Showing 1–12 of 45 results

Antibacterial Ceramic

$0.00

Introduction

Ceramics due to having excellent chemical stability, as well as good appearance are widely used in different places such as hospitals and buildings. Ceramics, unfortunately, do not have antibacterial effect inherently, and the microorganisms reproduce easily on their surfaces, especially in wet environments. Regarding this, the need for frequent washing and the use of disinfectants is necessary. However, the use of these materials not only causes respiratory problems but also leads to the loss of cement and mortar between the ceramics. Therefore, the use of a ceramic which has inherent antibacterial properties can be effective in solving these problems. Zin oxide nanoparticles have antibacterial effect which can kill many types of bacteria. These nanoparticles penetrate into the cell walls of bacteria and microorganisms and prevent their growth and reproduction. These nanoparticles can be mixed with ceramic glaze as an additive.

Antibacterial Ceramic

$0.00

Introduction

Ceramics due to having excellent chemical stability, as well as good appearance are widely used in different places such as hospitals and buildings. Ceramics, unfortunately, do not have antibacterial effect inherently, and the microorganisms reproduce easily on their surfaces, especially in wet environments. Regarding this, the need for frequent washing and the use of disinfectants is necessary. However, the use of these materials not only causes respiratory problems but also leads to the loss of cement and mortar between the ceramics. Therefore, the use of a ceramic which has inherent antibacterial properties can be effective in solving these problems. Zin oxide nanoparticles have antibacterial effect which can kill many types of bacteria. These nanoparticles penetrate into the cell walls of bacteria and microorganisms and prevent their growth and reproduction. These nanoparticles can be mixed with ceramic glaze as an additive.

Antibacterial Ceramic

$0.00

Introduction

Ceramics due to having excellent chemical stability, as well as good appearance are widely used in different places such as hospitals and buildings. Ceramics, unfortunately, do not have antibacterial effect inherently, and the microorganisms reproduce easily on their surfaces, especially in wet environments. Regarding this, the need for frequent washing and the use of disinfectants is necessary. However, the use of these materials not only causes respiratory problems but also leads to the loss of cement and mortar between the ceramics. Therefore, the use of a ceramic which has inherent antibacterial properties can be effective in solving these problems. Zin oxide nanoparticles have antibacterial effect which can kill many types of bacteria. These nanoparticles penetrate into the cell walls of bacteria and microorganisms and prevent their growth and reproduction. These nanoparticles can be mixed with ceramic glaze as an additive.

Antibacterial Tile

$0.00

Introduction

Ceramic tiles due to having excellent chemical stability, as well as good appearance are widely used in different places such as hospitals and buildings. normally, the microorganisms reproduce easily on the ceramic tile surface, especially in wet environment. The silver-titanium nanocomposite particles have an antibacterial effect which can kill more than 650 different types of bacteria and they are not harmful to the environment and the human body. The silver-titanium nanocomposite particles along with silver ions in the ceramic glaze, penetrate the cell walls of bacteria and microorganisms and prevent their growth and reproduction. These nanoparticles can be mixed with ceramic glaze as an additive.

Antibacterial Tile

$0.00

Introduction

Ceramic tiles due to having excellent chemical stability, as well as good appearance are widely used in different places such as hospitals and buildings. normally, the microorganisms reproduce easily on the ceramic tile surface, especially in wet environment. The silver-titanium nanocomposite particles have an antibacterial effect which can kill more than 650 different types of bacteria and they are not harmful to the environment and the human body. The silver-titanium nanocomposite particles along with silver ions in the ceramic glaze, penetrate the cell walls of bacteria and microorganisms and prevent their growth and reproduction. These nanoparticles can be mixed with ceramic glaze as an additive.

Antibacterial Tile

$0.00

Introduction

Ceramic tiles due to having excellent chemical stability, as well as good appearance are widely used in different places such as hospitals and buildings. normally, the microorganisms reproduce easily on the ceramic tile surface, especially in wet environment. The silver-titanium nanocomposite particles have an antibacterial effect which can kill more than 650 different types of bacteria and they are not harmful to the environment and the human body. The silver-titanium nanocomposite particles along with silver ions in the ceramic glaze, penetrate the cell walls of bacteria and microorganisms and prevent their growth and reproduction. These nanoparticles can be mixed with ceramic glaze as an additive.

