The invention provides a novel class of compounds of formula 1, pharmaceutical compositions comprising such compounds and methods of using such compounds to treat or prevent diseases or disorders associated with abnormal or deregulated kinase activity, particularly diseases or disorders that involve abnormal activation of B-Raf

Compounds and compositions as protein kinase inhibitors

A general synthesis of symmetrically disubstituted ureas and trisubstituted ureas by direct Pd-catalyzed oxidative carbonylation of primary amines or of a mixture of a primary and a secondary amine, respectively, with unprecedented catalytic efficiencies for this kind of process, is reported. Reactions are carried out at 90−100 °C in DME as the solvent in the presence of PdI2 in conjunction with an excess of KI as the catalytic system and under 20 atm of a 4:1 mixture of CO and air. In some cases, working in the presence of an excess of CO2 (40 atm) in addition to CO and air (60 atm total) had a beneficial effect on substrate reactivity and product yield. Cyclic five-membered and six-membered ureas were easily formed from primary diamines. The methodology has been successfully applied to the synthesis of pharmacologically active ureas, such as those deriving from α-amino esters or urea NPY5RA-972, a potent antagonist of the neuropeptide Y5 receptor.

Efficient synthesis of ureas by direct palladium-catalyzed oxidative carbonylation of amines.

Selenium reagents as catalysts

Synthesis, Characterization and Ethylene Oligomerization Studies of Nickel Complexes Bearing 2-Benzimidazolylpyridine Derivatives

Synthesis, characterization and ethylene polymerization behavior of nickel dihalide complexes bearing bulky unsymmetrical α-diimine ligands

Synthesis of new unsymmetric N,N '-dipyridylurea derivatives by selenium and selenium dioxide-catalyzed reductive carbonylation of substituted nitropyridines

A preliminary study of the catalytic behavior of bis(beta-ketiminate) nickel(ii) and cobalt(ii) complexes in the dimerization of propylene was undertaken in combination with organoaluminum co-catalyst and ancillary phosphine ligand. the effects of type and relative amounts of aluminum co-catalyst as well as the nature of nickel and cobalt precatalysts were investigated. the results showed that the presence of ancillary phosphine ligand deeply modified the activity and selectivity of catalytic system, especially at the reaction temperature below 0 degreesc. an extremely high turnover frequency up to 268,000 h(-1) and a rather hi-h selectivity to dimers (95.6%) by the bis(n-(2,6-dimethylphenyl)-4-aminopent-3-en-2-ono) nickel(ii) complex (1c) in the presence of et3al2cl3 and pcy3 was achieved in the propylene dimerization under appropriate reaction conditions. (c) 2003 elsevier science b.v. all rights reserved.

Dimerization of propylene by bis(β-ketiminate) nickel(II) and cobalt(II) catalysts in the presence of organoaluminum activator and phosphine ligand

N-Arylamides were exclusively obtained in moderate to good yields from selenium-catalyzed reactions of nitroaromatics with amides in the presence of CO and mixed organic bases Et3N and DBU.

N‐Arylamides from Selenium‐Catalyzed Reactions of Nitroaromatics and Amides in the Presence of Carbon Monoxide and Mixed Organic Bases

Synthesis of N‐Phenyl‐N′‐pyrimidylurea Derivatives by Selenium‐ or Selenium Dioxide‐Catalyzed Reductive Carbonylation of Nitroaromatics

A series of commercially useful substituted pyridyl ureas have been synthesized via selenium dioxide-catalyzed reductive carbonylation of substituted nitrobenzene or substituted nitropyridine with amine as co-reagent and carbon monoxide as carbonyl reagent instead of phosgene in one-pot reaction. The recycling reusability of catalyst was also tested. It was also found that selenium dioxide-catalyzed reductive carbonylation of nitroaromatics exhibited reaction-controlled phase-transfer phenomena of the catalyst.

Synthesis of substituted pyridyl ureas by selenium dioxide-catalyzed carbonylation

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