygen to reduce antibacterial performance, copper oxide (CuO) has a saturated degree of oxidation (CuO), and even when exposed to the

atmosphere, oxidation reaction does not occur and antibacterial performance is maintained. It can be said that it has excellent long-term antibacterial properties.

04

COPPERBLE Nano Copper
Particle Size

Copper nanoparticles of COPPERBLE have an average particle diameter of 10 to 40 nm, which is smaller than bacteria and viruses.
The size of the nanoparticles is important because the smaller the nanocopper particles, the more pronounced the melting point drop, the higher the dispersibility, and the lower the temperature sintering is possible.

05

Covid-19 virus Viability Test

As a result of the 'Corona 19 virus viability experiment' conducted by a joint research team of 5 institutions including the National Institutes of Health (NIH) of the US National Institute of Health, it was found that the copper surface was the fastest killed of the four material surfaces.

(Source: 2020.3.16 MBC News Desk)

06

COPPERBLE Nano Copper Applications

COPPERBLE Nano Copper applications have a wide range of applications such as antibacterial plastic materials, antibacterial leather coatings, antibacterial coatings/paints, etc. In order to meet the ever-diversifying demand, the application field of COPPERBLE is also evolving.

Antibacterial plastic material

Antibacterial plastic is a technology belonging to the high-tech material field and can be applied to various plastic materials such as antibacterial toys, 

refrigerator cases, antibacterial electronic product cases, and antibacterial water purifiers.

Antibacterial leather coating

Nano copper fusion antibacterial leather can be applied to antibacterial sheets, antibacterial fibers, and antibacterial car seats by coating the surfaces of natural and synthetic leathers for automobiles and furniture.

 

Antibacterial Coatings/Paints

Antibacterial coatings and antibacterial paints can be used in various industries by giving antibacterial properties to the surfaces of household goods, hospital supplies, industrial products, electronic products, and interior materials for construction.

Performance

01 COPPERBLE Nano Copper Antibacterial Principle

Due to the microscopic size effect of the nano copper powder, the copper atoms on the surface are highly activated, releasing a large amount of copper ions.
The positively charged copper ions and the negatively charged cell membrane cause adsorption, 

then pass through the cell wall to enter the cell and destroy the cell membrane. Destroyed cells lose their ability to divide and multiply.
At the same time, when the bacteria die, the copper ions are dissolved in the bacteria to play the role of repeated sterilization, 

which can achieve 99.9% antibacterial effect.

 

02 COPPERBLE Nano Copper Antibacterial Performance

Antibacterial film performance test (JIS Z 2801) result of COPPERBLE nano copper After 24 hours, the antibacterial activity of Staphylococcus aureus and Escherichia coli It was found to be as high as 99.9%.


Through the official test report conducted by the FITI testing institute COPPERBLE's nano copper kills 99.9% of viruses and bacteria It has been recognized that it has the ability to destroy.


What is antibacterial film performance test (JIS Z 2801)?

JIS Z 2801 test is for plastic, metal, ceramic and other antibacterial surfaces. to test the ability to inhibit or kill the growth of microorganisms As a standard test for antibacterial performance in the United States as a test is being adopted.


* Patent registration: 1021870440000

03 COPPERBLE Nano Copper Long-Term Antibacterial

Unlike general organic antibacterial agents, which react with oxygen to reduce antibacterial performance, 

copper oxide (CuO) has a saturated degree of oxidation (CuO), and even when exposed to the atmosphere, 

oxidation reaction does not occur and antibacterial performance is maintained. 

It can be said that it has excellent long-term antibacterial properties.

04 COPPERBLE Nano Copper Particle Size

Copper nanoparticles of COPPERBLE have an average particle diameter of 10 to 40 nm, which is smaller than bacteria and viruses.
The size of the nanoparticles is important because the smaller the nanocopper particles, the more pronounced the melting point drop, 

the higher the dispersibility, and the lower the temperature sintering is possible.

05 Corona 19 virus viability test

As a result of the 'Corona 19 virus viability experiment' conducted by a joint research team of 5 institutions including

the National Institutes of Health (NIH) of the US National Institute of Health,

it was found that the copper surface was the fastest killed of the four material surfaces. (Source: 2020.3.16 MBC News Desk)

06 COPPERBLE Nano Copper Applications

COPPERBLE Nano Copper applications have a wide range of applications 

such as antibacterial plastic materials, antibacterial leather coatings, antibacterial coatings/paints, etc.
In order to meet the ever-diversifying demand, the application field of COPPERBLE is also evolving.

Antibacterial plastic material

Antibacterial leather coating

Antibacterial Coatings/Paints

Antibacterial plastic is a technology 

belonging to the high-tech material field

and can be applied to various plastic 

materials such as antibacterial toys, 

refrigerator cases, antibacterial electronic 

product cases, and antibacterial 

water purifiers.

Nano copper fusion antibacterial 

leather can be applied to antibacterial

sheets, antibacterial fibers, and

antibacterial car seats by coating 

the surfaces of natural and synthetic

leathers for automobiles and furniture.

 

Antibacterial coatings and antibacterial 

paints can be used in various industries

by giving antibacterial properties to 

the surfaces of household goods, 

hospital supplies, industrial products, 

electronic products, and interior

materials for construction.


CEO : Jongsoo Jo ㅣ Business License : 317-81-47391
Address : Seoul, Korea ㅣ CS : +82 31-358-1907, Fax : +82 31-358-1906

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