Air management

Nanomaterials (such as nanotitanium dioxide, nanozinc oxide, etc.) absorb light energy and generate reactive oxygen species and free radicals, which can effectively catalyze the decomposition of various pollutants, thereby achieving the purpose of air purification and removal of harmful substances.

1) Development of air treatment products: Monodisperse nano-titanium oxide, nano-zinc oxide, etc. can be used to develop a new generation of high-performance air treatment products, such as nano-photocatalyst products, nano-formaldehyde removal jelly, nano-formaldehyde-dissolving enzyme products, nano- Deodorizing products, nano carbon package products, nano mineral crystal products, nano seaweed mud products, etc.

2) Removal of harmful gases such as formaldehyde: Nanomaterials can catalytically decompose harmful gases in the air, such as formaldehyde, benzene, nitrogen dioxide, sulfur dioxide, etc., and convert them into harmless substances. This helps improve air quality and reduce the impact of harmful gases on health and the environment.

3) VOCs removal: VOCs (volatile organic compounds) are one of the common pollutants in the air, which can cause harm to human health and the environment. Nanomaterials can catalytically decompose VOCs and convert them into harmless substances to achieve air purification.

4) Odor removal: Nanomaterials can catalytically decompose the volatile components of organic substances, effectively remove odors, and improve the odor of indoor and outdoor environments.

5) PM2.5 purification: Nanomaterials can be used to create high-efficiency air filters to remove particulate matter and harmful gases. For example, nanofiber materials could be used to create filters that capture fine particles. In addition, nanomaterials can also remove harmful gases through chemical adsorption or catalytic reactions.

6) Air sensors: Nanomaterials can also be used to manufacture highly sensitive air sensors for monitoring and detecting harmful substances in the air. The high specific surface area and special electrical, optical, magnetic and other properties of nanomaterials make them ideal for manufacturing sensitive sensors.