On the Mixed Crystals Formation in the Fe(Zn) (HCOO)2–Cd(HCOO)2–H2O System

Solubility in the \(\mathrm{Cu}(\mathrm{HCOO})_{2}-\mathrm{Co}(\mathrm{HCOO})_{2}-\mathrm{H}_{2} \mathrm{O}\) system has been studied at 25 and \(50^{\circ} \mathrm{C}\). Three series of solid solutions are formed in the system at \(50^{\circ} \mathrm{C}\) : solid solutions having the \(\mathrm{Co}\

Double Salt Formation in the Cu(HCOO), -Sr(HCOO), -H,O System The solubility in the CU(HCOO)~ -Sr(HCOO),-HzO system has been studied by the method of physico-chemical analysis at 25 and 50 "C. It has been established that two double salts are formed in the system: CuSr,(HCOO), 8 H,O at 25 "C and CuS

It has been established that two series of mixed crystals are formed in the Cu(HCOO) 2 -Mn(HCOO) 2 -2H 2 O system at 25°C. The thermal decompositions of Cu x Mn 1؊x (HCOO) 2 • 2H 2 O mixed crystals (04x40.5) have been studied. On the basis of the methods used (TG, DTA, and X-ray diffraction analysis

An inhibitor method for measuring the initiation rate is proposed for the system Fe3+ + H202. The number of chains terminated by one C(NO& molecule was estimated in specific photochemical experiments and found to be unity. The initiation appeared to involve two processes. The first is proportional