2023
DOI: 10.1039/d2cy01659a
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Tin-catalyzed reductive coupling of amines with CO2 and H2

Abstract: Reductive coupling of amines with CO2 and H2 can be catalyzed by transition metals. However, functional group (FG) tolerance is improved when using auxiliary main group hydrides (instead of H2),...

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Cited by 12 publications
(17 citation statements)
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“…The initial reaction conditions [o‐phenylenediamine (1 mmol), sulfolane (5 mL), 180 °C, CO 2 (4 bar) and H 2 (96 bar)] were selected based on published results for N‐formylation of aliphatic amines with R 3 SnX‐based FLPs [39] . In the absence of nucleophilic amines, which could act as primary N‐formylation target(s) and subsequently as transfer formylation reagents, the catalytic activity of R 3 SnX‐based FLPs for the synthesis of benzimidazole from o‐phenylenediamine was low (Table 1, entries 1–3 and Table S1, SI) in line with previous findings because R 3 SnX‐based FLPs do not N‐formylate aniline [39] …”
Section: Resultsmentioning
confidence: 99%
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“…The initial reaction conditions [o‐phenylenediamine (1 mmol), sulfolane (5 mL), 180 °C, CO 2 (4 bar) and H 2 (96 bar)] were selected based on published results for N‐formylation of aliphatic amines with R 3 SnX‐based FLPs [39] . In the absence of nucleophilic amines, which could act as primary N‐formylation target(s) and subsequently as transfer formylation reagents, the catalytic activity of R 3 SnX‐based FLPs for the synthesis of benzimidazole from o‐phenylenediamine was low (Table 1, entries 1–3 and Table S1, SI) in line with previous findings because R 3 SnX‐based FLPs do not N‐formylate aniline [39] …”
Section: Resultsmentioning
confidence: 99%
“…An additional base may also accelerate the N-formylation of o-phenylenediamine by its partial deprotonation, increasing the nucleophilicity and its associated reactivity with the formylation source, presumably R 3 SnOC(H)O. [39] Thus we hypothesized that including nucleophilic amines, acting as primary N-formylation target(s) and subsequently as transfer formylation reagents, could accelerate the reaction (Scheme 1C). Moreover, transfer formylations are catalysed by LAs [8,22] and hence should be compatible with and promoted by the FLP used here for CO 2 reduction to formate.…”
Section: Resultsmentioning
confidence: 99%
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“…Hulla reported an application of tin-based FLPs in the form R 3 SnX/N-base (R = alkyl and X = OTf − or NTf 2 − ] which can catalyse the formation of azoles from ortho-substituted anilines via complete deoxygenation of CO 2 in the presence of H 2 . 138 Computational insights into group 13 and 14 Lewis acids in FLP catalysed CO 2 activation Grimme reported mechanistic insights, based on extensive DFT calculations, on all steps of the FLP catalysed reduction of CO 2 to boryl formate, H 2 CO, bis(boryl) acetal, and methoxyl borane products in 2020. 139 The work addressed three FLP catalysts that had been previously reported; (i) Fontaine's B/P intramolecular FLP reported in 2013, 55,56 (ii) Stephan's intermolecular FLP consisting of tBu 3 P and 9-BBN from 2014, 58 and (iii) Cantat's 2016 Si/N FLP with 9-BBN (Fig.…”
Section: Silicon Flps For Co 2 Activationmentioning
confidence: 99%