Summary: This chapter contains sections titled: * Introduction: CC Bond Formation via Cyclopalladation Reactions * Stoichiometric CH Activation Chemistry * Catalytic Chemistry * Arylations * Direct CH CH Coupling Reactions * Alkylations * Other Reactions * Conclusion * Reference
Au cours de cette thèse, nous nous sommes intéressés à l'activation de liaisons C-H catalysée par de...
Palladacycles have many uses in catalytic chemistry. New examples including Pd(II)/Pd(IV) cycles, me...
Carbon–Hydrogen bond (C–H) activation offers chemists a direct route to perform chemical transformat...
The development of enabling synthetic methodologies for the chemical manipulation of unfunctionalize...
The selective formation of new carbon-carbon bonds is a central challenge for organic synthesis; org...
This Perspective presents the fundamental principles, the elementary reactions, the initial catalyti...
Abstract — The general properties required for a transticn metal compound to react with carbon—hydro...
Since the serendipitous synthesis of urea by Frederich Wöhler in 1828, which marked the birth of org...
Site-selective, late-stage functionalisation of non-activated C-H bonds represents a challenge for o...
Direct functionalization of inert C–H bonds into various C-X (X = C, N, O, S) functionalities is one...
Models are proposed to account for the basis of enantioselection in cyclopalladation reactions, whic...
We are investigating the fundamental thermodynamic and kinetic factors that influence carbon-hydroge...
C-H and C-O bonds are two of the most abundant chemical bonds in nature. Direct application of C-H a...
Summary: This chapter contains sections titled: * Introduction * Chiral Palladacycles i...
The article is a critical review on general concepts of C-H bond activation/functionalization, with ...
Au cours de cette thèse, nous nous sommes intéressés à l'activation de liaisons C-H catalysée par de...
Palladacycles have many uses in catalytic chemistry. New examples including Pd(II)/Pd(IV) cycles, me...
Carbon–Hydrogen bond (C–H) activation offers chemists a direct route to perform chemical transformat...
The development of enabling synthetic methodologies for the chemical manipulation of unfunctionalize...
The selective formation of new carbon-carbon bonds is a central challenge for organic synthesis; org...
This Perspective presents the fundamental principles, the elementary reactions, the initial catalyti...
Abstract — The general properties required for a transticn metal compound to react with carbon—hydro...
Since the serendipitous synthesis of urea by Frederich Wöhler in 1828, which marked the birth of org...
Site-selective, late-stage functionalisation of non-activated C-H bonds represents a challenge for o...
Direct functionalization of inert C–H bonds into various C-X (X = C, N, O, S) functionalities is one...
Models are proposed to account for the basis of enantioselection in cyclopalladation reactions, whic...
We are investigating the fundamental thermodynamic and kinetic factors that influence carbon-hydroge...
C-H and C-O bonds are two of the most abundant chemical bonds in nature. Direct application of C-H a...
Summary: This chapter contains sections titled: * Introduction * Chiral Palladacycles i...
The article is a critical review on general concepts of C-H bond activation/functionalization, with ...
Au cours de cette thèse, nous nous sommes intéressés à l'activation de liaisons C-H catalysée par de...
Palladacycles have many uses in catalytic chemistry. New examples including Pd(II)/Pd(IV) cycles, me...
Carbon–Hydrogen bond (C–H) activation offers chemists a direct route to perform chemical transformat...
DOI
Add to ORKG