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Alcohol-Amine Synergism in the Organic Solvent Extraction of Tungsten
이후성,어용선,손연수,Lee Hoosung,Uh, Young Sun,Sohn, Youn Soo Korean Chemical Society 1972 대한화학회지 Vol.16 No.6
5%트리옥틸아민과 5%옥틸알콜이 든 헥산유기용매 1l는 62g의 $WO_3$를 추출할 수 있었는데 반하여 아민만을 사용했을 경우는 37g의 $WO_3$밖에 추출할 수 없었다. 유기용매 추출과정에서 이러한 알콜의 아민-텅스텐 화합물의 용해도의 상승작용 및 아민과 텅스텐산간의 상호작용을 핵자기 공명분광학을 이용하여 연구하였다. 텅스텐은 고분자형의 텅스텐산 이온상태로 유기층으로 추출되어 다중텅스텐산 트리옥틸 암모니움염을 형성함을 알 수 있었으며 이 염은 텅스텐산이온과 알콜간에 수소결합을 형성함으로써 탄화수소 용매에서 더욱 안정화됨을 알 수 있었다. The organic solvent mixture of 5 % trioctylamine and 5 % n-octyl alcohol in n-hexane could be loaded with tungsten to 62 g $WO_3$/1 whereas the amine alone could be loaded only to 37 g $WO_3$/1. Molecular interaction between amine and tungstate ion during the solvent extraction process and the synergistic effect of alcohol in enhancing the solubility of the amine-tungstate complex have been studied by NMR spectroscopy. Tungsten has been shown to be extracted as a polymeric tungstate ion into the organic phase to form a trioctyl ammonium polytungstate salt, which was more stabilized in the hydrocarbon medium by interacting with alcohol via hydrogen bonding between the tungstate ion and alcohol.
이후성 동남어문학회 2009 동남어문논집 Vol.1 No.27
The stories about a famous General, Xue Ren-gui(薛仁貴, 614∼683) and his family were very popular in China. They were made as novel named 「Sol In-gwi jungdong」 in Ching dynasty and as novel named 「Sol In-gwi chon」 by anonymous writer in Korea. Some resercher thought that 「Sol In-gwi chon」 was translated version of 「Sol In-gwi jungdong」 because of many similarities in contents. But some versions have different part against 「Sol In-gwi jungdong」. The theory about source of difference between two works was split into two. One is that it was occurred by any works related to Xue Ren-gui in China, other is that was occurred by any stories related to him in Korea. In this thesis, I examined a problem of two conflicting opinions and consequently I submit following opinion: 「Sol In-gwi chon」 was is greatly influenced by 「Sol In-gwi gwa hae jung dong」in China, not 「Sol In-gwi jungdong」 and any stories in Korea.
유기티탄 화학 (제4보). $TiCl(OC_6H_5)_3{\cdot}C_6H_5OH\;및\;Ti(OC_6H_5)_4{\cdot}C_6H_5OH$의 분자 및 전자구조
이후성,어용선,손연수,Lee Hoosung,Uh Young Sun,Sohn Youn Soo Korean Chemical Society 1975 대한화학회지 Vol.19 No.2
$TiCl(OC_6H_5)_3{\cdot}C_6H_5OH\;및\;Ti(OC_6H_5)_4{\cdot}C_6H_5OH$의 분자량 측정과 전자 흡수스펙트럼을 고찰함으로써 이들 두 유기-리탄 화합물들의 용액 상태에서의 분자 및 전자구조에 대하여 연구하였다. $Ti(OC_6H_5)_4{\cdot}C_6H_5OH$는 고체상태에서는 이합체로 존재하지만 분자량 측정 결과 묽은 용액에서는 단위체로 완전해리되며 $TiCl(OC_6H_5)_3{\cdot}C_6H_5OH$도 8mM농도에서 해리를 시작함을 알수 있었다. 따라서 이들 두 착화합물은 묽은 용액에서 5배위 착화합물로 존재하며 분자구조는 trigonalbipyramid으로 생각된다. 두 화합물의 전자 흡수스펙트럼은 자외부쪽에 똑같은 진동구조를 갖는 벤젠고리 특유의 흡수밴드를 나타내며 가시부에서는 $TiCl(OC_6H_5)_3{\cdot}C_6H_5OH$의 경우 26.8kK에 $Ti(OC_6H_5)_4{\cdot}C_6H_5OH$는 29.6kK에 각각 흡수 밴드를 나타낸다. 이가시부 흡수밴드는 리간드에서 금속쪽으로 전하이전에 의한 $^1A_1''{\to}^1E'\;or\;^1E''$ 전이로 생각된다. The molecular and electronic structures of $TiCl(OC_6H_5)_3{\cdot}C_6H_5OH\;and\;Ti(OC_6H_5)_4{\cdot}C_6H_5OH$ have been studied by employing cryoscopic and electronic spectroscopic methods. The cryoscopic data have shown that the dimeric tetraphenoxytitanium(Ⅳ) phenolate in solid undergoes complete dissociation into monomer in solution and also the chlorocomplex starts dissociation around the concentration of 8 m mole/l. Therefore, these two Ti-complexes are pentacoordinated in dilute solution and the local symmetry of the titanium ion in these complexes seems to be trigonalbipyramid. The electronic spectra of $TiCl(OC_6H_5)_3{\cdot}C_6H_5OH$ and $Ti(OC_6H_5)_4{\cdot}C_6H_5OH$ each show two band, systems, one vibration-structural band characteristic of the aromatic ring in the near UV and another visible band at 26.8 kK, 29.6 kK, respectively, which are assigned as a ligand to metal charge transfer band corresponding to $^1A_1''{\to}^1E'\;or\;^1E''$ transition.