We present here the catalytic hydrogenation of various urea derivatives to amines and methanol. The reaction is catalyzed by a ruthenium or an iridium Macho pincer complex and produces amine and methanol in very good to excellent yields. Moreover, we also expand this concept to demonstrate the first example of the hydrogenative depolymerization of polyureas to produce diamines and methanol in moderate yields
Activation of the N–H bond of amines by a ruthenium pincer complex operating via “amine–amide” metal...
Amides can be hydrogenated to amines using a catalyst prepared in situ from [Ru(acac)(3)] and 1,1,1-...
A new method for the direct synthesis of imines from alcohols and amines is described where hydrogen...
AK thanks the Leverhulme Trust for an early career fellowship. JL thanks the University of St. Andre...
Urea derivatives are prevalent intermediates in the synthesis of resin precursors, dyes, agrochemica...
We report here the first example of the direct synthesis of polyureas from the dehydrogenative coupl...
Urea derivatives have significant applications in the synthesis of resin precursors, dyes, agrochemi...
An unprecedented protocol for urea synthesis directly from methanol and amine was accomplished. The ...
An unprecedented protocol for urea synthesis directly from methanol and amine was accomplished. The ...
The widespread crisis of plastic pollution demands discovery of new and sustainable approaches to de...
The synthesis of a range of phosphine-diamine, phosphine-amino-alcohol, and phosphine-amino-amide li...
The present thesis deals with the development of novel metalorganic ruthenium complexes as well as t...
We report here the synthesis of polyureas from the dehydrogenative coupling of diamines and diformam...
We report a room-temperature protocol for the hydrogenation of various amides to produce amines and ...
A broad range of secondary and tertiary amides has been hydrogenated to the corresponding amines und...
Activation of the N–H bond of amines by a ruthenium pincer complex operating via “amine–amide” metal...
Amides can be hydrogenated to amines using a catalyst prepared in situ from [Ru(acac)(3)] and 1,1,1-...
A new method for the direct synthesis of imines from alcohols and amines is described where hydrogen...
AK thanks the Leverhulme Trust for an early career fellowship. JL thanks the University of St. Andre...
Urea derivatives are prevalent intermediates in the synthesis of resin precursors, dyes, agrochemica...
We report here the first example of the direct synthesis of polyureas from the dehydrogenative coupl...
Urea derivatives have significant applications in the synthesis of resin precursors, dyes, agrochemi...
An unprecedented protocol for urea synthesis directly from methanol and amine was accomplished. The ...
An unprecedented protocol for urea synthesis directly from methanol and amine was accomplished. The ...
The widespread crisis of plastic pollution demands discovery of new and sustainable approaches to de...
The synthesis of a range of phosphine-diamine, phosphine-amino-alcohol, and phosphine-amino-amide li...
The present thesis deals with the development of novel metalorganic ruthenium complexes as well as t...
We report here the synthesis of polyureas from the dehydrogenative coupling of diamines and diformam...
We report a room-temperature protocol for the hydrogenation of various amides to produce amines and ...
A broad range of secondary and tertiary amides has been hydrogenated to the corresponding amines und...
Activation of the N–H bond of amines by a ruthenium pincer complex operating via “amine–amide” metal...
Amides can be hydrogenated to amines using a catalyst prepared in situ from [Ru(acac)(3)] and 1,1,1-...
A new method for the direct synthesis of imines from alcohols and amines is described where hydrogen...
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