• YAKHAK HOEJI
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• v.52 no.4
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• pp.311-315
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• 2008

The synthesis of 7-arylidene cephalosporanates for ${\beta}-lactamase$ inhibitor was described. The reactions of substituted benzyl halides $[1]{\sim}[3]$ with triphenylphosphine gave triphenylphcsphonium chlorides $[4]{\sim}[6]$. These phosphonium salts were treated with n-butyllithium to give ylides, which were reated with 7-oxocephalosporanate [7] by Wittig reaction to afford the 7-exomethylene cephalosporanates $[8]{\sim}[10]$. These cephalosporanates were oxidized to cephalosporanate sulfones $[11]{\sim}[13]$ with mCPBA. The deprotection of benzhydryl cephalosporanate $[8]{\sim}[13]$ with $AlCl_3$ and $NaHCO_{3}$ gave sodium salts of 7-arylidene cephalosporanates $[14]{\sim}[19]$.

• Archives of Pharmacal Research
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• v.13 no.1
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• pp.43-50
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• 1990

Conformational free energy calculations using an empirical potential function (ECEPP/2) and hydration shell model were carried out on the four-4-aminodiphenyl sulfone analogues of 4, 4'-diamino-2' methyldiphenyl sulfone, 4, 2', 4-triaminodiphenyl sulfone, 4, 4'-diaminodiphenyl sulfone, and 4-aminodiphenyl sulfone as antibacterial agents on Mycobacterium lufu. The conformational energy was minimized from starting conformations which included possible combinations of torsion angles in the molecule. The conformational entropy change of each conformation was computed using a harmonic approximation. To understand the hydration effect on the conformation of the molecule in aqueous solution, the contributions of water-accessible volume and the hydration free energy of each group or atom in the lowest-free-energy conformation was calculated and compared each other. From comparison of the computed lowest-free-energy conformations of four analogues with their antibacterial activities, it is known that the conformation and the hydrophobicity of sulfonyl group and its adjacent carbon atom in each compound are the essential factors to show the strong antibacterial activity.

• YAKHAK HOEJI
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• v.45 no.2
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• pp.140-146
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• 2001

The synthesis of new 6-exomethylene penams with triazole ring for $\beta$-lactamase inhibitor was described. The 6,6-dibromopenam 6 was treated with $CH_3$MgBr and carbaldehyde 5 to afford the 6-bromo-6-(1-hydroxy-1-methyl)penicillanate 7, which was reacted with acetic anhydride to give acetoxy compound 8. The deacetoxybromination of 8 with zinc and acetic acid gave 6-exomethylenepenams, Z-isomer 9 and E-isomer 10, which were oxidized to sulfones 11 and 12 by m-CPBA. The p-methoxybenzyl compounds 9~12 were deprotected by AIC1$_3$and neutralized to give the sodium salts 13~16.

• YAKHAK HOEJI
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• v.46 no.5
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• pp.307-312
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• 2002

The synthesis of new 6-exomethylene penams with benzothiazole ring was described. The 6,6-dibromopenam 5 was treated with $CH_3$MgBr and carbaldehyde 4 to afford the 6-bromo-6-(1-hydroxy-1-methyl)penicillanate 6, which was reacted with acetic anhydride to give acetoxy compound 7. The deacetobromination of acetoxy compound 7 with zinc and acetic acid gave 6-exomethylene penams, Z-isomer 8 and E-isomer 9, which was oxidized to sulfones 10 by m-CPBA. The p-methoxybenzyl compounds 6~10 were deprotected by AlCl$_3$ and neutralized to give the sodium salts 11~15.

• Bulletin of the Korean Chemical Society
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• v.27 no.1
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• pp.106-110
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• 2006

Photocatalytic electron transfer reactions of aryl benzyl sulfides using 2,4,6 triphenylpyrilium tetrafluoroborate ($TP^+BF_4^-$) resulted in the oxidation of these sulfides to the corresponding sulfoxides and also in most cases in the C-S bond cleavage of them along with formation of aromatic aldehydes. In these reactions, the formation of sulfide radical cation has been proposed, which undergoes either oxidation to the corresponding sulfoxide or C-S bond cleavage to the formation of aromatic aldehydes. The further oxidation of sulfoxides to sulfones has not been observed. The influence of substrate structures on the reaction pathways as well as the role of $O_2$ in this respect is discussed.