Antibacterial Toilet

$0.00

Introduction

When using public restrooms, people are often worried about sanitary issues and their related illnesses. People are often sensitive to this issue, so they take special care when using and touching the equipment. Genital infections, fungal infections, skin sensitization and infectious, and microbial diseases are one of the most common causes of these bacteria. This product is an antibacterial squat toilet containing zinc oxide nanoparticles. The antibacterial toilet has surfaces which are resistant to bacterial growth. Sanitary products like wash basin are coated with materials which remove hazardous microorganisms, such as bacteria, viruses, fungi and other germs. In comparison with other metal oxides, the application of zinc oxide in biomedical and antiviral fields is due to its compatibility, solubility in alkaline environments, and terminated polar surfaces.

Antibacterial Toilet

$0.00

Introduction

When using public restrooms, people are often worried about sanitary issues and their related illnesses. People are often sensitive to this issue, so they take special care when using and touching the equipment. Genital infections, fungal infections, skin sensitization and infectious, and microbial diseases are one of the most common causes of these bacteria. This product is an antibacterial squat toilet containing zinc oxide nanoparticles. The antibacterial toilet has surfaces which are resistant to bacterial growth. Sanitary products like wash basin are coated with materials which remove hazardous microorganisms, such as bacteria, viruses, fungi and other germs. In comparison with other metal oxides, the application of zinc oxide in biomedical and antiviral fields is due to its compatibility, solubility in alkaline environments, and terminated polar surfaces.

Antibacterial Toilet

$0.00

Introduction

When using public restrooms, people are often worried about sanitary issues and their related illnesses. People are often sensitive to this issue, so they take special care when using and touching the equipment. Genital infections, fungal infections, skin sensitization and infectious, and microbial diseases are one of the most common causes of these bacteria. This product is an antibacterial squat toilet containing zinc oxide nanoparticles. The antibacterial toilet has surfaces which are resistant to bacterial growth. Sanitary products like wash basin are coated with materials which remove hazardous microorganisms, such as bacteria, viruses, fungi and other germs. In comparison with other metal oxides, the application of zinc oxide in biomedical and antiviral fields is due to its compatibility, solubility in alkaline environments, and terminated polar surfaces.

Concrete Pavement Block

$0.00

Introduction

Concrete is unique in construction and it is only an exclusive product for trading; so it involves a significant share of research and development, and income in the industry to itself. Concrete, a multi-phase, complex and nanostructured material, is a composite structure mainly composed of cement and water. Nanoscience and nanoengineering of concrete are phrases which describe two essential approaches regarding the application of nanotechnology in concrete. Up to now, concrete has been primarily known as a structural material. Nanotechnology is capable of making a multi-functional material from concrete. Concrete can be nanoengineered by incorporating nanoscale building blocks, nanoparticles, nanotubes, etc.

Concrete Pavement Block

$0.00

Introduction

Concrete is unique in construction and it is only an exclusive product for trading; so it involves a significant share of research and development, and income in the industry to itself. Concrete, a multi-phase, complex and nanostructured material, is a composite structure mainly composed of cement and water. Nanoscience and nanoengineering of concrete are phrases which describe two essential approaches regarding the application of nanotechnology in concrete. Up to now, concrete has been primarily known as a structural material. Nanotechnology is capable of making a multi-functional material from concrete. Concrete can be nanoengineered by incorporating nanoscale building blocks, nanoparticles, nanotubes, etc.

Concrete Pavement Block

$0.00

Introduction

Concrete is unique in construction and it is only an exclusive product for trading; so it involves a significant share of research and development, and income in the industry to itself. Concrete, a multi-phase, complex and nanostructured material, is a composite structure mainly composed of cement and water. Nanoscience and nanoengineering of concrete are phrases which describe two essential approaches regarding the application of nanotechnology in concrete. Up to now, concrete has been primarily known as a structural material. Nanotechnology is capable of making a multi-functional material from concrete. Concrete can be nanoengineered by incorporating nanoscale building blocks, nanoparticles, nanotubes, etc.