Shanxian Chemical
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Ammonia and Hydrogen Peroxide Reaction
The inverse of ammonia oxidation mixing
Ammonia oxidation (Hydrogen Peroxide) meets, and its transformation is wonderful. Ammonia, the chemical formula is\ (NH_ {3}\), which is toxic; oxidation, the chemical formula is\ (H_ {2} O_ {2}\), which is oxidizing.
The two are mixed. First, the oxidation of ammonia is oxidizing. This inverse may generate multiple compounds, one of which is hydrazine (\ (N_ {2} H_ {4}\)). The inverse formula can be roughly:\ (2NH_ {3} + H_ {2} O_ {2}\ rightarrow N_ {2} H_ {4} + 2H_ {2} O\). In the first process, the oxygen atoms in the oxidation are reversed, causing the nitrogen atoms in the ammonia molecule to combine and change, and form hydrazine.
However, this reaction is not so direct. If the reaction is different, such as the degree of reaction, the degree of reaction, and whether there is a catalyst, etc., the reaction may also cause the reaction to be poor. If the reaction is increased, the reaction rate will be accelerated, but it may cause the secondary reaction to occur. For example, there may be a nitrogen reaction (\ (N_ {2}\), or:\ (2NH_ {3} + 3H_ {2} O_ {2}\ rightarrow N_ {2} + 6H_ {2} O\).
Furthermore, the reaction is large. If the degree of oxidation of ammonia or ammonia is high, the reaction may be more intense, and there is even a risk of getting out of control. The existence of catalytic catalysts can also change the reaction path and rate. Some gold particles, such as copper particles (\ (Cu ^ {2 + }\))、 particles (\ (Fe ^ {3 + }\)), etc., may be used as catalysts for this reaction to accelerate the reaction and make the reaction oblique to a specific material.
, the reaction of ammonia oxidation mixing is due to the influence of multiple factors, and the reaction is multi-dimensional. The theory of its transformation is worthy of further investigation.
Ammonia oxidation (Hydrogen Peroxide) meets, and its transformation is wonderful. Ammonia, the chemical formula is\ (NH_ {3}\), which is toxic; oxidation, the chemical formula is\ (H_ {2} O_ {2}\), which is oxidizing.
The two are mixed. First, the oxidation of ammonia is oxidizing. This inverse may generate multiple compounds, one of which is hydrazine (\ (N_ {2} H_ {4}\)). The inverse formula can be roughly:\ (2NH_ {3} + H_ {2} O_ {2}\ rightarrow N_ {2} H_ {4} + 2H_ {2} O\). In the first process, the oxygen atoms in the oxidation are reversed, causing the nitrogen atoms in the ammonia molecule to combine and change, and form hydrazine.
However, this reaction is not so direct. If the reaction is different, such as the degree of reaction, the degree of reaction, and whether there is a catalyst, etc., the reaction may also cause the reaction to be poor. If the reaction is increased, the reaction rate will be accelerated, but it may cause the secondary reaction to occur. For example, there may be a nitrogen reaction (\ (N_ {2}\), or:\ (2NH_ {3} + 3H_ {2} O_ {2}\ rightarrow N_ {2} + 6H_ {2} O\).
Furthermore, the reaction is large. If the degree of oxidation of ammonia or ammonia is high, the reaction may be more intense, and there is even a risk of getting out of control. The existence of catalytic catalysts can also change the reaction path and rate. Some gold particles, such as copper particles (\ (Cu ^ {2 + }\))、 particles (\ (Fe ^ {3 + }\)), etc., may be used as catalysts for this reaction to accelerate the reaction and make the reaction oblique to a specific material.
, the reaction of ammonia oxidation mixing is due to the influence of multiple factors, and the reaction is multi-dimensional. The theory of its transformation is worthy of further investigation.
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