Working principle of semiconductor heating film

When semiconductor materials are exposed to an electric field, the outer electrons of atoms absorb electrical energy and transition from the ground state to the excited state. When the unstable excited state electrons fall back to the ground state, they release energy outward.

The special structure of the new semiconductor heating technology enables the transition electrons to release far-infrared spectral lines with a specific wavelength and thermal effect outward, with a wavelength range of 4μm-20μm (the spectral lines in this range are medically called "life light waves" and are beneficial to health).

Production method

A metal oxide semiconductor composite material is laminated on a transparent film through magnetron sputtering. This composite material is only tens to hundreds of nanometers thick and is almost invisible to the human eye. After power is turned on, it begins to release electromagnetic waves. When this continuously released electromagnetic wave contacts the human body, the human body will feel heat, thus realizing the conversion of electrical energy into thermal energy.

Our semiconductor electric heating film releases far-infrared thermal radiation. The wavelength of the electromagnetic wave released is in the 4-20μm band, and most of the energy is in the 8-10μm band. The infrared rays released in this band are very easily absorbed by the skin of our human body, thereby promoting blood circulation and improving human immunity, which is very beneficial to our human health.

SmartMind's semiconductor heating material allows you to enjoy sunbath every day even at home.