Detailed Description:

Antibacterial plank flooring, simply put, is a floor that releases negative ions. The main component of the negative ion activator, the negative ion element, is a crystal structure belonging to the trigonal crystal system, with a space group of R3m. It is a typical polar crystal, where the R3m point group lacks a center of symmetry. The positive and negative charges along the C-axis cannot overlap, resulting in no symmetry center. Therefore, the ends of the crystal form positive and negative poles, and in the absence of an external electric field, these poles do not disappear, hence the name "long electrode," indicating that the negative ion element crystal is a long charged body.

The principle is:

Negatively charged ions

"A long electrode generates an electric field around it, as there is no symmetric center for positive and negative charges, it possesses a dipole moment and the dipole moments are aligned in the same direction, polarizing the crystal to a high degree. This polarized state persists even when the external electric field is '0,' hence it is also known as 'spontaneous polarization,' leading to the accumulation of charges at the crystal's positive and negative poles. The strength of the electric field or the amount of charge depends on the inter-ionic distance and the bond angle, with each crystal having its inherent dipole moment. Generally, long electrodes attract surrounding unlike charges, forming a surface charge layer on their surface, which屏蔽 most of the inherent electrode charges. Therefore, the static state of the unactivated and strengthened crystal has a very low ionization capacity (usually 50-100 ions/cm³). When subjected to slight external influences (such as temperature or pressure changes), the inter-ionic distance and bond angle change, increasing the polarization strength, releasing the charges in the surface charge layer. This results in an increased electrode charge quantity, enhanced electric field strength, and a noticeable charged state or the formation of microcurrents in a closed loop."

Sources include:

Formaldehyde, ammonia, and other volatile organic compounds emitted from decorative and construction materials.

(2) Various organic compounds such as H2S and smoke in toilets and kitchens;

(3) Odor from domestic waste and other decomposing substances.

(4) Odor from smoke emitted while smoking.

Negative ion activator deodorization mechanism:

Most odors, unpleasant smells, bacteria, smoke, and other particles in the air carry a positive charge. Therefore, the released negative ions can neutralize them until they have no charge and settle down.

(2) Smog and harmful gases containing oxygen free radicals can be neutralized by negative ions.

(3) Negative ion generator crystals form an electric field around each particle, with a microcurrent of 0.06mA, facilitating the decomposition of bacteria and organic matter under the influence of the electric field current.

(4) Certain harmful gases react during the shrimping process to form low-toxic substances.

The odor removal is a comprehensive result of negative ion encapsulation sedimentation, negative ion neutralization, electric field current decomposition, and certain chemical reactions.

IV. Mechanism of negative ion activator's far-infrared radiation:

Negative ion activator is a far infrared radiation material highly beneficial to human health. The human body absorbs far infrared radiation at a wavelength of 9.6μm, while the negative ion activator emits far infrared radiation within a wavelength range of 2-18μm, with a radiation power emission of 0.04w/cm², slightly higher than the human body's adsorption radiation power density of 0.03w/cm². These data充分证实 that the far infrared radiation emitted by the negative ion activator coordinates well with the human body and can be fully absorbed by it.

V. Negative Ion Promoter Antibacterial Mechanism:

1. Due to the strong electric field of 104-107V/m surrounding the negative ion material, bacteria are killed or their division and proliferation are suppressed by the electric field's influence and the resulting 0.06mV·A microcurrent.