51571-28-9Relevant articles and documents
An Alternative to the Classical α-Arylation: The Transfer of an Intact 2-Iodoaryl from ArI(O2CCF3)2
Jia, Zhiyu,Gálvez, Erik,Sebastián, Rosa María,Pleixats, Roser,álvarez-Larena, ángel,Martin, Eddy,Vallribera, Adelina,Shafir, Alexandr
, p. 11298 - 11301 (2014)
The α-arylation of carbonyl compounds is generally accomplished under basic conditions, both under metal catalysis and via aryl transfer from the diaryl λ3-iodanes. Here, we describe an alternative metal-free α-arylation using ArI(O2CCF3)2 as the source of a 2-iodoaryl group. The reaction is applicable to activated ketones, such as α-cyanoketones, and works with substituted aryliodanes. This formal C-H functionalization reaction is thought to proceed through a [3,3] rearrangement of an iodonium enolate. The final α-(2-iodoaryl)ketones are versatile synthetic building blocks.
Direct C-H α-Arylation of Enones with ArI(O2CR)2 Reagents
Sousa E Silva, Felipe Cesar,Van, Nguyen T.,Wengryniuk, Sarah E.
supporting information, p. 64 - 69 (2020/01/22)
α-Arylation of α,β-unsaturated ketones constitutes a powerful synthetic transformation. It is most commonly achieved via cross-coupling of α-haloenones, but this stepwise strategy requires prefunctionalized substrates and expensive catalysts. Direct enone C-H α-arylation would offer an atom- and step-economical alternative, but such reports are scarce. Herein we report the metal-free direct C-H arylation of enones mediated by hypervalent iodine reagents. The reaction proceeds via a reductive iodonium Claisen rearrangement of in situ-generated β-pyridinium silyl enol ethers. The aryl groups are derived from ArI(O2CCF3)2 reagents, which are readily accessed from the parent iodoarenes. The reaction is tolerant of a wide range of substitution patterns, and the incorporated arenes maintain the valuable iodine functional handle. Mechanistic investigations implicate arylation via an umpoled "enolonium" species and show that the presence of a β-pyridinium moiety is critical for the desired C-C bond formation.
Synthesis of Functionalized Monoaryl-λ3-iodanes through Chemo- and Site-Selective ipso-Substitution Reactions
Komami, Narumi,Matsuoka, Keitaro,Nakano, Ayako,Kojima, Masahiro,Yoshino, Tatsuhiko,Matsunaga, Shigeki
supporting information, p. 1217 - 1220 (2019/01/04)
Monoaryl-λ3-iodanes are potentially attractive arylating agents. They are generally synthesized from aryl iodides via oxidation, which can cause functional group incompatibility, especially when polyfunctionalized derivatives are desired. This work describes the direct synthesis of monoaryl-λ3-iodanes through a chemoselective ipso-substitution reaction of arylgermanes and arylstannanes with iodine tris(trifluoroacetate). The generated iodanes were converted to iodonium ylides or used for further transformations in one pot. The presented method enables the preparation of polyfunctionalized monoaryl-λ3-iodanes.
Surgical Cleavage of Unstrained C(sp3)?C(sp3) Bonds in General Alcohols for Heteroaryl C?H Alkylation and Acylation
Wang, Yaxin,Yang, Le,Liu, Shuai,Huang, Lixia,Liu, Zhong-Quan
supporting information, p. 4568 - 4574 (2019/09/04)
We reported herein a predictable and surgical cleavage of carbon-carbon bond in alcohols. A wide range of 1°, 2° and 3° alcohols including sugars and steroids without ring strain or steric hindrance were all compatible with this system. Also it offered a green and practical strategy for generation of alkyl/acyl radicals using alcohols as the sources. Besides, the features of visible-light-initiation, catalyst and metal free, excellent selectivity and mild conditions make it valuable and attractive. (Figure presented.).
A general and convenient preparation of [Bis(trifluoroacetoxy)iodo] perfluoroalkanes and [Bis(trifluoroacetoxy)iodo] arenes by oxidation of organic iodides using Oxone and trifluoroacetic acid
Zagulyaeva, Aleksandra A.,Yusubov, Mekhman S.,Zhdankin, Viktor V.
supporting information; experimental part, p. 2119 - 2122 (2010/06/12)
"Chemical Equation Presented" [Bis(trifiuoroacetoxy)iodo] perfiuoroalkanes CnF2n+1I(OC-OCF3)2 (n = 4, 6, 8, 10, 12) can be conveniently prepared by the oxidation of the corresponding perfluoroalkyl iodides with Oxone in trifluoroacetic acid at room temperature and subsequently converted to the stable [hydroxy(tosyloxy)-iodo] perfluoroalkanes, CnF2n+1I(OH)OTs, by treatment with p-toluenesulfonic acid. This general and convenient procedure has been further extended to the synthesis of various [bis(trifluoroacetoxy)iodo]arenes, ArI(OCOCF3)2.
Direct and convenient synthesis of [bis(trifluoroacetoxy)iodo]arenes from iodoarenes
Hossain, Delwar,Kitamura, Tsugio
, p. 142 - 144 (2007/10/03)
An easy, safe, and effective method for preparing [bis-(trifluoroacetoxy) iodo]arenes, ArI(OCOCF3)2, in high yields from some iodoarenes are reported, using a K2S2O8/CF 3COOH/CH2Cl2 system. This procedure avoids the use of high temperature and severe reaction conditions.
Easy preparation of [bis(trifluoroacetoxy)iodo]arenes from iodoarenes, with sodium percarbonate as the oxidant
Kazmierczak, Pawel,Skulski, Lech
, p. 810 - 812 (2007/10/03)
Easy and effective preparations of the nearly pure [bis(trifluoroacetoxy) iodo]arenes, ArI(OCOCF)3, from some iodoarenes, ArI, are reported, using an anhydrous) sodium (percarbonate/(CF3CO)2O/CH 2Cl2 system. The colorless, freshly prepared (ArI(OCOCF)3)2 thus obtained were 98-99% pure (by iodometry).
