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1.
以介孔SiO2/Fe3O4磁性中空微球作为载体,采用物理吸附法对漆酶进行固定化,考察了时间、温度和pH值对漆酶固定化效果的影响,并对固定漆酶的活性及稳定性进行了研究.结果表明,介孔SiO2/Fe3O4磁性中空微球吸附漆酶分子后,介孔材料的比表面积与孔体积均减小.在3 h时复合微球对漆酶的吸附达到平衡,复合微球中介孔SiO2对漆酶的有效固定量为689 mg/g,大大高于纯介孔材料MCM-41的漆酶固定量(319 mg/g).在pH=3~6的条件下,复合微球中固定漆酶仍保持70%以上的相对酶活.当温度不高于60℃时,固定漆酶的相对酶活仍保持65%以上.固定漆酶的pH稳定性和热稳定性都明显优于游离漆酶,固定漆酶的米氏常数为1.05 mmol/L,与游离漆酶相比,固定漆酶与底物的亲和力有所降低.当2,4-二氯苯酚的浓度为10 mg/L时,固定漆酶对其去除率在6 h时达到81.6%,表现出很好的催化活性.  相似文献   

2.
以聚环氧乙烷-聚环氧丙烷-聚环氧乙烷三嵌段共聚物(P123)与离子型助表面活性剂{十六烷基三甲基溴化铵(CTAB)、十二烷基硫酸钠(SDS)或N-肉豆蔻酰-D-丙氨酸(C14-D-A)}为结构导向剂,合成了蠕虫状孔道的介孔SiO2,并在P123/C14-D-A/TMAPS(N-三甲氧基硅丙基-N,N,N-三甲基氯化铵)合成反应体系中,研究了扩孔剂聚乙二醇(PEG)-400的不同添加量对蠕虫状孔道的扩孔效果.合成的产物分别用X-射线衍射(XRD)、扫描电镜(SEM)、透射电镜(TEM)和N2吸附进行表征.此外,利用溶剂萃取法对扩孔后的蠕虫状介孔SiO2进行处理,得到不同孔径的季铵盐官能团化介孔SiO2,分别用于漆酶的固定化;并对固定化酶的稳定性、所需的最佳pH值以及降解2,4-DCP的重复利用性进行了研究.通过比较研究发现,介孔SiO2孔径与漆酶分子直径的匹配性是影响固定化漆酶比活及降解2,4-DCP效率的重要因素.  相似文献   

3.
以三嵌段共聚物P123为模板剂,在酸性条件下通过1,2-三乙氧基硅基乙烷(BTESE)和3-含氧缩水甘油基-丙基-三甲氧基硅烷(GPTMS)共水解缩聚合成环氧基修饰的周期性介孔氧化硅(PMOs),以修饰后的PMOs为载体对漆酶进行固定化,研究了环氧基修饰对固定化酶稳定性的影响.通过XRD、TEM、固态NMR和N2吸附等手段表征材料的修饰效果、孔结构以及漆酶的固定化.结果表明,修饰后的材料保持良好的孔结构,环氧基的修饰有利于提高固定化酶的活力,基于环氧基修饰PMOs的固定化酶具有较高稳定性.  相似文献   

4.
以表面固定Cu2+的改性大尺寸SiO2大孔材料作为载体,考察了时间、pH和给酶量对漆酶固定化效果的影响,并对固定化漆酶的活性和稳定性进行了研究。结果表明:5 h时吸附达到平衡,pH为4.5、漆酶与载体比例为5 mg·g-1时固定化效果最好,酶活回收率可达到100.4%;固定化漆酶的最适pH和最适温度较游离漆酶的均有升高且范围变宽,固定化后,漆酶的pH稳定性和热稳定性都得到显著提高;固定化漆酶的K m值略高于游离漆酶的;固定化漆酶具有良好的操作稳定性,与底物反应反复操作10批次后剩余酶活为72.7%。  相似文献   

5.
以3-氨丙基三乙氧基硅烷为偶联剂,采用后合成法对介孔分子筛(SBA-15)的表面进行改性,制得氨基功能化的介孔NH<,2>-SBA-15材料(简称NH<,2>-SBA-15),其结构和性能经FT-IR,元素分析,XRD,SEM及低温N<,2>吸附-脱附表征.结果表明,氨基成功地嫁接到SBA-15表面,含量高达3.47 ...  相似文献   

