ar, as a group zero element in the periodic table, is an inert single-atomic gas, but this does not hinder its development. Research shows that argon has very important application value in biotechnology.
high-pressure argon gas has anesthesia function. After diving medical research in the 1930s, experimenters found that the anesthetic effect of argon gas is higher than that of nitrogen gas , and the respiratory resistance under high pressure is significantly different, but this is limited to high pressure. 2: Argon has the function of protecting organs. Russian researchers first introduced the theory of argon neuroprotection. By increasing the concentration of argon, the survival rate of animals under hypoxia can be improved, the nervous system and can be protected to a certain extent, and cell damage in the body can be reduced.
Argon itself is non-toxic and harmless, so it is very suitable for biological research. At present, it has achieved initial results in the field of biology and has great potential.
gas itself does not provide energy, but it is placed in a container, and an electrode is applied to the container or outside, and an electrostatic field with a certain voltage, so that the voltage is enough to discharge the electrode, and then the argon gas emits colored light. In fact, it is through external action that it can achieve the effect of power-up. We are usually only called the "argon power-on process". The principle of argon-charged blue light is that the external electrons of the argon atom are excited to emit photons. This is a simple physical change regardless of whether the substance is produced or not. According to this principle, the most common neon fluorescent lamp is filled with a small amount of mercury and argon, and the tube wall is coated with fluorescent agent . When the current is turned on, the internal mercury is heated, evaporated and discharged, thereby stimulating the fluorescent substance and emitting bright sunlight.
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