10368-44-2Relevant articles and documents
Convenient and inexpensive synthesis of (1R,2R)-trans-1-amino-6-nitroindan- 2-ol
Kozhushkov, Sergei I.,Yufit, Dmitrii S.,De Meijere, Armin
, p. 255 - 265 (2005)
Racemic trans-1-amino-6-nitroindam-2-ol (rac-1) has been prepared in five steps from inexpensive indene (7) in 96% overall yield. The key step was a direct nitration of the known trans-1-aminoindan-2-ol (rac-9) which gave sulfuric acid mono-(rac-trans-1-amino-6-nitroindan-2-yl) ester (rac-10) in quantitative yield. The latter was quantitatively converted into rac-1 by treatment with aqueous 6 N HCl and then ammonia solutions. The same transformations of (1R,2R)-9 [prepared by deracemization of rac-9 with (-)-dibenzoyl-L-tartaric acid (DBT)] proceeded without loss of the optical activity. Deracemization of rac-1 applying (+)-(5)-L-mandelic acid (MA) furnished (1R,2R)-1 and (1s,2s)-1 in 34 and 17% yield, respectively, with e.e. ≥ 98 and 97.6%, respectively. Procedures for recycling of the chiral auxiliaries DBT and MA are also described. The structures of key intermediates were confirmed by X-ray crystal structure analysis.
Synthesis of poly(indene carbonate) from indene oxide and carbon dioxide - A polycarbonate with a rigid backbone
Darensbourg, Donald J.,Wilson, Stephanie J.
, p. 18610 - 18613 (2011)
The catalytic coupling of carbon dioxide with indene oxide utilizing (salen)Co(III)-2,4-dinitrophenoxide in the presence of an onium salt is presented. X-ray structural data for indene oxide monomer as well as cisindene carbonate display near planarity of the fused cyclopentene and benzene rings. Low temperature (0 °C) is required to selectively afford copolymer vs cyclic carbonate from the coupling reactions of CO2 and indene oxide. The produced poly(indene carbonate) samples have molecular weights of up to 7100 Da, with corresponding glass transition temperatures of up to 134 °C, the highest yet reported for polycarbonates produced from CO2/epoxides coupling. Poly(indene carbonate) is thermally stable up to 249 °C. The polymerizations are well controlled, with PDI values ≤1.3.
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Guss,Rosenthal
, p. 2549 (1955)
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The absolute configuration of 2-bromo-2,3-dihydro-1H-inden-1-ols
Prysiazhnuk, Dmitry V.,Rusanov, Eduard B.,Kolodiazhnyi, Oleg I.
supporting information, p. 3023 - 3031 (2021/08/13)
All four possible stereoisomers of cis- and trans-2-bromo-2,3-dihydro-1H-inden-1-ols, which are important intermediates in the synthesis of biologically active compounds, were synthesized and their configurations were studied by enzymatic kinetic resoluti
Concurrent Formation of N-H Imines and Carbonyl Compounds by Ruthenium-Catalyzed C-C Bond Cleavage of β-Hydroxy Azides
Lee, Jeong Min,Bae, Dae Young,Park, Jin Yong,Jo, Hwi Yul,Lee, Eunsung,Rhee, Young Ho,Park, Jaiwook
supporting information, p. 4608 - 4613 (2020/06/05)
A commercial cyclopentadienylrutenium dicarbonyl dimer ([CpRu(CO)2]2) efficiently catalyzes the formation of N-H imines and carbonyl compounds simultaneously from β-hydroxy azides via C-C bond cleavage under visible light. Density functional theory calculations for the cleavage reaction support the mechanism involving chelation of alkoxy azide species and liberation of nitrogen as the driving force. The synthetic utility of the reaction was demonstrated by a new amine synthesis promoted by chemoselective allylation of imine and synthesis of isoquinoline.