497-36-9Relevant articles and documents
A solution of borane in tetrahydrofuran. A stereoselective reducing agent for reduction of cyclic ketones to thermodynamically more stable alcohols
Cha,Moon,Park
, p. 7514 - 7515 (2001)
-
276. Hydroboration and Oxymercuration of Some 1-Substituted Norborn-2-enes
Luef, Wolfgang,Voegeli, Ulrich-Christian,Keese, Reinhart
, p. 2729 - 2739 (1983)
The 1-substituted norborn-2-enes 11-13 and 18 react with electrophiles under kinetic control preferentially in 2-position.The regioselectivity in oxymercuration is higher than in hydroboration and reaction with aqueous palladium chloride.
Decomposition of endo- and exo-(2-Norbornyl)formyl m-Chlorobenzoyl Peroxides
Walling, Cheves,Humphreys, Robert R. W.,Sloan, John P.,Miller, Traci
, p. 5261 - 5263 (1981)
The subject peroxides undergo first-order decomposition in several solvents with rates increasing moderately with solvent polarity and endo/exo rates in a ratio of 1:10-100.Carboxyl inversion product, ROCOOCOAr, and other "polar" products are formed with no evidence for significant free-radical production.Products from an exo-peroxide have exclusively exo configurations, but carboxyl inversion product from endo peroxide contains small amounts of exo isomer.In acetic acid, 2-norbornyl acetate is a major product, with endo/exo ratio of 14:86 from the endo-peroxide.Optically active exo-peroxide in acetic acid gives exo-2-norbornyl acetate with 6percent net retention of configuration.The results are discussed in terms of successive ion pairs and carboxyl inversion product arising early on the reaction path and other products later.
Chemoselective Cleavage of Si-C(sp3) Bonds in Unactivated Tetraalkylsilanes Using Iodine Tris(trifluoroacetate)
Matsuoka, Keitaro,Komami, Narumi,Kojima, Masahiro,Mita, Tsuyoshi,Suzuki, Kimichi,Maeda, Satoshi,Yoshino, Tatsuhiko,Matsunaga, Shigeki
supporting information, p. 103 - 108 (2021/01/13)
Organosilanes are synthetically useful reagents and precursors in organic chemistry. However, the typical inertness of unactivated Si-C(sp3) bonds under conventional reaction conditions has hampered the application of simple tetraalkylsilanes in organic synthesis. Herein we report the chemoselective cleavage of Si-C(sp3) bonds of unactivated tetraalkylsilanes using iodine tris(trifluoroacetate). The reaction proceeds smoothly under mild conditions (-50 °C to room temperature) and tolerates various polar functional groups, thus enabling subsequent Tamao-Fleming oxidation to provide the corresponding alcohols. NMR experiments and density functional theory calculations on the reaction indicate that the transfer of alkyl groups from Si to the I(III) center and the formation of the Si-O bond proceed concertedly to afford an alkyl-λ3-iodane and silyl trifluoroacetate. The developed method enables the use of unactivated tetraalkylsilanes as highly stable synthetic precursors.
Homogeneous catalytic oxidation of alkenes employing mononuclear vanadium complex with hydrogen peroxide
Maurya, Abhishek
, p. 3261 - 3269 (2020/07/14)
Abstract: Homogeneous liquid-phase oxidation of alkenes (allylbenzene, cis-cyclooctene, 4-chlorostyrene, styrene, 2-norbornene, 1-methyl cyclohexene, indene, lemonine, and 1-hexene) were catalyzed by using vanadium complex [VO(hyap)(acac)2] in existence of H2O2. The complex [VO(hyap)(acac)2] was formed as a crystal by the reaction of [VO(acac)2] and 2-hydroxyacetophenone (hyap) in the presence of methanol by refluxing the reaction mixture. Various analytical and spectroscopic techniques, namely FTIR, ESI–MS, UV–Vis, single-crystal XRD, and EPR, were used to analyze and optimize the structure of the complexes. Graphic abstract: [Figure not available: see fulltext.].