Olefin cross-metathesis has become an indispensable tool for efficient carbon–carbon bond formation. Fundamental studies on functional group tolerance and an understanding of the steric and electronic factors crucial to product selectivity have led to the development of an empirical model for reaction design. Due to the copious amount of recent literature pertaining to this reaction, this review focuses on reports pertaining to important aspects in either the concept or the application of alkene cross-metathesis. Strategies for effecting highly selective cross-metathesis reactions will be presented and discussed
The formation of C-C bonds and the utility of olefins is of the utmost importance in organic chemist...
Alkenes containing N-heteroaromatics are known to be poor partners in cross-metathesis reactions, pr...
The olefin metathesis reaction has found numerous applications in organic synthesis. This is due to ...
Olefin cross-metathesis has become an indispensable tool for efficient carbon–carbon bond formation....
In recent years, olefin cross metathesis (CM) has emerged as a powerful and convenient synthetic tec...
The advent of well-defined catalysts for olefin metathesis which combine high activity, durability, ...
Carbon-carbon bond forming reactions remain among the most important for the synthesis of organic st...
The olefin metathesis reaction has underpinned spectacular achievements in organic synthesis in rece...
Olefin metathesis is a metal-catalysed organic reaction, which involves the statistical redistributi...
Organic molecules are primarily made up of carbon-carbon (C-C) bonds. As a result, methods that prom...
Olefin metathesis is an established technique for making and breaking carbon-carbon double bonds, an...
New methodology for the selective cross-metathesis (CM) of terminal olefins employing ruthenium benz...
A review which is meant to give a broad overview of alkene metathesis reactions in org. synthesis, f...
The olefin metathesis reaction is a well established and powerful method for the synthesis of alkene...
Olefin metathesis has become a tool for the synthesis of a variety of mols. and materials. In the pa...
The formation of C-C bonds and the utility of olefins is of the utmost importance in organic chemist...
Alkenes containing N-heteroaromatics are known to be poor partners in cross-metathesis reactions, pr...
The olefin metathesis reaction has found numerous applications in organic synthesis. This is due to ...
Olefin cross-metathesis has become an indispensable tool for efficient carbon–carbon bond formation....
In recent years, olefin cross metathesis (CM) has emerged as a powerful and convenient synthetic tec...
The advent of well-defined catalysts for olefin metathesis which combine high activity, durability, ...
Carbon-carbon bond forming reactions remain among the most important for the synthesis of organic st...
The olefin metathesis reaction has underpinned spectacular achievements in organic synthesis in rece...
Olefin metathesis is a metal-catalysed organic reaction, which involves the statistical redistributi...
Organic molecules are primarily made up of carbon-carbon (C-C) bonds. As a result, methods that prom...
Olefin metathesis is an established technique for making and breaking carbon-carbon double bonds, an...
New methodology for the selective cross-metathesis (CM) of terminal olefins employing ruthenium benz...
A review which is meant to give a broad overview of alkene metathesis reactions in org. synthesis, f...
The olefin metathesis reaction is a well established and powerful method for the synthesis of alkene...
Olefin metathesis has become a tool for the synthesis of a variety of mols. and materials. In the pa...
The formation of C-C bonds and the utility of olefins is of the utmost importance in organic chemist...
Alkenes containing N-heteroaromatics are known to be poor partners in cross-metathesis reactions, pr...
The olefin metathesis reaction has found numerous applications in organic synthesis. This is due to ...