十六醇

AA-MA的合成首先用丙烯酸和十六醇进行酯化反应。

First , the synthesis of AA-MA and cetyl alcohol with acrylic acid esterification .

以十二烷基苯磺酸（DBSA）为乳化剂，十六醇（CA）为助乳化剂，盐酸和十二烷基苯磺酸（DBSA）为掺杂剂，过硫酸铵为引发剂，采用乳液聚合法合成了导电聚苯胺（PAn）。

The transmiting electric polyaniline was synthesized by emulsion polymerization which was carried out by using dodecylbenzene sulfonic acid as emulsifier , hexadecanol as cosurfactant , hydrochloric acid and dodecylbenzene sulfonic acid as doping agent , ammonium persulfate as initiator .

以维生素C为催化剂，对羟基苯甲酸和十六醇及十八醇为原料合成尼泊金十六酯与尼泊金十八酯。

Nipagin esters were synthesized by the esterification of dodecyl and octadecyl alcohol with p-hydroxybenzoic acid in the presence of vitamin C.

目的制备3-{4-[2-羟基（1-甲基乙胺基）丙氧基]辛基}丙酸十六醇酯（PAC）膜修饰脂质体，并对其体外心肌细胞靶向性进行研究。

Objective To prepare the liposomes surface-modified with 3 - { 4 - [ 2-hydroxyl - ( 1-methyl ethylamino ) propoxy ] phenyl } propionic acid cetylester ( PAC ) and investigate the cardiomyocyte targeting in vitro .

本文主要以丙烯酸、十六醇和马来酸酐为主要原料，通过酯化、共聚反应合成AA-MA高分子防蜡剂，并测定高分子防蜡剂的防蜡性能。

In this study , acrylic acid , maleic anhydride sixteen alcohol as the main raw material , through esterification , synthesis of AA-MA copolymerization polymer paraffin Inhibitor , and determination of anti-polymer wax paraffin inhibitor performance .

十六醇和硬脂酸的膜压滞后环

Research on Surface Pressure 's Hysteresis Circle of hexadecanol and Stearic acid

十六醇磷酸酯合成工艺研究

Study of synthesis of cetyl phosphoric acid ester

溴甲酚绿碱土金属离子十六醇热变色复配物制备及热变色性

Preparation of Thermochromic Composite Material BCG - Alkali Earth Metal Ions - Hexadecanol and Thermochromism

用正交试验法对十六醇琥珀酸单酯磺酸钠（MS16）的合成条件进行了研究。

The synthetic method of sodium hexadecanol mono succinate sodium sulfonate were studied by orthogonal experiments .

以苯酐与十六醇为原料，选用非酸催化剂，在实验室合成了增塑剂邻苯二甲酸双十六烷基酯。

Cetyl phthalate was prepared from phthalic anhydride and cetyl alcohol as raw materials catalyzed by non-acid catalyst .

合成了甲酚红碱土金属离子十六醇体系可逆热变色复配物。

The reversible thermochromic composite materials were synthesized by cresol red , alkali earth metal ions and hexadecanol .

乳剂的配方为凡土林、羊毛脂、十六醇、液体石蜡、吐温-80和水；

The formula of emulsion was Petrolatum , Lanolin , Cetyl-alcohol , Liquid - paraffin , Tween-80 and H2O .

最后得到了合成具有最佳防蜡性能的丙烯酸十六醇酯-马来酸酐高分子聚合物的工艺条件。

End up with the best anti-synthetic wax cetyl alcohol performance acrylic ester-maleic anhydride polymer of the process conditions .

相变储能材料十六醇-癸酸二元体系相变温度的测定

Determination of Binary System Hexadecanol-capric Acid Phase Change Temperature as a Phase Change Material ( PCM ) for Energy Storage

研究了深黄被孢霉催化转化十六醇合成不饱和脂肪酸过程中反应条件对底物转化率及产物选择性的影响。

The effects of reaction conditions on catalytic performance of Mortierella isabellina in the process of converting hexadecanol to unsaturated fatty acids were investigated .

该回归方程在自变量的回归范围内适用于丙烯酸与十二醇、十四醇、十六醇酯化转化率的预测和控制上。

It is possible to predict and controll the conversion rate of esterifications such as acrylic acid with dodecanol , tetradecanol and hexadecanol by this equation .

利用正交设计法研究由丙烯酸和十六醇为原料，对甲苯磺酸为催化剂，采用微波加热法合成丙烯酸十六酯。

The orthogonal design was utilized to study the hexadecyl acrylate synthesis by microwave irradiation using acrylic acid and hexadecyl alcohol as raw materials and toluene-p-sulfonic acid as catalyst .

探讨了微波功率、辐射时间、丙烯酸与十六醇摩尔比及催化剂用量等因素对酯化产率的影响；

The effects of the microwave power , the irradiation time , the molar ratio of acrylic acid to hexadecyl alcohol and the catalyst dosage on the yield were then investigated .

十六醇浓度为05%时，油脂的选择性、产率及醇的转化率最高，亚油酸和亚麻酸的选择性也最高。

The conversion of hexadecanol and selectivity for lipids , linoleic acid , and linolenic acid reach their maximum values , respectively , with the hexadecanol concentration of 0 5 % .

乳化剂的用量为2%，加入0.5%的助乳化剂十六醇和0.1%的增稠剂可明显提高水乳剂的稳定性。

It was also found that 2 % emulsifier in the EW was suitable . The stability of the emulsion was remarkably increased with the addition of 0.1 % thickener and 0.5 % of co-emulsifier hexadecanol .

建立了毛细管GC法测定药用辅料十六十八醇的含量。

A capillary GC method was established for determination of cetyl alcohol and stearyl alcohol in cetostearyl alcohol .

以硬脂酸蔗糖酯和失水山梨醇硬脂酸酯的复配物（SSE）为主乳化剂，十六/十八醇及甘油为助乳化剂制备含液晶乳液化妆品。

Cosmetic emulsions containing liquid crystal were prepared by using the mixture of sucrose stearate and Span as a primary emulsifier ( SSE ) while C 16-18 fatty alcohol and glycerol as co-emulsifiers .

考察了产物在采出水中的防腐性能并与其他缓蚀剂进行了对比，选出了最优缓蚀剂为十六酸烷醇酰胺磷酸酯钠盐。

Examining the corrosion resistance of the product in the mineralized water and compared with other corrosion inhibitors to select optimal corrosion inhibitor ( Phosphate sodium salt of palmitic acid alkanolamide ) .

利用模板法合成1种新的含醇羟基西佛碱型大环冠醚L（7,11-二氮杂-3,15-二氧杂-4,5；8,10；13,14-三苯并环十六-6,11-二烯-1-醇）的铜、锌配合物。

Copper and zinc complexes with macrocyclic Schiff base containing alcohol hydroxyl were synthesized by reaction of 1,3 bis ( 2 formylphenoxy ) 2 propanol with m phenylenediamine by template method .