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十七酸甲酯

17篇引用文献
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货号 (SKU) 包装规格 是否现货 价格 数量
M106481-100mg
 100mg 现货 Stock Image
M106481-1g
 1g 现货 Stock Image
大包装询价 添加到收藏夹 比较  SDS中文版  DATASHEET
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基本描述

别名 十七烷酸甲酯
英文别名 METHYL HEPTADECANOATE | Margaric acid methyl ester | HY-W004290 | n-Heptadecanoic acid methyl ester | H10839 | Q24735110 | AS-49344 | NSC97364 | NSC-97364 | Methyl heptadecanoate, analytical standard | Heptadecanoic Acid Methyl Ester,(S) | Methyl margarat
规格或纯度 分析标准品
英文名称 Methyl heptadecanoate
运输条件 常规运输

AI解读

名称和识别符

EC号 217-055-3
IUPAC Name methyl heptadecanoate
INCHI InChI=1S/C18H36O2/c1-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17-18(19)20-2/h3-17H2,1-2H3
InChi Key HUEBIMLTDXKIPR-UHFFFAOYSA-N
Canonical SMILES CCCCCCCCCCCCCCCCC(=O)OC
Isomeric SMILES CCCCCCCCCCCCCCCCC(=O)OC
WGK Germany 3
PubChem CID 15609
分子量 284.48
Beilstein号 1782681
Reaxy-Rn 1782681

化学和物理性质

密度 0.864
凝固点 28 °C
闪点(℉) >110 °C
闪点(℃) >110°C
沸点 152-153°C
熔点 29.8-30.3°C
分子量 284.500 g/mol
XLogP3 8.500
氢键供体数Hydrogen Bond Donor Count 0
氢键受体数Hydrogen Bond Acceptor Count 2
可旋转键计数Rotatable Bond Count 16
精确质量Exact Mass 284.272 Da
单同位素质量Monoisotopic Mass 284.272 Da
拓扑极表面积Topological Polar Surface Area 26.300 Ų
重原子数Heavy Atom Count 20
形式电荷Formal Charge 0
复杂度Complexity 202.000
同位素原子数Isotope Atom Count 0
定义的原子立体中心计数Defined Atom Stereocenter Count 0
未定义的原子立体中心计数Undefined Atom Stereocenter Count 0
定义的键立体中心计数Defined Bond Stereocenter Count 0
未定义的键立体中心计数Undefined Bond Stereocenter Count 0
所有立体化学键的总数The total count of all stereochemical bonds 0
共价键合单元计数Covalently-Bonded Unit Count 1

安全和危险性(GHS)

WGK Germany 3
Reaxy-Rn 1782681
个人防护装备 Eyeshields,Gloves,type N95 (US),type P1 (EN143) respirator filter

质检证书(CoA,COO,BSE/TSE 和分析图谱)

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找到10个结果

批号(Lot Number) 证书类型 日期 货号
L2409474 分析证书 24-12-13 M106481
L2409475 分析证书 24-12-13 M106481
L2409476 分析证书 24-12-13 M106481
L2409478 分析证书 24-12-13 M106481
B2401063 分析证书 24-02-22 M106481
A2403083 分析证书 24-01-31 M106481
A2003044 分析证书 23-07-13 M106481
I2118369 分析证书 23-06-15 M106481
B2225392 分析证书 22-03-04 M106481
B2225398 分析证书 22-03-04 M106481

