1) embedding
[英][im'bed] [美][ɪm'bɛd]
包埋
1.
The result showed that the embedding ratio of the microencapsulated linseed oil prepared by the conditions of weight ratio of porous starch adsorbed linseed oil to 10% zein solution(1.
以多孔淀粉为载体,玉米醇溶蛋白为壁材,采用旋转锅喷雾包埋法制备粉末亚麻油。
2.
Microencapsulation of flavouring substance is an important branch of microencapsulation embedding technology.
风味物质微胶囊化是微胶囊包埋技术的一个重要分支。
3.
As sections are affected by many factors such as sampling of materials, fixation, dehydration, embedding, sectioning, mounting and staining of sections, and.
第一部分放大倍数和包埋介质对睾丸组织形态定量研究的影响 研究背景与目的: 形态定量研究中,我们通常利用组织切片,根据体视学原理测量切片上观察到的图像,由此估计组织结构的形态定量特征。
2) encapsulation
[英][in,kæpsju'leiʃən] [美][ɪn,kæpsə'leʃən]
包埋
1.
The encapsulation productivity and e.
研究发现低粘度SSOS微胶囊包埋柠檬油的百分率在57。
2.
Some properties concerning sol-gel bio-encapsulation are introduced, including the basic process of sol-gel bioencapsulation, the configuration, dynamics, accessibility, activity and stability of encapsulated biomolecules.
本文主要介绍溶胶 凝胶法包埋生物分子的基本过程 ,包埋后生物分子在凝胶基质中的构象变化和运动状态 ,被分析物或底物与生物分子活性位点的接触情况以及生物分子的活性和稳定性等。
3.
The parameters of processing technology of instant Mei (Japanese apricot) were studied in this paper, problem of the juice yield and juice bitterness and astringency had been solved by the technology of enzymatic hydrolysis and encapsulation.
就青梅冲剂生产工艺条件进行了一些探讨 ,成功地应用酶解和包埋技术 ,解决了梅的出汁率问题 ,并有效地控制了梅汁苦涩味 ,达到了果汁制品理想的色、香、味 ,进而制成方便冲
3) entrapment
[英][ɪn'træpmənt] [美][ɪn'træpmənt]
包埋
1.
The physical entrapment of homogeneous transition-metal catalysts into silica sol-gel matrices is a simple procedure which makes it possible to convert a variety of soluble metal compounds into recyclable leach-proof catalysts that are more stable than their homogeneous analogues.
以正硅酸乙酯为前驱体 ,采用溶胶 凝胶技术将吡啶羧酸钴包埋进SiO2 基体中 ,于 80℃干燥 12h后得到钴含量为2 8% (Co/Si摩尔比 )的干凝胶催化剂 。
2.
In this paper, the preparation methods, advantages, disadvantage and advance of the polymer carriers for enzyme entrapment were summarized.
本文对适用于酶包埋的高分子载体材料的制备 ,优缺点以及制备载体材料的优化方法做了较为详细的叙述 ,最后对这些高分子载体材料的发展前景进行了预
3.
Chitosanase from Pseudomonas CUY8 was immobilized by cross-linking and entrapment,respectively.
采用吸附交联和包埋法对假单胞菌(Pseudomonas)CUY8产壳聚糖酶进行固定,并对游离壳聚糖酶和2种固定化酶的特性进行比较。
4) embed
[英][ɪm'bed] [美][ɪm'bɛd]
包埋
1.
Study on the influence of embedded technologies to textile fibers on the cross-sectional parameters of single hollow fibers;
纤维包埋技术对单中空纤维截面特征参数的影响
2.
Research on culture lactobacillus by the method of embed buffer salt;
包埋缓冲盐法培养乳酸菌的研究
3.
Adsorption of phenol on carbon nanotubes embedded in sodium alginate gel beads
包埋碳纳米管海藻酸钠凝胶球吸附苯酚的研究
5) embedment
包埋
1.
Study on the embedment of salt—coagulants of instant soybean curd;
即食豆腐脑中盐类凝固剂包埋的研究
2.
Comparing all the embedment processes,the optimum of the comprehensive property of spherules as follows:the cross-link time of 24?h,the PmPD over PVA ratio of 1∶1,the PVA concentration of 8wt% with the mass loss of 15.
使用聚乙烯醇(PVA)为包埋剂,硼酸(H3BO3)为交联剂将聚间苯二胺粉末包埋成球。
3.
The study on capability of degradation of embedment of Phanerochaete chrysosporium to nitrobenzene was carried out.
实验研究了黄孢原毛平革菌的包埋固定化技术处理硝基苯废水。
6) inclusion
[英][ɪn'klu:ʒn] [美][ɪn'kluʒən]
包埋
1.
In this paper allyl isothiocyanate(AITC) was included by β-cyclodextrin to form a solid powder and the controlled release property of AITC from the inclusion complexes was studied.
本论文利用β-环糊精对异硫氰酸烯丙酯进行分子包埋,将液态油转变为固体的包合物粉末,同时对其释放特性进行研究。
2.
In this paper, the inclusion of AITC by cyclodextrins was carried out and by the way of controlled release from the complexation, AITC exhibits a stronger antimicrobial effect and less stink than the free AITC.
本论文利用β-环糊精对异硫氰酸烯丙酯进行分子包埋,通过控制释放方式,提高了异硫氰酸烯丙酯的抑菌效果,改善了刺激的气味;同时将液态油转变为固体粉末,方便了其在实际领域中的应用。
补充资料:包埋培养
分子式:
CAS号:
性质:细胞固定化培养的一种。首先用于微生物发酵,具有保护性强、可重复使用、易于连续操作、生长速度快、产品较纯等优点。对于动物细胞,无论是悬浮和贴壁生长的细胞都适用。细胞生长密度高,抗剪切力和抗污染能力强。对悬浮培养的细胞常用海藻酸钙包埋,对贴壁生长的细胞常用胶原包埋。包埋培养的操作步骤简单,条件温和,细胞和多聚物或单体混合,随着凝胶的形成,细胞嵌入多聚物的网格中。有许多多聚物可采用,如聚丙烯酰胺、聚氨酯、海藻酸盐、卡拉胶、琼脂糖等,故通常可选择合适的系统,使细胞处于活性状态。它也存在一些缺点,如扩散限制,并非所有细胞都能接触最佳基质浓度。由于大分子基质不能渗透通过多聚物网格,因而有一些物质被排斥在外。
CAS号:
性质:细胞固定化培养的一种。首先用于微生物发酵,具有保护性强、可重复使用、易于连续操作、生长速度快、产品较纯等优点。对于动物细胞,无论是悬浮和贴壁生长的细胞都适用。细胞生长密度高,抗剪切力和抗污染能力强。对悬浮培养的细胞常用海藻酸钙包埋,对贴壁生长的细胞常用胶原包埋。包埋培养的操作步骤简单,条件温和,细胞和多聚物或单体混合,随着凝胶的形成,细胞嵌入多聚物的网格中。有许多多聚物可采用,如聚丙烯酰胺、聚氨酯、海藻酸盐、卡拉胶、琼脂糖等,故通常可选择合适的系统,使细胞处于活性状态。它也存在一些缺点,如扩散限制,并非所有细胞都能接触最佳基质浓度。由于大分子基质不能渗透通过多聚物网格,因而有一些物质被排斥在外。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条