6.
以间苯三酚-甲醛为碳源前驱体,嵌段聚合物F127(PEO106PPO70PEO106)为模板剂,在水相中快速合成了介孔碳材料.将其应用于辣根过氧化物酶的固定化,并初步研究了固定化对酶稳定性的影响.利用TEM和SEM观察该材料的微观结构,通过N2吸附-脱附技术对介孔碳材料的孔结构和孔容等进行了表征.结果表明,介孔碳材料具有蠕虫状介孔结构,孔径可在5.6~7.6 nm之间调变,相应的比表面积介于691.1~787.8 m2/g,且随着反应体系中盐酸浓度的增加,所得材料的孔径、比表面积和孔容等均呈现减小的趋势.固定在介孔碳中的辣根过氧化物酶,保持了其蛋白质二级结构,且与游离酶相比,固定化酶的热稳定性、pH稳定性和操作稳定性都有明显的提高.经多次循环操作,固定化酶依然保持较高的活性,说明其具有良好的可重复利用价值.  相似文献   

7.
本文综述了近年来酶在介孔材料上的固定化研究新进展,重点介绍了水解酶类的脂肪酶、蛋白酶、青霉素G酰化酶等以及氧化还原酶类的辣根过氧化物酶、氯过氧化物酶、漆酶等在介孔材料上的固定化研究现状,并对介孔材料固定化酶的发展前景进行了展望。  相似文献   

8.
金属有机骨架(MOF)材料由于其孔隙率高、比表面积大以及具有发达的内联通孔道结构等优点,可以作为优良的生物分子固定化载体。通过表面活性自组装策略制备了铈基介孔MOF(Ce-MOF-F),表征结果表明,该材料有大的比表面积和呈辐射状的介孔孔道结构。以其为载体、南极假丝酵母脂肪酶B(CALB)为模型酶,通过物理吸附法制备了生物催化剂CALB@Ce-MOF-F,对该固定化酶的酶载量和催化性能进行了研究。在优化条件下,CALB的负载量为162.0mg/g载体,水解活性为899.1U/g蛋白。与游离CALB相比,CALB@Ce-MOF-F表现出对高温、酸碱和有机溶剂等有更强的耐受性;将Ce-MOF-F用于多种酶的固定化,研究其作为载体的普适性,结果表明,介孔Ce-MOF-F对洋葱伯克氏菌脂肪酶(BCL)和漆酶有良好的固定效果,可以作为良好载体,并能对酶起到较好的保护作用。  相似文献   

9.
氨基改性介孔二氧化硅的制备及其吸附性能研究   总被引:6,自引:0,他引:6       下载免费PDF全文
杨娜  朱申敏  张荻 《无机化学学报》2007,23(9):1627-1630
合成了一种具有较大孔径的氨基改性介孔二氧化硅材料(m-MCF)。通过XRD、TEM、低温氮吸附、TGA、FTIR以及原子吸收光谱(AAS)等表征方法对产物的结构和性能进行的分析表明:利用三甲基苯为扩孔剂制备得到的介孔材料具有较大的孔径,有利于功能基团对孔内表面的改性。当氨基改性介孔材料后,该材料仍然保留较大的孔径(22 nm)和较高的比表面积(444 m2·g-1)。研究发现:与改性而未扩孔的介孔二氧化硅SBA-15相比,该材料对铜离子的吸附能力提高了2倍。  相似文献   

10.
以聚环氧乙烷-聚环氧丙烷-聚环氧乙烷(P123)为模板剂,采用共溶胶的蒸发诱导自组装方法制备了氨基功能化介孔SO2薄膜,然后利用氯金酸(HAUCl4)与介孔SiO2薄膜孔道内壁的氨基之间的中和反应组装Au纳米粒子,制备得到Au/SiO2纳米复合材料.用TEM,XRD和UV-Vis光谱对材料进行了测试.结果表明,无水乙醇...  相似文献   

11.
KIT-1介孔分子筛的化学修饰及吸附性能   总被引:1,自引:0,他引:1  
介孔分子筛MCM-41具有较大、可调的孔径和较高的比表面积,其骨架组成具有较强的可调变性.为该材料的应用提供了很大的空间。但全硅MCM-41分子筛在潮湿空气中,即使在室温条件下也会发生水解反应,使其介孔结构遭到破坏。前人已针对MCM-41分子筛稳定性不足的问题相继合成了稳定性较高的介孔分子筛KIT-1,  相似文献   

