Dodecanoic acid, butyl ester
- Name Dodecanoic acid, butyl ester
- CAS 106-18-3
- Purity 99%
Product Details
Chinese Manufacturer Supply Dodecanoic acid, butyl ester 106-18-3 On Stock with Competitive Price
- Molecular Formula: C16H32O2
- Molecular Weight: 256.429
- Vapor Pressure: 0.000817mmHg at 25°C
- Melting Point: -10 °C(lit.)
- Refractive Index: n20/D 1.435(lit.)
- Boiling Point: 305.524 °C at 760 mmHg
- Flash Point: 139.769 °C
- PSA: 26.30000
- Density: 0.866 g/cm3
- LogP: 5.25060
Dodecanoic acid, butyl ester(Cas 106-18-3) Usage
|
Preparation |
By esterification of lauric acid with n-butyl alcohol in the presence of H2SO4 or by conducting the esterification using gaseous HCl as a catalyst. |
InChI:InChI=1/C16H32O2/c1-3-5-7-8-9-10-11-12-13-14-16(17)18-15-6-4-2/h3-15H2,1-2H3
106-18-3 Relevant articles
Effect of polyvinylpyrrolidone on mesoporous silica morphology and esterification of lauric acid with 1-butanol catalyzed by immobilized enzyme
Zhang, Jinyu,Zhou, Guowei,Jiang, Bin,Zhao, Minnan,Zhang, Yan
, p. 210 - 217 (2014)
Mesoporous silica materials with a range...
Solvent-free biocatalytic interesterification of acrylate derivatives
Yara-Varón, Edinson,Eras Joli, Jordi,Torres, Mercè,Sala, Nuria,Villorbina, Gemma,Méndez, Jonh Jairo,Canela-Garayoa, Ramon
, p. 86 - 90 (2012)
The ability of diverse commercial lipase...
Effect of Ionic Liquids on the Chemical Equilibrium of Esterification of Carboxylic Acids with Alcohols
Jiang, Tao,Chang, Yanhong,Zhao, Guoying,Han, Buxing,Yang, Guanying
, p. 225 - 230 (2004)
The esterification of carboxylic acids w...
Performance in synthetic applications of a yeast surface display-based biocatalyst
Eby,Peretti
, p. 30425 - 30432 (2015)
This work demonstrates the effectiveness...
An improved greener esterification of fatty alcohols using a renewable acid-ionic liquid couple as catalyst-solvent
Nguyen, Hoang-Phuong,Znifeche, Samira,Baboulene, Michel
, p. 2085 - 2093 (2004)
We have developed a simple and efficient...
A novel poly(p-styrenesulfonic acid) grafted carbon nanotube/graphene oxide architecture with enhanced catalytic performance for the synthesis of benzoate esters and fatty acid alkyl esters
Bian, Gang,Jiang, Pingping,Zhang, Weijie,Jiang, Kelei,Hu, Ling,Jian, Zhang,Shen, Yirui,Zhang, Pingbo
, p. 90757 - 90765 (2015)
Considering the issue of low yield in th...
Evaluation of deep eutectic solvents as new media for Candida antarctica B lipase catalyzed reactions
Durand,Lecomte,Baréa,Piombo,Dubreucq,Villeneuve
, p. 2081 - 2089 (2012)
This study aimed at analyzing the advant...
Novel SO3H-functionalized polyoxometalate-based ionic liquids as highly efficient catalysts for esterification reaction
Keshavarz, Mosadegh,Iravani, Nasir,Parhami, Abolfath
, p. 272 - 278 (2019)
Three novel heteropolyanion-based Br?nst...
A novel Bronsted acidic heteropolyanion-based polymeric hybrid catalyst for esterification
Leng, Yan,Jiang, Pingping,Wang, Jun
, p. 41 - 44 (2012)
A new SO3H-functionalized HPA-based acid...
Robust acidic pseudo-ionic liquid catalyst with self-separation ability for esterification and acetalization
Shi, Yingxia,Liang, Xuezheng
, p. 1413 - 1421 (2019)
The novel acidic pseudo-ionic liquid cat...
Tunable aryl imidazolium ionic liquids (TAIILs) as environmentally benign catalysts for the esterification of fatty acids to biodiesel fuel
Ho, Wen-Yueh,Lin, Wesley,Lin, Yi-Jyun,Luo, Shun-Yuan,Pantawane, Amit,Su, Po-Fang,Thul, Mayur,Tseng, Shao-An,Wu, Hsin-Ru
, (2020/12/02)
Herein, we describe the synthesis of tun...
Sulfonic acid modified hollow polymer nanospheres with tunable wall-thickness for improving biodiesel synthesis efficiency
Kim, Il,Kim, Ji Su,Song, Wenliang,Varyambath, Anuraj,Zhang, Yu
, p. 3572 - 3583 (2020/08/28)
Precisely designing the morphology and s...
Development and Validation of a Novel Free Fatty Acid Butyl Ester Gas Chromatography Method for the Determination of Free Fatty Acids in Dairy Products
Mannion, David T.,Furey, Ambrose,Kilcawley, Kieran N.
, p. 499 - 506 (2019/01/08)
Accurate quantification of free fatty ac...
106-18-3 Process route
-
-
112-41-4,25067-08-7,62132-67-6
1-dodecene
-
-
1120-36-1
1-tetradecene
-
-
872-05-9,17438-89-0,25189-70-2
1-Decene
-
-
821-95-4
1-undecene
-
-
2437-56-1
1-tridecene
-
-
13360-61-7
1-pentadecene
-
-
201230-82-2
carbon monoxide
-
-
71-36-3
butan-1-ol
-
-
10580-24-2
butyl undecanoate
-
-
106-18-3
butyl laurate
-
-
28267-31-4
n-butyl tridecanoate
-
-
110-36-1
n-butyl myristate
-
-
111-06-8
butyl palmitate
-
-
35996-97-5
Butyl pentadecanoate
| Conditions | Yield |
|---|---|
|
With
pyridine;
dicobalt octacarbonyl;
at 160 ℃;
for 24h;
under 60006 - 75007.5 Torr;
Conversion of starting material;
|
-
-
2146-71-6
vinyl laurate
-
-
71-36-3
butan-1-ol
-
-
106-18-3
butyl laurate
| Conditions | Yield |
|---|---|
|
With
carbon dioxide;
at 46.02 ℃;
for 3.5h;
under 66081.6 Torr;
Reagent/catalyst;
High pressure;
Supercritical conditions;
Green chemistry;
|
98%
|
|
With
immobilized Candida antarctica lipase B;
In
toluene;
at 60 ℃;
for 16h;
Solvent;
Green chemistry;
Enzymatic reaction;
|
106-18-3 Upstream products
-
143-07-7
lauric acid
-
71-36-3
butan-1-ol
-
112-41-4
1-dodecene
-
1120-36-1
1-tetradecene
106-18-3 Downstream products
-
102456-10-0
lauric acid-(2,4-dimethyl-benzyl ester)
-
112-53-8
1-dodecyl alcohol
-
112-42-5
undecyl alcohol
-
629-76-5
pentadecanol
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