micelle
micelle
1. critical micelle concentration ( CMC )
CMC
2. Study of micelle formation of CTAB by microcalorimetric method
CTAB形成胶束的热力学性质的微量量热法研究
3. Surface micelle concentration(smc) of CTMAB in soil-solution system was obviously less than critical micelle concentration(cmc) of CTMAB in solution.
CTMAB在土壤-溶液体系的临界表面胶团浓度smc显著小于溶液体系CTMAB的临界胶团浓度cmc。
4. Because the bridge and flocculation of the large molecules of HPAM in micelle and oil sand, the absorption loss of oleic acid and sodium oleate will increase further.
HPAM大分子在胶束和油砂粒子表面上的架桥絮凝作用,使油酸-油酸钠的吸附损失量进一步增大。
5. SDBS is adsorbed to Ca-bentonite mainly through precipitation interaction. It reaches a maximum at 1.5 Critical Micelle Concentration (CMC).
SDBS在Ca基膨润土上的吸附损失机理主要为沉淀作用,损失量在SDBS平衡浓度为1.5CMC时达到极大值。
6. Keywords TCPP;SDS micelle;protonation;transmembrane process;
SDS胶束;质子化;跨膜转移;
7. THE MEASUREMENTS OF COUNTERION ASSOCIATION DEGREE IN THE SDS MICELLE SYSTEMS
SDS胶束体系中反离子缔合度的测定
8. viscoelastic surfactant micelle fluid
VES胶束流体
9. critical micelle concentration(CMC)
[化] 临界胶束浓度; 临界胶团浓度
10. Keywords AOT;isooctane;reversed micelle;Douchi fibrinolytic enzyme;
丁二酸二异辛酯磺酸钠(AOT);异辛烷;反胶束;豆豉纤溶酶;
11. Contrary to conventional surfactant, high concentration of Gemini surfactant present in the polymer and salinity solution transitioned from micelle to rod structure.
与传统表面活性剂不同的是,高浓度的表面活性剂在存在盐和聚合物的水溶液中,微观结构发生了从胶束到棒状胶束的转变。
12. Compared with the structural similar common surfactants, AMC16AB has low CMC value and krafft points,and aggregation numbers of AMC16AB micelle increases with the increasing of AMC16AB concentration.
与结构相同的一般表面活性单体相比,AMC16AB的CMC较低,Krafft点较低;
13. Non-ionic surfactants are more desirable because they possess lower critical micelle concentration (CMC) and are not liable to flocculate clay particles in the soil.
且因界面活性剂的微胞结构,会增加有机物在水中的溶解能力或产生乳化现象,有助于有机物的移除。
14. critical micelle concentration (CMC)
临界微胶粒浓度
15. The value CAC/CMC, ratio of the critical aggregation concentration (CAC) to the critical micelle concentration (CMC), decreases with the increase of the chain length and the interaction strength between the polymer chain and surfactant.
临界聚集浓度(CAC)与临界胶束浓度(CMC)的比值CAC/CMC随高分子链长的增大和相互吸引作用的增强而减小.
16. critical "micelle concentration ( cmc )
临界胶束浓度
17. The process in the field of application of micro-emulsion,micelle and reversed micelle systems in the technology of chemistry analysis and separation is focused.
介绍了多媒体技术在储存环束团截面测量中的应用,主要包括视频捕获、图象处理机、数据处理、数据存档。
18. The new opinion to explain why amphoteric surfactant is the best lime soap dispersing agent was given from the view point of mixed micelle theory.Environmen...
从混合胶束理论出发,对两性表面活性剂是比其他类型表面活性剂更优秀的钙皂分散剂这一事实,作者提出了新见解。
19. The new opinion to explain why amphoteric surfactant is the best lime soap dispersing agent was given from the view point of mixed micelle theory.
从混合胶束理论出发,对两性表面活性剂是比其他类型表面活性剂更优秀的钙皂分散剂这一事实,作者提出了新见解。
20. The disaggregation behaviour indicated that ZnPC with low sulfonation degree may interact with all three types of micelle.
低磺化程度酞菁与三类胶束间均可发生相互作用,其标志是胶束的解聚作用;
21. Keywords Size exclusion chromatography;Micelle;PS-PI diblock copolymer;
体积排斥色谱;微胶柬;PS/PI二嵌段共聚物;
22. Keywords Dynamic laser light scattering;Micelle;PS-PI diblock copolymer;
关键词光散射;微胶束;PS/PI二嵌段共聚物;
23. Keywords Ocular preparation;Cyclosporin A(CsA);Emulsion;Micelle;
关键词眼用制剂;环孢素;乳剂;胶束;
24. Keywords Micelle catalysts;2;4-Dinitrochlorobenzene;Cetylpyridine bromide;
关键词胶束催化;2;4-二硝基氯苯;溴代十六烷基吡啶;
25. Keywords drag reduction;counterion;Reynolds number;friction factor;micelle;
减阻;伴随离子;雷诺数;摩擦阻力系数;胶束;
26. The relationship between molecular weight distribution of phospholipids reverse micelle in soybean miscella arid temperature was analyzed.
