Being stable while incompatible with strong acids, active halogen compounds, chlorine, fluorine, iodine, bromine, ammonia, this chemical may react explosively with strong oxidizing agents. Besides, it is soluble in nitric acid, hot concentrated sulfuric acid while insoluble in cold and hot water. ...
Copper(II) oxide dissolves in mineral acids such as hydrochloric acid, sulfuric acid or nitric acid to give the corresponding copper(II) salts:CuO + 2 HNO3 → Cu(NO3)2 + H2O CuO + 2 HCl → CuCl2 + H2O CuO + H2SO4 → CuSO4 + H2OCopper(II) oxide reacts with concentrated alkali to...
Copper dissolves in hot concentrated hydrochloric or sulfuric acid but is little affected by cold solutions of these acids; it also dissolves in nitric acid. Salt water corrodes copper, forming a chloride. Compounds The most important chemical compound of copper is copper sulfate pentahydrate, also...
Copper has three oxidation states, with electronic configurations of Cu~0([Ar]3d~(10)4.y~1), Cu~+([Ar]3d~(10)), and Cu~(2+)([Ar]3d~9). Cu~0 does not react with aqueous hydrochloric or sulfuric acids, but is soluble in concentrated nitric acid due to its lesser tendency to ...
In aqueous solutions, copper(II) nitrate undergoes many double decomposition reactions with soluble salts of other metals, forming precipitates of insoluble copper salts. When H2S is passed through its aqueous solution, black CuS precipitates. Copper(II) nitrate reacts with ether forming a complex. ...
with chlorine, chlorine trifluoride, fluorine (above 121℃), and hydrazinium nitrate (above 70'). Reacts violently with C2H2, bromates, chlorates, iodates, (Cl2 + OF2), dimethyl sulfoxide + trichloroacetic acid, ethylene oxide, H202, hydrazine mononitrate, hydrazoic acid, H2S + air, Pb(...
copper (or copper oxide) with azido acid gas, which is perfectly tailored to the needs of Micro-Electro-Mechanical System (MEMS) technology for the safe filling of explosives. However, CA's extreme electrostatic sensitivity is the key problem preventing it from being used in weapon charges [6...
May react explosively with strong oxidizing agents. Sensitive air sensitive Physical and Chemical Properties Reddish shiny ductile metal (face-centered cubic system). Melting point 1083.4 °c. Boiling point 2587 °c. The relative density was 8.92. Soluble in nitric acid, hot concentrated sulfuric ...
May react explosively with strong oxidizing agents. Sensitive air sensitive Physical and Chemical Properties Reddish shiny ductile metal (face-centered cubic system). Melting point 1083.4 °c. Boiling point 2587 °c. The relative density was 8.92. Soluble in nitric acid, hot concentrated sulfuric ...
S984 characterized by polyamine groups has five resins with different CA concentrations similar structure was investigated to that of PAMD32. (see Supplementary Figure S5). Along with the increase of CA concentrations, the adsorption amount of Cu onto both D001 and D113 markedly decreased by 73%...