12.
The mesoporous silica gels impregnated with different metal salts were prepared and studied. The pore structure and specific surface area of adsorbents were evaluated using nitrogen adsorption. Then, the sorption isotherms and dynamics of water vapor were carried out at 303 K and different relative humidity (RH). The temperature programmed desorption experiments were conducted to estimate the activation energy (E d) of water desorption on the silica gels. The results showed that the sorption capacity for water decreased with the increase of the ionic radius (except the calcium ion) and that CaCl2 and LiCl were particularly suitable for use in modification of the mesoporous silica gel to improve their sorption rates and capacities for water vapor at the lower and medium RH (RH < 80%). The larger the average pore diameter and pore volume of the initial silica gels, higher the accrual rates of the water vapor sorption rate and capacity were after modification with hygroscopic salts. The activation energy of the water desorption on the mesoporous silica gel modified by CaCl2 were much higher than that on the silica gel modified by LiCl, because the polarizability of the Ca2+ was higher than that of Li+.  相似文献   

13.
Ordered mesoporous silica material was synthesized from a low-cost precursor, sugarcane leaf ash, was used as a support matrix for lipase for the production of biodiesel. The mesoporous samples were characterized using Fourier transform infra red spectroscopy. The surface topography and morphology of the mesoporous materials were studied using scanning electron microscope. The pore diameter, pore volume, Brunauer Emmett and Teller surface area of the mesoporous material were determined by N2 gas adsorption technique. Different pore size Santa Barbara Acid-15 (SBA-15) samples were synthesized and their lipase immobilization capacity and specific enzyme activity of immobilization lipase were determined and compared. Lipase from Candida Antarctica immobilized on SBA-15 (C) had shown maximum percentage immobilization and specific enzyme activity. The immobilized lipase mesoporous matrix was used for biodiesel production from crude non-edible Calophyllum inophyllum oil. The percentage yield of fatty acid methyl ester, 97.6 % was obtained under optimized conditions: 100 mg of lipase immobilized on SBA-15, 6:1 methanol to oil molar ratio, the reaction of 2 g C. inophyllum oil with methanol.  相似文献   

14.
The immobilization and electrochemistry of cytochrome c (cyt c) on amino-functionalized mesoporous silica thin films are described. The functionalized silica films with an Im3m cubic phase structure were deposited on conducting ITO substrate by co-condensation of tetraethoxysilane (TEOS) and 3-aminopropyltriethoxysilane (APTES) in the presence of Pluronic F127 under acidic conditions. The high specific surface area, large pore size and functional inner surface of mesoporous silica thin films result in a high cyt c loading, and the cyt c immobilization on this silicate framework is stable. After adsorption of cyt c, the ordered cubic structure of mesoporous silica and the redox activity of immobilized cyt c are retained as demonstrated by X-ray diffraction (XRD), Transmission electron microscope (TEM) and cyclic voltammetry. The redox behavior of the cyt c/silica film-modified ITO electrode is a surface-controlled quasi-reversible process for the experimental conditions used in this work and the electron transfer rate constant is calculated is 1.33 s−1. The ITO electrode modified by cyt c/silica film possesses a high stability; even cyt c retains its redox activity following immobilization for several months. Furthermore, the electrocatalytic activities of the modified ITO electrode to hydrogen peroxide and ascorbic acid have been studied. Since these behaviors are quite pronounced, the modified electrode can be used for detection of hydrogen peroxide and ascorbic acid.  相似文献   

15.
蔡杰  任楠  唐颐  杨武利 《化学学报》2008,66(8):923-929
采用自组装方法制备了一种磁核/介孔二氧化硅壳的微球, 调节体系中C18TMS的加入量可控制介孔硅球的比表面积; 并通过化学修饰的方法对介孔微球表面进行巯基功能化修饰. 利用巯基与量子点之间的相互作用可将一定尺寸的量子点吸附于介孔二氧化硅球的孔中, 令介孔微球具有荧光效应; 同时可以利用吸附不同粒径的量子点的荧光光谱对介孔二氧化硅微球孔径的大小进行近似考察.  相似文献   

16.
The organic–inorganic composite materials based on mesoporous silica were synthesized using sol–gel method. The surface area of silicas was modified by bovine serum albumin (BSA) and guanidine polymers: polyacrylate guanidine (PAG) and polymethacrylate guanidine. The mesoporous silicas were characterized by nitrogen adsorption–desorption analysis, Fourier transform infrared spectroscopy, transmission electron microscopy. The obtained materials were used as adsorbents for selective bilirubin removal. It was shown that the structural properties and surface area of modified materials depend on the nature of polymers. Incorporation of polymers in silica gel matrix during sol–gel process leads to the formation of mesoporous structure with high pore diameter and a BET surface area equals to 346 m2/g for SiO2/BSA and 160 m2/g for SiO2/PAG. Analysis of adsorption isotherms showed that modification of silica by BSA and guanidine polymers increases its adsorption ability to bilirubin molecules. According to Langmuir model, the maximum bilirubin adsorption capacity was 1.18 mg/g.  相似文献   

