• Korean Journal of Crystallography
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• v.6 no.1
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• pp.36-42
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• 1995

Two types of single crystals of the title compound [6-(2-pyridyl)-3, 5-hexadiyn-ol, PyHxD] were obtained by solution of n-hexane/CH2C12 and n-hexane/Et2O, and their molecular conformations are proved identical in spite of different of space groups; C22H18N2O2 (I), Mr=343.70, Monoclinic, Pa, a=14.595(2), b=5.413(2), c=12.218(2)Å, β=96.86(1)°, V=958.3Å3, Z=2, Dx=1.19 Mgm-3, λ(MoKα)=0.71069Å, μ=0.072mm-1, F(000)=360.0, T=292K, R=0.104 for 756 unique observed reflections. An asymmetric unit contains a dimer connected by two N-H…O intermolecular hydrogen bonds. C11H9NO (II), Mr=171.85, Monoclinic, P21/a, a=14.611(2), b=5.423(6), c=12.191(2)Å, β=96.89(1)°, V=959.0Å3, Z=4, Dx=1.19 Mgm-3, λ(MoKα)=0.71069Å, μ=0.072mm-1, F(000)=360.0, T=293K, R=0.066 for 824 unique observed reflection. The structural asymmetric unit contains a molecule, but two N-H…O hydrogen bonds related by controsymmetry make the molecules form a dimer. In both structure, the dihedral angle between the planar pyridyl ring and the plane defined by C(10)-C(11)-O connected by linear diyne chain is approximately normal, and the molecules are stacked along b-axis with the unit repeat of b-axis.

• Proceedings of the Korean Fiber Society Conference
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• 1987.06a
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• pp.22-22
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• 1987

• Bulletin of the Korean Chemical Society
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• v.17 no.1
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• pp.80-83
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• 1996

• Bulletin of the Korean Chemical Society
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• v.16 no.10
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• pp.1003-1006
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• 1995

• Bulletin of the Korean Chemical Society
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• v.10 no.6
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• pp.611-612
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• 1989

• Bulletin of the Korean Chemical Society
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• v.17 no.8
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• pp.674-676
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• 1996

• YAKHAK HOEJI
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• v.46 no.6
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• pp.369-374
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• 2002

Dilithiation of 4-(pivaloylamino)pyridine (5) followed by reaction with tetraisopropylthiuram disulfide(TITD) gave rise to 3-(diisopropyldithiocarbamato)-4-(pivaloylamino)pyridine (6). 3-Mercapto-4H-pyrrolopyridine(2) was synthesized from compound 6 by two methods. The first method was that compound 6 was treated with 5M-HCl to form 2-t-butylthiazolo[5,4-c]pyridine (7) and hydrolysed in refluxing 10％ NaOH and solid NaOH to prepare bis(4-amino-3-pyridyl)disulfide (8). And compound 8 was reacted with 2,5-dimethoxytetrahydrofuran and NaBH$_4$ to afford compound 2. The second method was that compound 6 was hydrolysed with 10％ NaOH and followed to react with 2,5-dimethoxytetrahydrofuran to form compound 11. And then compound 11 was treated with 20％ ethanolic KOH solution to synthesize compound 2.

• Natural Product Sciences
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• v.16 no.4
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• pp.203-206
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• 2010

A pyridyl alkaloid, 3-pyridylcarbinol (1) and benzoic acid derivatives, 4-hydroxy benzoic acid (2), 4-hydroxyactophenone (3), vanilic acid (4), and benzoic acid (5) were isolated from the rhizomes of Anemarrhena asphodeloides on the basis of spectroscopic and physicochemical analyses including 1D- and 2D- NMR techniques as well as by comparison of their data with the published values. Compounds 1 - 5 were isolated for the first time from this plant source.

• Journal of the Korean Chemical Society
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• v.58 no.6
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• pp.569-574
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• 2014

The synthesis of O-desmethylangolensin (O-DMA) analogues from methoxy-substituted benzoic acids was described. Treatment of methoxy-substituted benzoic acids with 2 equiv of ethyllithium afforded methoxypropiophenones, which were subsequently transformed to ethyl 2-(methoxyphenyl)propionates via 1,2-rearrangement of the methoxyphenyl group using $Pb(OAc)_4/HClO_4$ in triethyl orthoformate. After hydrolysis with KOH, the 2-(methoxyphenyl)propionic acids were reacted with di-2-pyridyl carbonate to afford 2-pyridyl 2-(methoxyphenyl)propionates, which were acylated with methoxy-substituted phenylmagnesium bromides to give methoxy-${\alpha}$-methyldesoxybenzoins. The methoxy groups of these compounds were selectively or fully demethylated using boron tribromide to give diverse O-DMA analogues in high yields.

• Journal of Photoscience
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• v.6 no.2
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• pp.67-70
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• 1999

trans-1-(9-Anthryl)-2-(n-pyridyl)ethene (t-n-APyE, n=2 or 4) and trans-1-(9-anthryl)-2-pyrazinylethene (T-APzE) exhibits solvent-dependent fluorescence and efficient trans)cis photoisomerization. Photochemical reactivities of t-2-APyE, t-4-APyE, and t-APzE have been investigated in nonpolar and polar solvents. In nonpolar solvent, parallel photocyclization reaction occurs very efficiently in competition with the fluorescence and photoisomerization. But, in polar solvent, photocyclization was not observed. It is probably due to the stabilization of charge separated state in polar solvent, which is an intermediate in photoisomerization reaction.