• YAKHAK HOEJI
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• v.43 no.6
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• pp.782-788
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• 1999

7-Oxocephalosporanate 1 was treated with phosphonium salts 2~4 by Wittig reaction to afford 7-exomethylene cephalosporanates 5~7. They were oxidized to sulfones 8~10 with mCPBA. Deprotecton of benzhydryl 7-exomethylene cephalosporanate with $AlCl_3$ and NaHCO_3$ gave sodium salts of 7-exomethylene cephalosporanates 11~16. The ${\beta}-lactamase$ inhibitory activity of synthesized compounds 11~16 were compared with sulbactam, tazobactam and clavulanic acid against Type I, II, III, IV and TEM-2 $\beta$-lactamase in vitro. Compound 15 showed more potent activity than sulbactam and clavulanic acid against Type III, IV ${\beta}-lactamase$ enzyme.

• Nuclear Engineering and Technology
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• v.9 no.1
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• pp.33-38
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• 1977

The molecular orbital theory (EHT) has been applied to the discussion of the reaction mechanism and reactivity of p-substituted phenyl-$\beta$-chloroethyl-sulfones, R-(equation omitted)-$SO_2CH_2CH_2Cl$, where R are $CH_3O\;,CH_3$, Cl, H. The theoretical conclusion derived are in good agreements with the experimental order.

• Archives of Pharmacal Research
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• v.20 no.6
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• pp.647-651
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• 1997

The 6, 6-dibromopenam 6 was treated with $CH_{3}/MgBr$ and carbaldehyde 5 to afford the 6-bromo-6-(1-hydroxy-1-methyl)penicillanate 7, which was reacted with acetic anhybride to give acetoxy compound 8. The deacetobromination of 8 with zinc and acetic acid gave 6-exomethylenpenams, Z-isomer 9 and E-isomer 10, which were oxidized to sulfones 11 and 12 by m-CPBA. The p-methoxybenzyl compounds were deprotected by $AlCl_{3}$ and neutralized to give the sodium salts 13, 14, and 15.

• Bulletin of the Korean Chemical Society
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• v.15 no.5
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• pp.360-364
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• 1994

A general route for convergent syntheses of morindaparvin derivatives with 1,2-methylene-dioxyanthraquinone pattern is described. The anion of 2-methoxycyclohexanone (3), generated with lithium cyclohexylisopropylamine at -78 $^{\circ}C$, was sulfenylated with phenyl phenylthiosulfonate followed by elimination to afford ${\alpha},\;{\beta}$ -unsaturated carbonyl system 8. 6-Methoxy-2-cyclohexen-l-one (8) was condensed with the four phthalide sulfones derivatives 10a-d, to provide morindaparvin derivatives, 1a-d.

• Proceedings of the Polymer Society of Korea Conference
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• 2006.10a
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• pp.58-59
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• 2006

Less than a decade ago, most alternate membrane materials for fuel cells relied upon a post-sulfonation process to generate ionic groups capable of transporting protons from the anode to the cathode. These random post sulfonations showed some promise, but in general they produced materials that were not sufficiently stable or protonically conductive at ion exchange capacities where aqueous swelling could be restricted. Our group began to synthesize disulfonated monomers that could be used to incorporate into random copolymer proton exchange membranes. The expected limitation was that the aromatic polymers might not be stable enough to withstand fuel cell conditions. However, this was mostly based upon an accelerated test known was the Fenton's Reagent Test, which did not seem to this author as being a reliable predictor of performance. A much better approach has been to evaluate the open circuit voltage (OCV) for alternate membranes, as well as the benchmark perfluorosulfonic acid systems. When this is done, the aromatic ionomers of this study, primarily based upon disulfonated polyarylene ether sulfones, show up quite well. Real time 3000 hours DMFC results have also been generated. Obtaining conductive materials at low humidities is another major issue where alternate membranes have not been particularly successful. In order to address this problem, multiblock copolymers with relatively high water diffusion coefficients have been designed, which show promise for conductivity at lowered humidity.