10038-36-5Relevant academic research and scientific papers
A novel fluoride ion colorimetric chemosensor
Hyoung, Min Yeo,Byung, Ju Ryu,Kye, Chun Nam
, p. 2931 - 2934 (2008)
(Figure Presented) A novel phosphonium derivative of naphthalene was synthesized by the reaction of 1,8-dibromomethylnaphthalene with triphenylphosphine, which only showed a distinct color change when treated with fluoride ions.
Phenalenannulations: Three-Point Double Annulation Reactions that Convert Benzenes into Pyrenes
Alabugin, Igor V.,Dos Santos, Nikolas R.,Hanson, Kenneth,Hu, Chaowei,Kawade, Rahul Kisan,Lin, Xinsong,Watson, Noelle
supporting information, p. 14352 - 14357 (2020/07/20)
3-Point annulations, or phenalenannulations, transform a benzene ring directly into a substituted pyrene by “wrapping” two new cycles around the perimeter of the central ring at three consecutive carbon atoms. This efficient, modular, and general method for π-extension opens access to non-symmetric pyrenes and their expanded analogues. Potentially, this approach can convert any aromatic ring bearing a -CH2Br or a -CHO group into a pyrene moiety. Depending upon the workup choices, the process can be directed towards either tin- or iodo-substituted product formation, giving complementary choices for further various cross-coupling reactions. The two-directional bis-double annulation adds two new polyaromatic extensions with a total of six new aromatic rings at a central core.
Oligosaccharide analogues of polysaccharides. Part 19. Synthesis of 2- (naphthalen-1-yl)ethyl cellooligoglycosides and [(naphthalene-1,8- diyl)di(ethane-2,1-diyl)] bis[cellooligoglycosides]
Xu, Jinwang,Vasella, Andrea
, p. 1728 - 1752 (2007/10/03)
Glucosyl, cellobiosyl, cellotriosyl, cellotetraosyl, and cellooctaosyl residues were attached to naphthalene-1,8-diethanol (3) with the goal of preparing mimics of cellulose I. Among the templates that were considered, 1,8-diethynylnaphthalene (1) led to unstable products, and glycosidation of naphthalene-1,8-dimethanol (2) gave orthoesters that could not be rearranged to glycosides (Scheme 1). The conformation of 3 in the crystal and of its dimethyl ether 14 in solution was studied by X-ray analysis and force-field calculation (Figs. 1-3). Rotation around the Ar-CH2 and CH2-CH2 bonds of 14 is only weakly hindered and the O···O distance of crystalline 3 (6.01 A) corresponds to the mean distance of the parallel chains of cellulose I(β). The acetylated glycosyl bromides 18 and 19 were prepared by a new convergent synthesis (Scheme 2). Glycosylation of 3 by the glycosyl bromides 15-19 under established conditions of the Koenigs-Knorr reaction proved problematic, particularly on account of an acetyl transfer blocking one of the hydroxyethyl groups. Basic zinc carbonate, however, promoted glycosylation of 12 and 3 by the glycosyl bromides 15-19 and did not lead to transacetylation (Scheme 3). The mono- to tetrasaccharides 32-35 and 42-45 were isolated in yields of 5682%, and the octasaccharides 36 and 46 in 32 and 16%, respectively. The mono- and disaccharides 32, 33, 42, and 43 were deacetylated with NaOMe in MeOH. Aqueous NaOH was used for the tri-, tetra-, and octasaccharides 34-36 and 44-46, as their partially deacetylated derivatives proved insoluble in MeOH. The fully deprotected saccharides 37-41 and 47-50 were isolated in over 90%, while the yield of the dioctaoside 51 was lower on account of its poor water solubility.
