79784-58-0Relevant academic research and scientific papers
Synthesis of Functionalized Ketones from Acid Chlorides and Organolithiums by Extremely Fast Micromixing
Nagaki, Aiichiro,Sasatsuki, Kengo,Ishiuchi, Satoshi,Miuchi, Nobuyuki,Takumi, Masahiro,Yoshida, Jun-ichi
supporting information, p. 4946 - 4950 (2019/03/21)
Synthesis of ketones containing various functional groups from acid chlorides bearing electrophilic functional groups and functionalized organolithiums was achieved using a flow microreactor system. Extremely fast mixing is important for high chemoselectivity.
A phosphine-free, heterogeneous palladium-catalyzed atom-efficient carbonylative cross-coupling of triorganoindiums with aryl halides leading to unsymmetrical ketones
You, Shengyong,Xiao, Ruian,Liu, Haiyi,Cai, Mingzhong
, p. 13862 - 13870 (2017/11/27)
The first phosphine-free heterogeneous palladium-catalyzed carbonylative cross-coupling of aryl halides with triorganoindiums has been developed that proceeds smoothly under 1 or 2.5 atm of carbon monoxide in THF at 68 °C and provides a general and powerful tool for the synthesis of various valuable unsymmetrical ketones with high atom-economy, good yield, and recyclability of the catalyst. Our system not only avoids the use of phosphine ligands, but also solves the basic problem of palladium catalyst recovery and reuse.
Side functionalization of diboronic acid precursors for covalent organic frameworks
Faury, Thomas,Dumur, Frederic,Clair, Sylvain,Abel, Mathieu,Porte, Louis,Gigmes, Didier
, p. 2067 - 2075 (2013/04/23)
A series of substituted 1,4-benzenediboronic acids (BDBA) was synthesized and their thermal properties investigated. Two diboronic acids were studied as building-blocks for covalent organic framework (COF) formation, namely 2,5-dimethoxy-1,4-benzenediboronic acid and 2-nitro-1,4-benzeneboronic acid. Interestingly, substitution of the BDBA core caused a dramatic decrease of the polymerization temperature leading to the formation of a less organized structure.
SYNTHESIS AND SPECTROSCOPY OF 1,4-DIALKYLBENZENES
Issac, Yvette A.,El-Zein, S. M.,Barakat, Y.
, p. 463 - 470 (2007/10/02)
Five linear 1,3-dialkylbenzenes namely, dibutyl-, dipentyl-, dihexyl-, diheptyl- and dioctylbenzenes were prepared in good yield via two simple catalytic routes under very mild conditions and affording insignificant side products, The starting feed, 1,4-d
Deactivation of Triplet Phenyl Alkyl Ketones by Conjugatively Electron-Withdrawing Substituents
Wagner, Peter J.,Siebert, Elizabeth J.
, p. 7329 - 7335 (2007/10/02)
Para-cyano, -carbomethoxy, and -acyl substituents decrease the triplet reactivity of valerophenone (γ-hydrogen abstraction), whereas comparable meta substituents increase reactivity.Spectroscopic results are presented which indicate that para-(-R) substituents lower ?,?* triplet energies so much more than n,?* energies that the lowest triplets become largely ?,?* in nature.Meta-(-R) substituents do not stabilize ?,?* triplets enough to invert triplet levels.Both substitution patterns support a largely 1,4-biradical structure for the lowest ?,?* triplet of acylbenzenes.Ortho substituents show the usual steric anomalies: ortho cyano enhances valerophenone triplet reactivity by stabilizing the n,?* triplet; ortho carbomethoxy deactivates valerophenone by stabilizing the ?,?* triplet but not the n,?.*
