2019
DOI: 10.1002/ange.201907917
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Reaktionswege in der photokatalytischen Umsetzung tertiärer Alkohole auf Rutil‐TiO2(110)

Abstract: Laut Lehrbüchern sind tertiäre Alkohole inert gegenüber Oxidationen. Die Photokatalyse tertiärer Alkohole auf einem Titandioxideinkristall unter definierten Vakuumbedingungen offenbart unerwartete und neue Reaktionen, die Disproportionierung in ein Alkan und das entsprechende Keton. Im Gegensatz zu primären und sekundären Alkoholen führt die Abwesenheit eines a-H zu einem C À C-Bindungsbruch statt der üblichen Wasserstoffabspaltung.D ie Bindung zu einer Methylgruppe wird nichtg espalten, wenn sich im Alkohol e… Show more

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Cited by 2 publications
(5 citation statements)
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“…Moreover, due to the oxidation rearrangement of the tertiary alcohol, Int1 is then degraded to the radical species Int2 through a C(sp 2 )—C(sp 3 ) bond cleavage. [ 65 ] Quenched by oxygen, the oxidation product Int3 would be rapidly converted to the monoaldehyde product SP1. Meanwhile, through bimolecular coupling of Int2, the coupling product Int4 is generated and then converts to SP2, which is also found on the mass spectrum at an m/z ratio of 2533.9 [M SP2 ] + (Figure S9, Supporting Information).…”
Section: Resultsmentioning
confidence: 99%
“…Moreover, due to the oxidation rearrangement of the tertiary alcohol, Int1 is then degraded to the radical species Int2 through a C(sp 2 )—C(sp 3 ) bond cleavage. [ 65 ] Quenched by oxygen, the oxidation product Int3 would be rapidly converted to the monoaldehyde product SP1. Meanwhile, through bimolecular coupling of Int2, the coupling product Int4 is generated and then converts to SP2, which is also found on the mass spectrum at an m/z ratio of 2533.9 [M SP2 ] + (Figure S9, Supporting Information).…”
Section: Resultsmentioning
confidence: 99%
“…To step forward, we are now interested in another reaction channel of alcohols on the TiO 2 photocatalytic surface: 3° alcohols undergo β-scission after being adsorbed on the TiO 2 surface, giving carbon-centered radicals and ketones, both of which would also be adsorbed and stabilized on the surface (Figure 11 and Figure 12 ). 59…”
Section: Discussionmentioning
confidence: 99%
“…Although this adsorptive interaction was experimentally confirmed by detecting a carbon-centered radical itself or products/intermediates derived from the carbon-centered radical, together with ketone detection by mass-spectrometric analysis, 59 60 it has not been extended to useful organic synthesis. We consider that this photoinduced β-scission is attractive from the following three aspects: (i) It would expand the synthetic utility of 3° alcohols as limiting reagents in organic synthesis; (ii) Judicious choice of symmetrical/non-symmetrical 3° alcohols would enable the selective formation of targeted carbon-centered radicals (Figure 13 ); and (iii) Organometallic reagents (R–Ms), which have been used as conventional two-electron nucleophiles, would be available as precursors of carbon-centered radicals (Figure 14 ).…”
Section: Discussionmentioning
confidence: 99%
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