分析了大豆混合油中磷脂反相胶束的分子量分布和温度的关系。
27. Added monomer diffuses into the micelle for polymerization.
加入的单体扩散进入胶团做聚合反应。
28. Keywords Chemiluminescene;Reversed micelle;Sarine;Luminol;CTAB;
化学发光;逆胶束;沙林;鲁米诺;CTAB;
29. CH3 ( CH11 ). SO4 nacritical micelle concentration
十二烷基硫酸钠CMC
30. A STUDY OF MICELLE IN SAS/SDS AND SAS/CTAB MIXING SYSTEM
十二烷基磺酸钠/十二烷基硫酸钠及十二烷基磺酸钠/十六烷基三甲基溴化铵复配体系胶团的研究
31. Keywords Amphiphilic porphyrin;Micelle;Protonation;Trans-membrane;UV-Vis;
双亲卟啉;胶束;质子化;跨膜转移;紫外-可见光谱;
32. Keywords MePEG-Chol;MePEG-St;Mixed micelle;crystallization;morphology;
双亲性聚合物;结晶;凝聚态;复合胶束;药物控释;
33. Amphiphilic polymer can self-assemble into supermolecular structure(polymer micelle)by the balance of the hydrophilic and the hydrophobic interaction.
双亲聚合物在选择性溶剂中通过亲水作用与疏水作用间力的平衡,可自组装形成核-壳型超分子有序结构(聚合物胶束);
34. Keywords Bolaform amphiphile;Surface micelle;AFM;
双头双亲分子;表面胶束;原子力显微镜;
35. Hydrolysis of Carboxylic Acid Esters Catalyzed by Cationic Gemini Surfactant Micelle
双子阳离子表面活性剂胶束催化羧酸酯水解
36. On the contrary, the looser the micelle of additives in solution is, the easier they dispersed and would be adsorbed at metal surface.
反之,添加剂在溶液中形成的胶束愈松散,愈易向金属表面扩散和均匀吸附。
37. reverse micelle ofmicroemulsion
反向微乳法
38. Keywords reverse micelle method;ZrO_2;nano powders;freeze drying;
反相胶束法;氧化锆;纳米粉体;冷冻干燥;
39. Keywords Counterion;Association degree;Micelle;Ion-selective electrode;
反离子;缔合度;胶束;离子选择电极;
40. Keywords Reverse micelle;Phase transfer;Cytochrome C;
反胶团;相转移;细胞色素C;
41. Much attention has been paid to the extraction of proteins and preparation of ultrafine particles by reverse micelle.
反胶团具有独特的优良性能,有着十分广阔的应用前景,近年来正越来越多地受到关注。
42. Extraction of the Protein and Oil from Soybean using Reverse Micelle
反胶团提取大豆中的蛋白质和豆油
43. Keywords reverse micelle;tannase;catalyze property;kinetics;conformation;
反胶束;单宁酶;催化性能;动力学;构象;
44. Keywords reverse micelle;tannase;alkyl gallate;
反胶束;单宁酶;没食子酸烷基酯;
45. Keywords reverse micelle;tannase;UV spectrum;fluorescence spectrum;
反胶束;单宁酶;紫外光谱;荧光光谱;
46. Keywords reverse micelle;vegetable oil;oil;protein;
反胶束;植物油料;油脂;蛋白质;
47. Keywords reversed micelle systems;cholesterol esterase;vitamin E acetate;
反胶束;胆甾醇酯酶;维生素E醋酸酯;
48. Keywords reverse micelle;extraction;kanamycin;antibiotics;
反胶束;萃取;卡那霉素;抗生素;
49. Keywords reverse micelle;extraction;gentamycin;
反胶束;萃取;庆大霉素;
50. Keywords reversed micelle;enzyme catalysis reaction;catalyser;
反胶束;酶催化;催化剂;
51. Research on the catalysis characteristics of CSL in reversed micelle system
反胶束中脂肪酶CSL催化性能的研究
52. Keywords reversed micelle systems;porcine pancreas lipase;vitamin E acetate;
反胶束体系;猪胰脂酶;维生素E醋酸酯;
53. Hydrolysis of Vitamin E Acetate in Reverse Micelle Systems
反胶束体系中维生素E醋酸酯的酶催化水解
54. Kinetics of sucrose hydrolysis catalyzed by enzyme in reverse micelle system
反胶束体系中酶催化蔗糖水解的动力学研究
55. Applications of reverse micelle systems in the pharmaceutical field
反胶束体系在药学领域中的应用
56. Reverse micelle is a hydrous polymer that has a contrary structure to the normal micelle, it is formed by surfactant solving in non-polar solvent.
