1999
DOI: 10.1039/a808977i
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Uncatalysed hydrogen-transfer reductions of aldehydes and ketones

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Cited by 26 publications
(11 citation statements)
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“…Catalysts capable of this kind of reactivity are generally based on electropositive metals like Al or lanthanides, even if some examples have been reported with Ir catalysts (Scheme 4) [15,[31][32][33]. Even if some examples of reduction of aldehydes or ketones by 2-propanol or ethanol in absence of any catalyst at high temperature (225°C, 30 h) have been reported [29], the metal catalyzed process is the best option for the synthesis of alcohols by reduction of the corresponding ketones. The mechanism of the catalytic transfer hydrogenation is related to the catalyst employed.…”
Section: Scheme 3 Transfer Hydrogenation From a Generic Donor Agent mentioning
confidence: 99%
See 1 more Smart Citation
“…Catalysts capable of this kind of reactivity are generally based on electropositive metals like Al or lanthanides, even if some examples have been reported with Ir catalysts (Scheme 4) [15,[31][32][33]. Even if some examples of reduction of aldehydes or ketones by 2-propanol or ethanol in absence of any catalyst at high temperature (225°C, 30 h) have been reported [29], the metal catalyzed process is the best option for the synthesis of alcohols by reduction of the corresponding ketones. The mechanism of the catalytic transfer hydrogenation is related to the catalyst employed.…”
Section: Scheme 3 Transfer Hydrogenation From a Generic Donor Agent mentioning
confidence: 99%
“…On the short list of hydrogen donors employed for the TH there are also the Hantzsch's esters ( Figure 1) [28], which have been used as mimics of the reactivity of the biofactor NADH. Even if some examples of reduction of aldehydes or ketones by 2-propanol or ethanol in absence of any catalyst at high temperature (225 ℃, 30 h) have been reported [29], the metal catalyzed process is the best option for the synthesis of alcohols by reduction of the corresponding ketones. The mechanism of the catalytic transfer hydrogenation is related to the catalyst employed.…”
Section: Scheme 3 Transfer Hydrogenation From a Generic Donor Agent mentioning
confidence: 99%
“…It has been reported that this process is feasible and that aryl and alkyl aldehydes and, to a lesser extent, ketones can be reduced to the relevant alcohols upon simple heating at high temperature with ethanol or 1 -or 2 -propanol (but not methanol) [15] . One possibility is that the migration of covalently bonded hydrogen from the hydroxy -substituted sp 3 -C of an alcohol to the sp 2 -C of a carbonyl group takes place under purely thermal conditions in the absence of any metal, base or acid catalyst.…”
Section: Mechanismsmentioning
confidence: 99%
“…We recently reported a modified Meerwein±Ponndorf±Verley reduction in which low-boiling alcohols such as EtOH and n-PrOH, but preferably i-PrOH, were used at temperatures near 225 8C in the absence of aluminum alkoxides [42]. The carbonyl moiety of an olefinic aldehyde such as cinnamaldehyde was reduced selectively to the alcohol without the carbon±carbon double bond being affected (Scheme 2.7).…”
Section: Uncatalyzed Hydrogen-transfer Reductionmentioning
confidence: 99%