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Solubilization and polymer analogous reactions of polyepichlorohydrin in ionic liquids
Kim, Byoung Gak,Sohn, Eun-Ho,Chung, Jae-Seung,Kwak, Seung-Yeop,Lee, Jong-Chan Wiley Subscription Services, Inc., A Wiley Company 2009 Journal of applied polymer science Vol.114 No.1
<P>Polyepichlorohydrin containing reactive chloromethyl side groups was found to be highly soluble in polar ionic liquids containing halide anions such as 1-n-butyl-3-methyl imidazolium chloride, 1-n-ethyl-3-methyl imidazolium bromide, and 1-n-hexyl-3-methyl imidazolium chloride, whereas it was insoluble in less polar ionic liquids such as 1-n-butyl-3-methyl imidazolium tetrafluoroborate and 1-n-butyl-3-methyl imidazolium hexafluorophosphate. The reaction of polyepichlorohydrin with thiolates and thiol compounds in the polar ionic liquids as reaction media produced polyoxyethylenes with thioether side groups in very high conversions and yields. When polyepichlorohydrin was reacted with sodium 1H,1H,2H,2H-perfluorinated decanethiolate in 1-n-hexyl-3-methyl imidazolium chloride at 70°C and the product was separated through centrifugation, the ionic liquid could be used more than four times, and high conversions (>70 mol %) and yields (>62 wt %) were maintained. © 2009 Wiley Periodicals, Inc. J Appl Polym Sci, 2009</P>
Magnetic mesoporous materials for removal of environmental wastes
Kim, Byoung Chan,Lee, Jinwoo,Um, Wooyong,Kim, Jaeyun,Joo, Jin,Lee, Jin Hyung,Kwak, Ja Hun,Kim, Jae Hyun,Lee, Changha,Lee, Hongshin,Addleman, R. Shane,Hyeon, Taeghwan,Gu, Man Bock,Kim, Jungbae Elsevier 2011 Journal of hazardous materials Vol.192 No.3
<P><B>Highlights</B></P><P>• Iron oxide particle embedded mesoporous silica and carbon are synthesized. • Both mesoporous materials are separated easily under aqueous condition using magnet. • Mercury or fluorescein is removed by using magnetic mesoporous material. • Tyrosinase is immobilized in magnetic mesoporous silica and reused after reaction. • Magnetic mesoporous materials are applicable to removal of environmental wastes.</P> <P><B>Abstract</B></P><P>We have synthesized two different magnetic mesoporous materials that can be easily separated from aqueous solutions by applying a magnetic field. Synthesized magnetic mesoporous materials, Mag-SBA-15 (magnetic ordered mesoporous silica) and Mag-OMC (magnetic ordered mesoporous carbon), have a high loading capacity of contaminants due to high surface area of the supports and high magnetic activity due to the embedded iron oxide particles. Application of surface-modified Mag-SBA-15 was investigated for the collection of mercury from water. The mercury adsorption using Mag-SBA-15 was rapid during the initial contact time and reached a steady-state condition, with an uptake of approximately 97% after 7h. Application of Mag-OMC for collection of organics from water, using fluorescein as an easily trackable model analyte, was explored. The fluorescein was absorbed into Mag-OMC within minutes and the fluorescent intensity of solution was completely disappeared after an hour. In another application, Mag-SBA-15 was used as a host of tyrosinase, and employed as recyclable catalytic scaffolds for tyrosinase-catalyzed biodegradation of catechol. Crosslinked tyrosinase in Mag-SBA-15, prepared in a two step process of tyrosinase adsorption and crosslinking, was stable enough for catechol degradation with no serious loss of enzyme activity. Considering these results of cleaning up water from toxic inorganic and organic contaminants, magnetic mesoporous materials have a great potential to be employed for the removal of environmental contaminants and potentially for the application in large-scale wastewater treatment plants.</P>
Lee, Jinwoo,Na, Hyon Bin,Kim, Byoung Chan,Lee, Jin Hyung,Lee, Byoungsoo,Kwak, Ja Hun,Hwang, Yosun,Park, Je-Geun,Gu, Man Bock,Kim, Jaeyun,Joo, Jin,Shin, Chae-Ho,Grate, Jay W.,Hyeon, Taeghwan,Kim, Jungb Royal Society of Chemistry 2009 Journal of materials chemistry Vol.19 No.42
