2015
DOI: 10.1039/c4gc01614a
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Reductive functionalization of CO2 with amines: an entry to formamide, formamidine and methylamine derivatives

Abstract: International audienceCO2 utilization for the production of C1-containing molecules is a desirable route to value-added chemicals. In this perspective, we summarize the recent results devoted to the formation of nitrogen compounds obtained by reductive functionalization of CO2 in the presence of amines. Using mild reductants, such as molecular hydrogen, hydrosilanes and hydroboranes, novel catalytic reactions have been designed in the last few years to facilitate the reductive functionalization of CO2 to forma… Show more

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Cited by 361 publications
(191 citation statements)
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“…(4), 26) and related derivatives to form carbamates (27). The chemical reduction of carbamate-related species has been recently reviewed elsewhere [49]. Highly nucleophillic primary amines have been shown to react with CO 2 to form urea derivatives in a formal 2e À reduction process [50].…”
Section: Carbamates and Related Reductions (1)mentioning
confidence: 99%
“…(4), 26) and related derivatives to form carbamates (27). The chemical reduction of carbamate-related species has been recently reviewed elsewhere [49]. Highly nucleophillic primary amines have been shown to react with CO 2 to form urea derivatives in a formal 2e À reduction process [50].…”
Section: Carbamates and Related Reductions (1)mentioning
confidence: 99%
“…From this perspective, there have been various attempts at N-methylation by using a C 1 -building block source (CO 2 , formic acid) and/or a reductant (H 2 , silanes and boranes) with organometallic catalysts, including rhodium, ruthenium and zinc complexes. 1,3,[9][10][11][12][13][14] However, these homogenous catalysts require challenging synthesis processes with an elaborately designed ligand complex, which is difficult to separate and recycle from the products. 15 Furthermore, additives such as organic acids are needed for good performance, and high pressure and/or temperature are required.…”
Section: Introductionmentioning
confidence: 99%
“…As an abundant and non-toxic C 1 -building block, carbon dioxide can be reduced to various chemicals, such as carbon monoxide [1], methanol [2], formaldehyde [3], acetals [4,5], formic acid [5], formate [6,7], formamides [8], methylamines [8], formamidines [8], imines [3] and methane [9]. Recently, Beller and co-workers [10] reported the methylation of aromatic C-H bonds using CO 2 and H 2 with the assistance of a ruthenium triphos catalyst.…”
Section: Introductionmentioning
confidence: 99%