No Title 0.47 MB
Registration Date 19 Jun 2022
Revision Date 19 Jun 2022

NANO-Tech Air Sterilizer LED Panel


Construction Structural Materials



Manufacturer Asserted


Ag Nanoparticle /Nanopowder CAS Number : 7440-22-4
Manufacturer Asserted

Titanium dioxide

TiO2 Nanoparticle /Nanopowder CAS Number : 13463-67-7


Anti-bacterial Activity Antiviral Anti-Germ

Manufacturer's Description

✓ Kills Viruses, Bacteria & Germs in room air
✓ Purifies & Eliminates VOCs
✓ Widely used for ambient lighting application
✓ Input Voltage: 120V
✓ LED available in 4000K & 5000K
✓ Battery backup is optional

The powerful fan inside can purify 5,300 cubic ft of room air per hour, Or 5,300 cubic ft is roughly the volume of a room that is 23x23x10.
NANO-Tech materials are sprayed on the panel's surfaces to kill germs when in contact with air.
Filter Replacement Indicator: Filters must be replaced at 2160 working hours, roughly 3 months.
After replacing with new filters, press the reset button to begin a new working hours cycle from zero.
Our four layer filters have 99.5% efficiency rating.

UV light activates Nano Silver and Nano Titanium Dioxide. Silver ions reacts with hydrogen sulfide ions in Germs and inhibits its reproduction and superoxide free radicals breaks down the microbe. We used this principle to build our NANOTECH LED Panel which is safe and effective against Viruses, Bacteria, and Germs in the air. Our product is also effective is purifying the air from VOCs, Pollen and other harmful impurities.

The photocatalytic treatment using nano-TiO2 material is considered a breakthrough solution. Titanium dioxide when being irradiated with ultraviolet (UV) light creates an excited-state of electron and hole pairs, which are able to react with O2 and water vapor in the atmosphere to produce superoxide ions (O2−) and hydroxyl radicals (OH•). Both O2− and OH• are extremely powerful agents in destroying chemical compounds as well as bacterial cells to form CO2 and H2O.

Silver has been used as a disinfectant since the times of the ancient Greeks. It is because of its excellent antibacterial activity, low volatility, high stability, unlikelihood of microorganisms' developing resistance and nontoxicity to human cells. Its antibacterial activities could be interpreted by the absorption of silver ions onto the negatively charged bacterial cell wall, causing deactivation of cellular enzymes, disruption of membrane permeability, leading to eventual cell lysis and death. Recent studies have shown that silver particles of nano-size caused the strong antibacterial effect because of high specific surface area.*