<P>A magnetically-separable and highly-stable enzyme system was developed by adsorption of enzymes in superparamagnetic hierarchically ordered mesocellular mesoporous silica (M-HMMS) and subsequent enzyme crosslinking. Superparamagnetic nanoparticles were homogeneously incorporated into hierarchically-ordered mesocellular mesoporous silica (HMMS) by the decomposition of a preformed iron propionate complex. The size of the incorporated superparamagnetic nanoparticles was around 5 nm, generating a magnetically separable host with high pore volumes and large pores (M-HMMS). α-chymotrypsin (CT) was adsorbed into M-HMMS with high loading (∼30 wt%) in less than 30 minutes. Glutaraldehyde (GA) treatment of adsorbed CT resulted in nanometer scale crosslinked enzyme aggregates in M-HMMS (CLEA-M). The activity of these CT aggregates in M-HMMS (CLEA-M-CT) was 34 times than that of simply adsorbed CT in M-HMMS, due to an effective prevention of enzyme leaching during washing <I>via</I> a ship-in-a-bottle approach. CLEA-M-CT maintained the initial activity not only under shaking (250 rpm) for 30 days, but also under recycled uses of 35 times. The same approach was employed for the synthesis of CLEA-M of lipase (CLEA-M-LP), and proven to be effective in improving the loading, activity, and stability of enzyme when compared to those of adsorbed LP in M-HMMS.</P> <P>Graphic Abstract</P><P>Crosslinked enzyme aggregates in magnetitie-coated mesoporous silica, fabricated <I>via</I> a two-step procedure of enzyme adsorption and crosslinking, were highly active, highly stable, and easily recyclable using a magnet. <IMG SRC='http://pubs.rsc.org/services/images/RSCpubs.ePlatform.Service.FreeContent.ImageService.svc/ImageService/image/GA?id=b909109b'> </P>
배병주,박찬무,곽현모,황영환,Bai, Byoung-Choo,Park, Chan-Moo,Kwak, Hyun-Mo,Whang, Young-Whan 대한생식의학회 1993 Clinical and Experimental Reproductive Medicine Vol.20 No.1
Five hundred and fory-four women were provided government funded sterilization reversal services with technique of microsurgery at 15 reversal institutions designated by the Korean Association for Voluntary Sterilization since the inception of Female Reversal Program in 1981. A large majority of reasons for requesting reversal surgery was a loss of children, comprising 87.3%, and the mean interval between sterilization and reversal was 33.6 months. Two hundred and ninty-one of 418 women who were post-operatively followed up with the length of 11 months to 11 years, have experienced term dilivery or ,intra-uterine pregnancy, represented 69.6%. Eight cases have experienced ectopic pregnancy and 9 cases spontaneous abortion. The largest number of reversal clients were sterilized by the laparoscopic unipolar coagulation technique and the next largest group was sterilized by the laparoscopic banding technique, representing 59.8% and 28.9% respectively. The highest pregnancy rate, 80.9%, was shown in clients who had undergone laparoscopic banding technique while the lowest, 61.8%, was the group of laparoscopic bipolar coagulation. The most common site of the anastomosis was isthmic-ampullary portion and the next was isthmic-isthmic portion. The highest success rate, 77.8 %, was marked in the isthmic-isthmic anastomosis and the lowest was in the ampullary-ampullary anastomosis, representing 50.0%. A more than 60% of the clients became pregnant within 6 months of their reversal surgery, with the shortest interval being 1 month, the longest 39 months, and the mean 7.6 months. A large majority of the successful cases were pregnancy within 1 year of their reversal surgery, representing 82.1 %. The higher rate of pregnancy, 73.5%, was in the clients undergone reversal surgery within 36 months of their sterilization and the lower pregnancy rate, 64.1 %, was in the clients undergone reversal surgery longer than 37 months of their sterilization.