90173-16-3

Upstream product

• 125334-76-1 ((4-tert-butylcyclohex-1-enyl)methyl)(phenyl)sulfane 
• 56819-78-4 1-phenylthiomethyl(4-t-butyl)cyclohexanol 
• 98-53-3 4-tercbutyl-cyclohexanone 
• 54280-91-0 1-<(ethoxycarbonyl)methyl>-4-tert-butylcyclohexanol 
• 124-38-9 carbon dioxide 

Downstream Products

• 61346-63-2 1-(4-tert-Butyl-cyclohex-1-enyl)-3-diazo-propan-2-one 
• 61346-68-7 (E)-2-(Carbomethoxymethyl)-4-tert.-butyl-methylen-cyclohexan 
• 54281-02-6 2-(4-tert-butyl-cyclohex-1-enyl)-ethanol 

Relevant academic research and scientific papers

Thallium trinitrate mediated oxidation of 3-alkenols: Ring contraction vs cyclization

The reaction of a series of six-membered ring 3-alkenols with thallium trinitrate (TTN) in three different experimental conditions was studied. Either cyclization products or ring contraction products were obtained, depending on the structure of the substrate as well as the nature of the solvent. The reaction of a seven-membered ring 3-alkenol with TTN led to the ring contraction product exclusively.

Preparation of allylic lithium reagents with the allylic system partly incorporated into carbocyclic rings

A new method is described for preparation of allylic type organolithiums in which two of the allylic system carbons form part of carbocyclic ring.It involves cleavage of the readily accessible allylic sulfides 1-phenylthiomethylcycloalkanes by the naphthalenelithium in tetrahydrofuran.Carbonation of the reagents has given mixtures of cycloalken-1-yl acetic acids and 2-methylecycloalkane carboxylic acids, the distribution of which is strongly dependent on the ring size; thus the proportion of cycloalkenyl acetic acid, the endocyclic olefinic product, increases sharply on going from C5 to C8 ring derivatives and then considerably less sharply on going from C8 to C10 at which point the carbonation reaction has a high selectivity.It is concluded that the site of attack in the allylic anion by CO2 is determined by the thermochemical stability of the product(s).