Transition metal complexation of organic molecules is becoming common in the field of 1,3-dipolar cycloadditions as a successful methodology to increase reactivities and to control selectivities. The literature data on this subject are here reviewed in a systematic way as a function of the different dipoles and principally of the stoichiometric or catalytic role of the metal containing reactants.
Transition metal complexation in 1,3-dipolar cycloadditions / G. Broggini, G. Molteni, A. Terraneo, G. Zecchi. - In: HETEROCYCLES. - ISSN 0385-5414. - 59:2(2003), pp. 823-858.
Transition metal complexation in 1,3-dipolar cycloadditions
G. Molteni;
2003
Abstract
Transition metal complexation of organic molecules is becoming common in the field of 1,3-dipolar cycloadditions as a successful methodology to increase reactivities and to control selectivities. The literature data on this subject are here reviewed in a systematic way as a function of the different dipoles and principally of the stoichiometric or catalytic role of the metal containing reactants.
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