74975-68-1

Upstream product

• 14343-92-1 benzylideneanthrone 
• 74975-71-6 10-bromo-10-(α-bromobenzyl)anthrone 
• 64-17-5 ethanol 

Downstream Products

• 74975-82-9 9-acetoxy-10-benzoylanthracene 
• 84-65-1 9,10-phenanthrenequinone 
• 100606-17-5 10-(α-cyanobenzylidene)anthrone 
• 100606-27-7 3-phenylspiro 

Relevant academic research and scientific papers

Preparations and Reactions of 10-(Halomethylene)anthrones

(Halomethylene)anthrones 3 and 4 were prepared by the simple method from 10-methylene- and 10-benzylideneanthrones.The reaction of 3 with azide ion gave 10-(azidomethylene)anthrone 5a, which afforded 16 and/or 17 by photolysis and thermolysis, while similar treatment of 4-led to spiro 19.The reaction of 3 and 4 with cyanide ion gave the corresponding 10-(cyanomethylene)anthrones 5b and 6b. (Halomethylene)anthrone 3 reacted with methoxide ion, hydroxide ion, and aniline to give 5c, 5d and 5e, respectively.

Vinylic Cations from Solvolysis. 29. Solvolysis of 9-(α-Bromoarylidene)anthrones as a Probe to the Reactivity - Selectivity Relationship in Solvolysis Reactions

The solvolyses of 9-(α-bromoarylidene)anthrones 5a (Ar=An), 5b (Ar=Tol), 5c (Ar=Ph), and 5d (Ar=o-An) in 1:1 AcOH-Ac2O/NaOAc and in TFE/2,6-lutidine and of 5a in buffered AcOH and 80percent EtOH were investigated.An extensive common ion rate depression by the formed or added Br- ion was observed.Selectivity constants α=kBr-/kAcO- and α'=kBr-/kTFE or kBr-/K80percentEtOH for competitive capture of the derived cations 14 by Br- vs.AcO- or the solvent were calculated.The α values in 1:1 AcOH-Ac2O, the α' values in TFE, and the reactivities (kt0 values) are structure dependent and follow the order 5a > 5d > 5b.The results for 5c are not sufficiently accurate for reliable selectivity determination.The nature of the capturing nucleophile in AcOH-containing media is discussed and evidence for product formation nearly exclusively from a solvolytically generated free vinyl cation in AcOH, AcOH-Ac2O, and TFE is given.Linear or nearly linear reactivity-selectivity relationships of log kt0 vs. log α or log α' for 5a, 5b, and 5d were obtained, but the selectivity differences are moderate in 1:1 AcOH-Ac2O and small in TFE.This behavior is discussed in relation to Ritchie's constant selectivity rule for stable cations and the linear reactivity-selectivity observed for less selective ions.It is suggested that the different selectivity relationships represent different regions of an overall nonlinear reactivity-selectivity plots for carbonium ion reactions.The merits and disadvantages of measuring selectivities by common ion rate depression are discussed.