494868-45-0Relevant academic research and scientific papers
A new practical synthesis of triaryl and trisindolylmethanes under solvent-free reaction conditions
Barbero, Margherita,Cadamuro, Silvano,Dughera, Stefano,Magistris, Claudio,Venturello, Paolo
, p. 8393 - 8399 (2011)
An efficient and practical synthesis of triaryl and trisindolylmethanes is reported via the bisarylation of aryl aldehydes with activated arenes. The new method features mild solvent-free reaction conditions, in most cases nearly stoichiometric reagent ra
Friedel-crafts alkylation of arenes catalyzed by ion-exchange resin nanoparticles: An expedient synthesis of triarylmethanes
Reddy, B. V. Subba,Venkateswarlu,Sridevi,Aldeyab, Salem S.,Vinu, Ajayan
, p. 6826 - 6832 (2015/11/24)
Friedel-Crafts alkylation of electron-rich arenes with aldehydes has been achieved in the presence of an active and selective Amberlyst-15 catalyst at the reaction temperature of 60 ° C in solvent-free conditions. The catalyst exhibitsby a very high activity and offers the corresponding triarylmethanes in excellent yields with a high selectivity. The use of highly reactive and selective Amberlyist-15 makes this procedure simple, convenient, cost-effective, practical and environmentally friendly. This method provides an easy access to triarylmethanes in a single step using a readily available acidic ionic resin, which is a stable and easy to separate from the reaction mixture by a simple filtration technique.
Ultrasound-assisted eco-friendly synthesis of triarylmethanes catalyzed by silica sulfuric acid
Mohammadpoor-Baltork,Moghadam,Tangestaninejad,Mirkhani,Mohammadiannejad-Abbasabadi,Zolfigol
experimental part, p. 840 - 850 (2012/07/03)
An efficient and eco-friendly synthesis of triarylmethanes by the reaction of arenes with aldehydes in the presence of silica sulfuric acid as a heterogeneous and reusable catalyst under ultrasonic irradiation is reported. The advantages of this protocol are the use of green solvents, inexpensive catalyst, commercially available precursors, reusability of SSA, simple work-up, high yields and short reaction times.
Iodine-catalyzed Friedel-Crafts alkylation of electron-rich arenes with aldehydes: efficient synthesis of triarylmethanes and diarylalkanes
Jaratjaroonphong, Jaray,Sathalalai, Supaporn,Techasauvapak, Prapapan,Reutrakul, Vichai
scheme or table, p. 6012 - 6015 (2010/03/03)
Iodine is shown to be an efficient catalyst for the Friedel-Crafts alkylation of arenes with a wide variety of aldehydes in toluene under 'open-flask' and mild conditions. In the presence of 10 mol % of iodine, the reaction of arenes with aromatic aldehyd
Convenient synthesis of triarylmethanes and 9,10-diarylanthracenes by alkylation of arenes with aromatic aldehydes using acetyl bromide and ZnBr2/SiO2
Kodomari, Mitsuo,Nagamatsu, Maki,Akaike, Megumi,Aoyama, Tadashi
, p. 2537 - 2540 (2008/09/21)
Reaction of electron-rich arenes with acetyl bromide and aldehydes in the presence of silica gel-supported zinc bromide was carried out in benzene to give selectively the corresponding triarylmethanes or 9,10-diarylanthracenes in high yields depending upon the ratio of an arene and an aldehyde. The mild conditions employed are especially noteworthy.
Dual-reagent catalysis within Ir-Sn domain: Highly selective alkylation of arenes and heteroarenes with aromatic aldehydes
Podder, Susmita,Choudhury, Joyanta,Roy, Ujjal Kanti,Roy, Sujit
, p. 3100 - 3103 (2008/02/05)
(Chemical Equation Presented) Reactions of arenes and heteroarenes with aromatic aldehydes proceeded smoothly in the presence of a catalytic combination of [Ir(COD)Cl]2-SnCl4 to afford the corresponding triarylmethane derivatives (TRAMs) in high yields. This 100% TRAM selective transformation is clean and eliminates the use of acid systems.
Br?nsted- and Lewis acid-catalyzed cyclization giving rise to substituted anthracenes and acridines
Goossens, Raf,Smet, Mario,Dehaen, Wim
, p. 6605 - 6608 (2007/10/03)
A versatile acid-catalyzed method for the preparation of symmetrically and unsymmetrically substituted 9,10-diphenylanthracenes is explored. Diveratrylmethanes are prepared and converted into 10-phenylanthracene-9-carbaldehydes by Lewis acid catalysis and into 9-phenylacridines by reduction.