反胶束体系是表面活性剂在非极性溶剂中自发形成与正常胶束结构相反含水聚集体。
57. inverse micelle microemulsion method
反胶束微乳液法
58. Spectra of Cyanine Dye in Reversed Micelle
反胶束微环境对菁染料光谱性质的影响
59. Reverse micelle is a new biological technology.The activity of protein can be retained during extraction.
反胶束技术是一种新的生物技术,在萃取蛋白过程中能较好地保持蛋白的活性。
60. AOT reversed micelle extraction
反胶柬萃取
61. micelle anisotropic reaction
各向异性的胶束间反应 胶束间的不均一反应
62. It apply to capsule,white pill,sugar-coat pill micelle,special-pill,marble chocolate,and chewing gum and so on.
各种规格的胶囊、素片、糖衣片、胶丸、异形片等药品及巧克力、口香糖等小食品的包装。
63. It apply to capsule,white pill,sugar-co2at pill micelle,special-pill,marble chocolate,and chewing gum and so on.
各种规格的胶囊、素片、糖衣片、胶丸、异形片等药品及巧克力豆、口香糖等小食品。
64. micelle stabilized room temperature phosphorimetry;
名称 胶束增稳室温磷光法;
65. In contrast, the BP-5 molecule with short alkyl chain forms spherical surface micelle at the interface.
含有较短烷基链的BP-5分子在液/固界面上形成球状的表面胶束;
66. Keywords thiazole orange;aggregation;micelle;absorption spectrum;
噻唑橙;聚集状态;胶束;吸收光谱;
67. Critical Micelle Concentration of Tetraethylammonium Hydroxide Aqueous Solution
四乙基氢氧化铵水溶液的临界胶束浓度的测定
68. In reverse micelle CTAB/butanol/isooctane/H2O,CRL displays rather high enantioselective rate(E?100) when vinyl acetate is used as the acyl donor.
在CTAB/丁醇/异辛烷/水反胶束体系中,以乙酸乙烯酯为酰基供体时,CRL的对映选择率很高(E》100);
69. It is also shown that dilational modulus of the two demulsifiers approaches a maximum value near the critical micelle concentration.
在中间频率范围内,扩张模量随破乳剂浓度增大,在接近临界胶束浓度处出现一个极大值;
70. The sequence of water solubility enhancements at surfactant concentrations above the critical micelle concentration (CMC) is TritonX100 > Brij 35 > TritonX305, negatively correlates to the hydrophile lipophile balance (HLB) of surfactant.
在临界胶束浓度 (CMC)以上 ,单一表面活性剂对多环芳烃的增溶作用顺序为TritonX10 0 >Brij35 >TritonX30 5 ,与其亲水亲油平衡值 (HLB)呈负相关 ;
71. In this study they attempted to predict the critical micelle concentration (CMC).
在研究中,他们尝试着预测临界胶态粒子浓度(CMC)。
72. In reverse micelle CTAB/butanol/isooctane/H2O,CRL displays rath...
在离子液体1-丁基-3-甲基咪唑六氟磷酸盐中,CRL的对映选择率很低。
73. Keywords MePEG-Chol;MePEG-St;Mixed micelle;Drug delivery;Biomimetic;
复合胶束;仿脂质体;药物控释;胶束表征;生物仿生;
74. Keywords multifunctional polymeric micelle;drug carriers;targeting ability;
多功能聚合物胶束;药物载体;靶向性;
75. It can reduce surface tension of water to 26 mN/m, and its critical micelle concentration (CMC) was 0.025 mg/mL.
它能使水的表面张力降低到26mN/m,其临界胶束浓度为0.025mg/mL。
76. Firstly, three reversed micelle of different sizes of titania particles were prepared by using tetrabutyl titanate, water and cyclohexane, and Span-80 as a surfactant, iso-pentanol as an accessory surfactant.
实验以钛酸丁脂、水、环己烷、异戊醇及表面活性剂Span-80等为原料,通过控制水量制得三种粒径分布的氧化钛反胶团微乳液。
77. Results show that 5 critical micelle concentration (CMC) LAS enhanced the transport of PAHs.
实验结果表明 ,5CMC(临界胶束浓度 )LAS促进了土柱中PAHs的迁移渗透 .
78. The result showed that solubilization of phenol in coacervate phase was related to the structure of surfactant micelle.
实验表明:溶质在凝聚层相的增溶与表面活性剂形成胶束的结构有关。
79. The values of critical micelle concentration (CMC) decrease and the micelle ionization degree (a) increase when the the number of carbon (S) of the spacer increase for C12CsC12Br2 sieries Gemini surfactants.
对于Gemini表面活性剂C_(12)C_sC_(12)Br_2来说,随着联接基团spacer碳原子个数的增加,临界胶束浓度(CMC)变小,胶束离子化度增大。
80. As for the DgP with high concentration (10mg/ml), the particle size of formed micelle decreased to form the collapsed micelle along with the increase of the temperature to and higher than the LCST.
对于高浓度的DgP而言(10mg/ml),当溶液温度超过LCST继续上升时,形成尺寸收缩的坍塌的胶束,其原因可能是由于升温所导致的Dextran分子链运动加剧。
