An unprecedented C2-alkylation of quinoline N-oxide derivatives via CÀC bond activation of tert-and sec-alkyl alcohol is described using hypervalent iodine (III) reagent PhI(OAc) 2 (PIDA). This regioselective alkylation using mild hypervalent iodine reagents is more practical, operationally simple and transition metal free. The reaction proceeds efficiently with a broad range of substrates including quinoline, isoquinoline, and pyridine N-oxides using a variety of tert-/secalcohols. From experimental outcome, we also propose a rationalized mechanism, mediated by PIDA.
A room-temperature C–H bond
functionalization of benzamides
has been developed by merging a photocatalyst with a cobalt catalyst
for the synthesis of isoindolone spirosuccinimides. The reaction proceeds
in aerobic conditions and does not require any sacrificial external
oxidants such as Ag(I) or Mn(III) salts. Visible light activates the
photocatalyst, and it acts as an electron-transfer reagent and helps
in the fundamental organometallic steps by modulating the oxidation
state of the cobalt complex. This C–H bond functionalization
and spirocyclization showed wide substrate scope and good functional
group tolerance. A possible reaction mechanism was proposed from the
experimental outcome, showing that C–H bond activation is irreversible
and not the rate-determining step.
An
efficient photocatalytic method was developed for the remote
C5-H bond carboxylation of 8-aminoquinoline amide and sulfonamide
derivatives. This methodology uses in situ generated •CBr3 radical as a carboxylation agent with alcohol and
is further extended to a variety of arenes and heteroarenes to synthesize
the desired carboxylated product in moderate-to-good yields. The reaction
proceeding through a single electron transfer pathway was established
by a control experiment, and a butylated hydroxytoluene-trapped aryl
radical cation intermediate in high-resolution mass spectrometry was
identified.
A simple and practical heterogeneous Cu‐MnO catalyzed regioselective halogenation of anilides and quinolines under irradiation with household 40 W incandescent lamp was developed. This method uses a recyclable Cu‐MnO catalyst, acetonitrile as an industrially friendly solvent, and economic N‐halo succinimides as a halogenating source. The reaction is scalable and well tolerated with a broad range of functional groups.
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