39728-58-0

Upstream product

• 546-68-9 titanium(IV) isopropylate 
• 27798-73-8 methyl 3-(3,4-dimethoxyphenyl)propionate 
• 109-72-8 n-butyllithium 
• 2107-70-2 3,4-methoxycinnamic acid 
• 591-78-6 n-hexan-2-one 
• 93-03-8 (3,4-dimethoxyphenyl)methanol 
• 77-78-1 dimethyl sulfate 

Relevant academic research and scientific papers

Copper-Catalyzed Oxidative Cleavage of Electron-Rich Olefins in Water at Room Temperature

A copper-catalyzed oxidative cleavage of electron-rich olefins into their corresponding carbonyl derivatives is described as an alternative to ozonolysis. The scope includes various precursors to aryl ketone derivatives, as well as oxidations of enol ethers bearing atypical alkyl and dialkyl substitution, the first of their kind among such metal catalyzed alkene cleavage reactions. The use of an inexpensive copper salt, room temperature conditions, an aerobic atmosphere, and water as the global reaction medium highlight the green features of this new method. Associated mechanistic investigations are also presented.

KETONES AND METHOD FOR MANUFACTURING ANALOG THEREOF

PROBLEM TO BE SOLVED: To provide a technique for efficiently producing ketones by using cellulose after extracting chitin and chitosan extracted from the crustacean or sucrose from the beet in order to effectively using wastes, such as a crustacean or a beat to prepare a solid catalyst. SOLUTION: A method for manufacturing 1-phenyl-3-ketones and an analog (a compound 3) comprises using at least one kind selected from a group consisting of cellulose, chitin and chitosan as a carrier and reacting benzyl alcohols (a compound 1) with ketones (a compound 2) in the presence of a solid catalyst obtained by supporting a group 8-10 transition metal and a base. The following chemical formula 1 is shown. SELECTED DRAWING: None COPYRIGHT: (C)2019,JPOandINPIT

Simple Synthesis of Phytochemicals by Heterogeneous Pd- and Ir-Catalyzed Hydrogen-Borrowing C–C Bond Formation

Chitin-supported palladium and iridium catalysts (i.e., Pd/chitin, Ir/chitin) successfully promote the hydrogen borrowing C–C bond formation reaction to afford phytochemicals and aroma compounds in excellent yields.

A study of the reaction of n-BuLi with Ti(Oi-Pr)4 as a method to generate titanacyclopropane and titanacyclopropene species

The use of the combination of reagents Ti(Oi-Pr)4/n-BuLi, introduced by the group of J.J. Eisch in 2001, has only found a few applications so far, with sometimes conflicting observations. This article describes a study aimed at clarifying the nature, the stability and the reactivity of the active organometallic species involved. Reactions with CO2 and other trapping reagents reveal that it is generated within a few minutes at 0 C in THF, where it can be considered to be stable for 30 min. Most of our results are consistent with the expected titanacyclopropane nature of this reagent but some observations suggest that the chemistry at play may be more complicated.