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$Fe^{II}-Co^{III}$이핵착물의 광유발 전자이동반응
이규환,Lee, Gyu Hwan 대한화학회 1994 대한화학회지 Vol.38 No.8
이핵착물 $(NC)_5FeII-L-CoIII(NH_3)_5$ 분자내에서의 광유발 전자이동반응을 정류상태 광분해 실험으로 조사하여 속도상수를 결정하고 다리리간드 L의 종류에 따른 영향을 고찰하였다. 금속 결합자리 사이에 콘쥬게이션이 유지되는 BP, PHEN, DAP 리간드는 klight가 약 $3{\times}10^{-2} sec^{-1}$, 양자수율이 상한값인 1이였으며 콘쥬게이션이 유지되지 못하는 BPEA리간드인 klight가 약 $2{\times}10^{-4} sec^{-1}$, 양자수율이 0.03으로 측정되었다. 이로부터 광유발 전자이동반응이 전하이동 들뜬 상태 MLCT*를 거치는 "화학적 메카니즘"인 것으로 증명하였다. Light-induced electron transfer reaction within binuclear complex $(NC)_5FeII-L-CoIII(NH_3)_5$ was studied with steady-state photolysis and the rate constants were measured for various bridging lignands. klight and quantum yields for BP, PHEN, DAP having conjugation between metal binding sites were about $3{\times}10^{-2} sec^{-1}$ and 1, and for BPEA having no conjugation were about $2{\times}10^{-4} sec^{-1}$ and 0.03. Light-induced electron transfer reaction within binuclear complex was proved to be the chemical mechanism which had charge transfer excited state MLCT*.
이규환,신명철,최부병,Lee, Gyu-Hwan,Sin, Myeong-Cheol,Choe, Bu-Byeong 대한의용생체공학회 1985 의공학회지 Vol.6 No.1
Development of a dental Ni-Cr alloy system for porcelain veneering crown and bridge was studied in this research. The principles of alloy design were a) It should not contain toxic beryllium. b) It should have low melting Point. c) It should be easily ground and polished. d) It should possess an adequate strength to resist the deformational force In the mouth. e) It should be bondable Ivith porcelain by chemically. After investigating the effect of minor elements such as boron and rare earth metals on the mechanical properties of the Ni-Cr alloy system, the compromised ideal composition for dental use was determined. The composition was l9.6%, Cr, 5.6% Mo, 3.4% Si, 1, 0% Fe, 0.01% Ti, 0.5-1.0% B, 0.2-0.6% misch metal, balance Ni. To compare the performance of experimental alloy with commercially available alloys, the properties such as strength, melting point, and bond strength were measured. The results Ivere as follows: a) Boron increases the strength of the alloy but reduces the elongation. b) Misch metal increases the strength when the boron content is low, but does not increase the strength when boron content is high. And it reduces the elongation drastically, c) Mechanical strength of the experimental alloy was not superior to commercially available Be containing alloy, but handling performance such as castability, ease of granting and polishing, and cuttability were superior to the Be containing alloy.