Study on Thermochemistry and Thermal Decomposition Kinetics of Dy(Tyr)(Gly)3Cl3·3H 2O

La(CH 3 SO 3 ) 3 ´2 H 2 O was prepared by the reaction of La 2 O 3 with CH 3 SO 3 H. According to the X-ray single crystal determination, the compound crystallizes with triclinic symmetry (P 1, Z = 2, a = 524.99( 8), b = 1015.3(2), c = 1298.0(2) pm, a = 98.62(2)°, b = 91.12(2)°, c = 104.61(2)°, R al

## Abstract Two new complexes [Sm(__o__‐NBA)~3~bipy]~2~·2H~2~O (1) and [Sm(__o__‐BrBA)~3~bipy]~2~·2H~2~O (2) (where __o__‐NBA is __o__‐nitrobenzoic acid, __o__‐BrBA is __o__‐bromobenzoic acid, and bipy is 2,2′‐bipyridine) were prepared and characterized by elemental analysis, IR, UV, and molar cond

## Abstract The thermal decompositions of ethyl chloride, iso propyl chloride, and tertiary butyl chloride were studied in a static system in the pressure range of 0.1–300 torr. The following Arrhenius equations for the high‐pressure limit were obtained: equation image The pressure dependence of

## Abstract Thermal dehydration process of calcium oxalate monohydrate, CaC~2~O~4~ · H~2~O, was reinvestigated from a viewpoint of reaction kinetics. On the basis of data of thermogravimetry, kinetic analysis was performed under nonisothermal conditions using an integral composite procedure, which