17056-93-8Relevant articles and documents
Molecular tweezers: Synthesis and formation of host-guest complexes
Legouin, Beatrice,Gayral, Maud,Uriac, Philippe,Cupif, Jean-Francois,Levoin, Nicolas,Toupet, Loic,Van De Weghe, Pierre
, p. 5503 - 5508 (2010)
A chiral molecular tweezer obtained from (+)-usnic acid placed in solution in the presence of various aromatic compounds afforded complexes with low association constants. Thus, the X-ray structure of assembly 31 is presented, where the guest is sandwiched between the two pincers of the tweezer. The association constants for various guests were determined through different methods. Finally, other tweezers with electron-rich aromatic aldehydes and ketones were prepared from (1R,2R)-1,2-diaminocyclohexane. The most interesting complexes were also confirmed through structural analysis, and the best results were obtained with 10-hydroxyphenanthrene-9-carbaldehyde (51) as the aromatic moiety.
Convenient Syntheses of Naturally Occurring Angular and Linear Naphthopvrans
Paradkar, Madhusudan V.,Godbole, Himanshu M.,Ranade, Anup A.,Joseph, Augustine R.
, p. 318 - 319 (1998)
A convenient synthesis of naturally occurring angular naphthopyrans and their 6-demethoxy derivatives is described starting from 2-acetyl-1-naphthols along with the synthesis of linear naphthopyrans from 3-acetyl-2-naphthol.
Solvatofluorochromic flavonoid dyes with enlarged transition dipole moments enable the ratiometric detection of methanol in commercial biodiesel with improved sensitivities
Du, Bing,Huang, Yingying,Liu, Bin,Qin, Tianyi,Xu, Hanhong,Xun, Zhiqing,Yao, Guangkai,Zhao, Chen
, p. 16808 - 16814 (2020/12/30)
Detection of methanol in commercial biodiesel is essential to evaluate the fuel quality associated with the matter of driving safety. Compared to the standard GC method, the fluorescent detection method for methanol is much simpler and faster, but still u
Nucleophilic addition reaction with dearomatization of naphthalene ring
Imayoshi, Ayumi,Kiyotaki, Kotaro,Sasaki, Hirotaka,Tsubaki, Kazunori
, p. 384 - 391 (2020/05/14)
Various aromatic lactones have been synthesized and their regioselectivity (1,2-addition vs. 1,4- or 1,6-addition) investigated in reactions with organolithium species, particularly n-BuLi and sec-BuLi. The regioselectivity varied greatly depending on various factors, such as the bulkiness of both substrates and organolithium species, and types of solvent and cosolvent. In particular, 1,4-addition with dearomatization occurred preferentially using sec-BuLi as the nucleophile in tetrahydrofuran (THF) with hexamethylphosphoramide (HMPA) or N,N′-dimethylpropyleneurea (DMPU) as cosolvent. For sec-BuLi, the reaction was estimated to proceed through a single-electron transfer mechanism.