17.
Highly ordered amino-functionalized mesoporous silica thin films have been directly synthesized by co-condensation of tetraethoxysilane (TEOS) and 3-aminopropyltriethoxysilane (APTES) in the presence of triblock copolymer Pluronic P123 surfactant species under acidic conditions by sol-gel dip-coating. The effect of the sol aging on thin films organization is systematically studied, and the optimal sol aging time is obtained. The amino-functionalized mesoporous silica thin films exhibit a long-range ordering of 2D hexagonal (p6mm) mesostructure with a large pore size of 8.3 nm, a large Brunauer–Emmett–Teller (BET) specific surface area of 680 m2 g−1 and a large pore volume of 1.06 cm3 g−1 following surfactant extraction as demonstrated by X-ray diffraction (XRD), Transmission electron microscope (TEM), and physical adsorption techniques. Based on BET surface area and weight loss, the surface coverage of amino-groups for the amino-functionalized mesoporous silica thin films is calculated to be 3.2 amino-groups per nm2. Moreover, the functionalized thin films display improved properties for immobilization of cytochrome c in comparison with pure-silica mesoporous thin films.  相似文献   

18.
Hexagonally ordered SBA-15 mesoporous silica spheres with large uniform pore diameters are obtained using the triblock copolymer, Pluronic P123, as template with a cosurfactant cetyltrimethylammonium bromide (CTAB) and the cosolvent ethanol in acidic media. A series of surface modified SBA-15 silica materials is prepared in the present work using mono- and trifunctional alkyl chains of various lengths which improves the hydrothermal and mechanical stability. Several techniques, such as element analysis, nitrogen sorption analysis, small angle X-ray diffraction, scanning electron microscopy (SEM), FTIR, solid-state (29)Si and (13)C NMR spectroscopy are employed to characterize the SBA-15 materials before and after surface modification with the organic components. Nitrogen sorption analysis is performed to calculate specific surface area, pore volume and pore size distribution. By surface modification with organic groups, the mesoporous SBA-15 silica spheres are potential materials for stationary phases in HPLC separation of small aromatic molecules and biomolecules. The HPLC performance of the present SBA-15 samples is therefore tested by means of a suitable test mixture.  相似文献   

19.
In recent years, greater attention has been given to the application of mesoporous materials to the immobilization of enzymes. In this study, the immobilization of superoxide dismutase (SOD) onto the amine-functionalized cubic Ia3d mesoporous silica nanoparticles ([n-PrNH2-KIT-6]) with an average pore diameter of around 6.5?nm was investigated. This organo-functionalized mesoporous silica was prepared using a non-ionic surfactant and was fully characterized by SEM, XRD, nitrogen adsorption?Cdesorption isotherm and FT-IR spectroscopy. UV?Cvisible spectroscopy studies demonstrated that the immobilized SOD was less prone to thermally induced aggregation than the free moiety. Further investigations using far-circular dichroism measurement intensity indicated that the structure of SOD before and after immobilization onto the [n-PrNH2-KIT-6] nanoparticles was almost identical and the immobilized enzyme was more stable against GdHCl denaturation relative to the free one.  相似文献   

20.
The immobilization and encapsulation of glucose oxidase (GOD) onto the mesoporous and the non-porous silica spheres prepared by co-condensation of tetraethylorthosilicate (TEOS) and (3-aminopropyl)trimethoxysilane (APTMS) in the water-in-oil (W/O) emulsion system were studied. The terminal amine group was used as the important functionality for GOD immobilization on the silica substrate. When only TEOS is used as a silica source, the disordered mesoporous silica microspheres are obtained. As the molar ratio of APTMS to TEOS (RAT) increases, the surface area and pore volume of the silica particles measured by nitrogen adsorption and desorption method and SEM decrease rapidly. Particularly, the largest change of the surface morphology is observed between RAT = 0.20 and RAT = 0.25. The amount and the adsorption time of immobilized enzyme were measured by UV spectroscopy. About 20 wt% of GOD was immobilized into the silica substrates above RAT = 0.60 and was completely adsorbed into the substrate of RAT = 0.80 with lapse of 4 h after addition. In the measurement of the thermal stability, GOD dissolved in buffer solution loses nearly all of its activity after 30 min at 65 °C. In contrast, GOD immobilized on the surface-modified silica particles still retains about 90% of its activity after the same treatment. At this temperature, the immobilized glucose oxidase retained half of its initial activity after 4 h. It is shown that the suitable usage of functionalizing agent like APTMS as well as the control of surface morphology is very important on the immobilization of enzyme.  相似文献   

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