For the first time SnCl2·2H2O has been identified as a convenient precatalyst for the synthesis of pyridine derivatives via an MCR in water. The 4-component reaction of alkyl/(hetero)aryl aldehydes, β-keto esters (or 1,3-diketones), anilines, and malononitrile afforded a range of new ...
H3PO3+ SnCl2+ H2O = H3PO4+ Sn +2HCl. Enter the amount of any of the substances to determine the ideal amounts to maximize the theoretical yield of the reaction. To find the limiting and excess reagents when a non-ideal amount of each substance is used, you can use the...
Et2SnCl2 · H2O and the Trigonal–Bipyramidal Transition State of a SN2 ReactionDiorganotin dihalideshydrolysisorganotin complexestransition stateThe title compound Et2SnCl2 · H2O was prepared and characterized by IR-spectroscopy and single crystal X-ray diffraction, showing the typical trigonal ...
For the first time SnCl2·2H2O has been identified as a convenient precatalyst for the synthesis of pyridine derivatives via an MCR in water. The 4-component reaction of alkyl/(hetero)aryl aldehydes, β-keto esters (or 1,3-diketones), anilines, and malononitrile afforded a range of new po...
(SO4)2+2CrCl3+ K2SO4+7H2O. Enter the amount of any of the substances to determine the ideal amounts to maximize the theoretical yield of the reaction. To find the limiting and excess reagents when a non-ideal amount of each substance is used, you...
Heterogeneous isotope exchange between hydrated stannic oxide and stannous chloride in 0.1M HCl solution has been studied as a function of the stannic oxide, stannous chloride, and chloride ion concentrations, and temperature. The exchange process is a second-order reaction, which is independent of...
C6H5NO2+3SnCl2+6HCl = C6H5NH2+3SnCl4+2H2O. Enter the amount of any of the substances to determine the ideal amounts to maximize the theoretical yield of the reaction. To find the limiting and excess reagents when a non-ideal amount of each substance is...