APTES
- 网络氨基丙基三乙氧基硅烷;氨丙基三乙氧基硅;氨丙基三乙氧基硅烷;乙氧基硅烷;基硅烷
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And get the optimal modification conditions of APTES to Ultramarine blue pigment .
确定了APTES对群青颜料改性的最佳条件。
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The chemical method used in this paper makes use of APTES silanization and realize fully control of the membrane properties .
文中的化学共价修饰采用了能够有效控制修饰的APTES硅烷化固定方法,并实现了对于基底膜性质的有效控制。
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Research on Deposition of Carbon Nanotubes on APTES Self-assembled Monolayers
碳纳米管在APTES自组装膜表面沉积的研究
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The effects of APTES content and heat-treatment temperature on the separation ability of the membranes were investigated .
考察了D-Phe分子印迹SA-APTES杂化膜对氨基酸结构类似物(D-Phe和D-Tyr)的分离性能,并研究了APTES含量和热处理温度对分离效果的影响。
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According to the XPS test results , APTES could make substrate surface contain amino groups by reacting with substrate surface .
由XPS检测结果可知,APTES通过浸泡修饰能与基片表面反应,使基片表面含有氨基。
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Preparation of the porous scaffolds of chitosan-gelatin / APTES modified bioglass
壳聚糖-明胶/APTES改性生物活性玻璃复合支架的制备工艺
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All the results demonstrate that the APTES has grafted to the silica particle surface and kept well the structure and feature of original particles .
结果表明APTES较易结合到SiO2粒子上,较好的保留了粒子的原始结构和形态。
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Then waterborne polyurethane / SiO2 organic-inorganic hybrid materials were prepared by the hybrid reaction between silica sol and polyurethane endcapped by APTES .
再将硅溶胶与APTES封端的聚氨酯进行混合,制备出水性聚氨酯/SiO2有机无机杂化材料。
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A piesoelectric immunosensor for detection of BSA and anti-BSA antibody , using APTES to immobilize the protein , is described .
以牛血清蛋白(bovineserumalbumin,BSA)及其抗体为检测对象,用常用的硅烷化合物APTES固定蛋白研制石英晶体免疫传感器。
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Using different reagents to modify mica surface such as Mg2 + , APTES , spermidine , we have successfully imaginged the DNA molecules by AFM .
在样品制备过程中,应用不同的试剂(如:Mg2+、APTES、亚精胺等)来修饰云母表面,都成功地用原子力显微镜成像出DNA等分子图像。
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Firstly analysis the effect of temperature , molar ratio of water and silicon , catalyst concentration and time on the loading rate of hydrolysis and condensation product of APTES on the surface of ultramarine pigment .
首先分析温度、水硅摩尔比、催化剂用量、时间对APTES水解缩合产物在群青颜料表面负载率的影响。
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Then MMSC were modified by APTES to introduce amino groups and alkaline protease was immobilized using a coupling agent PDC . The enzyme activity results showed that the activity recovery rate was 15.1 % .
利用APTES对磁性介孔硅载体表面进行修饰,然后用偶联剂PDC将其与碱性蛋白酶偶联,酶活力实验结果表明其酶活回收率为15.1%。
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The method for graft modification reaction of water soluble organosilicone ( Si-204 ) with γ - aminopropyltriethoxysilane ( APTES ) and toluene diisocyanate as modifying agents was studied .
采用硅烷偶联剂γ-氨丙基三乙氧基硅烷(APTES)及甲苯二异氰酸酯(TDI)等作为204水溶性有机硅油(Si-204)改性材料,研究了相关的接枝反应改性方法。
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And similar to the batch process , EDA as the bridging agent , the product did not produce gel ; but APTES as bridging agents , reactive extrusion was extremely easy to produce gels .
与间接法类似,EDA为桥联剂,产物均没有产生凝胶;而以APTES为桥联剂,在反应挤出中极易产生凝胶。
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Among them , the surface modified by APTES and PLL improved significantly the solidifying effect of ALR , dsDNA , cardiolipin and oxidized antibody and enhanced the absorbance value and sensitivity of EIA .
其中APTES与PLL修饰表面可显著改善rhALR、dsDNA、心磷脂抗原及氧化型抗体分子的固相化效果,提高酶免疫分析的吸光度值和测定敏感度。
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After using APTES to functionalize the silica microspheres , we can incorporate gold crystals into the surface of the microspheres via the mutual reaction between the amino functional groups and the gold anions , which producing the gold seeds .
在使用氨丙基三乙氧基硅烷(APTES)对二氧化硅微球表面进行功能化改性之后,即可利用氨基基团和金离子之间的相互作用将金离子连接到二氧化硅微球表面形成用于后续实验的金颗粒种子。
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The experimental results indicate that deposition of CNTs is enhanced with increasing of temperature and concentration of CNTs in the suspension and lasting of time . The results can be used to effectively position the CNTs on APTES SAMs and fabricate the nano-electronic devices with CNTs .
结果表明,延长沉积时间、提高沉积温度和CNTs在分散液中的浓度均能增强CNTs在自组装膜上的沉积,为进一步有效控制CNTs定位和构建基于CNTs结构的纳米电子器件提供了帮助。