此产品的引用文献

如何在您的发表作品中引用阿拉丁的产品和网站?
1. Yingyang Zhang,Xianchao Feng,Haizhou Wu,Jing Tang,Jianhao Zhang.  (2014-09-13)  Effects of NaCl concentration and potassium chloride substitutions on the thermal properties and lipid oxidation of dry-cured pork..  Journal of food science,  79  ((9)): (E1695-E1703).  [PMID:25212268]
2. Zhigang Li, Yinglin Fang, Jiawei Yang, Huayong Chen, Bo Yang, Yonghua Wang.  (2023)  A green and efficient two-step enzymatic esterification-hydrolysis method for enrichment of c9,t11-CLA isomer based on a three-liquid-phase system.  RSC Advances,  13  (38): (26690-26699).  [PMID:37681044] [10.1039/D3RA02054A]
3. Long Chen, Lijuan He, Baohong Zheng, Gang Wei, Hu Li, Heng Zhang, Song Yang.  (2023)  Bifunctional acid-activated montmorillonite catalyzed biodiesel production from non-food oil: Characterization, optimization, kinetic and thermodynamic studies.  FUEL PROCESSING TECHNOLOGY,  250  (107903).  [10.1016/j.fuproc.2023.107903]
4. Yuan Xue, JinXia Wang, Hong Yuan, Hui Li.  (2023)  Sulfonic acid-type hydrothermal carbon microspheres as stable, efficient catalysts for transesterification reactions.  DIAMOND AND RELATED MATERIALS,  137  (110094).  [10.1016/j.diamond.2023.110094]
5. Wenlu Zhang, Chunrong Wang, Beining Luo, Peihang He, Lei Zhang, Guoqiang Wu.  (2022)  Efficient and economic transesterification of waste cooking soybean oil to biodiesel catalyzed by outer surface of ZSM-22 supported different Mo catalyst.  BIOMASS & BIOENERGY,  167  (106646).  [10.1016/j.biombioe.2022.106646]
6. Wenlu Zhang, Chunrong Wang, Beining Luo, Peihang He, Liang Li, Guoqiang Wu.  (2023)  Biodiesel production by transesterification of waste cooking oil in the presence of graphitic carbon nitride supported molybdenum catalyst.  FUEL,  332  (126309).  [10.1016/j.fuel.2022.126309]
7. Yuan Xue, Xueling Zhao, Hong Yuan, Hui Li.  (2022)  Oxidation reaction mechanism of hydrothermal carbon microspheres with applications to transesterification after sulfonation.  JOURNAL OF CHEMICAL TECHNOLOGY AND BIOTECHNOLOGY,  98  (1): (66-76).  [10.1002/jctb.7225]
8. Yi-Tong Wang, Xiao-Man Wang, Di Gao, Fu-Ping Wang, Ya-Nan Zeng, Jun-Guo Li, Li-Qun Jiang, Qing Yu, Rui Ji, Le-Le Kang, Ya-Jun Wang, Zhen Fang.  (2022)  Efficient production of biodiesel at low temperature using highly active bifunctional Na-Fe-Ca nanocatalyst from blast furnace waste.  FUEL,  322  (124168).  [10.1016/j.fuel.2022.124168]
9. Xiao-Man Wang, Ya-Nan Zeng, Li-Qun Jiang, Yi-Tong Wang, Jun-Guo Li, Le-Le Kang, Rui Ji, Di Gao, Fu-Ping Wang, Qing Yu, Ya-Jun Wang, Ai-Min Ji, Zhen Fang.  (2022)  Highly stable NaFeO2-Fe3O4 composite catalyst from blast furnace dust for efficient production of biodiesel at low temperature.  INDUSTRIAL CROPS AND PRODUCTS,  182  (114937).  [10.1016/j.indcrop.2022.114937]
10. Yunwei Lin, Wenting Yin, Yujie Li, Guoqin Liu.  (2022)  Influence of different solid lipids on the properties of a novel nanostructured lipid carrier containing Antarctic krill oil.  INTERNATIONAL JOURNAL OF FOOD SCIENCE AND TECHNOLOGY,  57  (5): (2886-2895).  [10.1111/ijfs.15588]
11. Yi-Tong Wang, Di Gao, Jie Yang, Ya-Nan Zeng, Jun-Guo Li, Ya-Jun Wang, Xiao-Man Wang, Fu-Ping Wang, Qing Yu, Tian-Ji Liu, Shuang Cai, Zhen Fang.  (2022)  Highly stable heterogeneous catalysts from electric furnace dust for biodiesel production: Optimization, performance and reaction kinetics.  CATALYSIS TODAY,  404  (78).  [10.1016/j.cattod.2021.12.013]
12. Yi-Tong Wang, Di Gao, Ya-Nan Zeng, Jun-Guo Li, Ai-Min Ji, Tian-Ji Liu, Shuang Cai, Wen-Jie Cong, Fu-Ping Wang, Qing Yu, Xiao-Man Wang, Zhen Fang.  (2022)  Efficient production of biodiesel with electric furnace dust impregnated in Na2CO3 solution.  Journal of Cleaner Production,  330  (129772).  [10.1016/j.jclepro.2021.129772]
13. Dongming Li, Wenping Feng, Chao Chen, Shangxing Chen, Guorong Fan, Shengliang Liao, Guoqiang Wu, Zongde Wang.  (2021)  Transesterification of Litsea cubeba kernel oil to biodiesel over zinc supported on zirconia heterogeneous catalysts.  RENEWABLE ENERGY,  177  (13).  [10.1016/j.renene.2021.05.129]
14. Yunwei Lin, Wenting Yin, Guoqin Liu.  (2020)  Development and characterisation of a novel krill oil nanostructured lipid carrier based on 1,3-glycerol distearate.  INTERNATIONAL JOURNAL OF FOOD SCIENCE AND TECHNOLOGY,  55  (11): (3493-3502).  [10.1111/ijfs.14683]
15. Chen Shen, Xiqing Wang, Yawei Zhu, Jiao Jiao, Sansan Bao, Ping Kou, Hongyi Pan, Yanyan Li, Yujie Fu.  (2020)  A green one-pot method for simultaneous extraction and transesterification of seed oil catalyzed by a p-toluenesulfonic acid based deep eutectic solvent.  INDUSTRIAL CROPS AND PRODUCTS,  152  (112517).  [10.1016/j.indcrop.2020.112517]
16. Chao Chen, Lei Cai, Xinchen Shangguan, Liang Li, Yanping Hong, Guoqiang Wu.  (2018)  Heterogeneous and efficient transesterification of Jatropha curcas L. seed oil to produce biodiesel catalysed by nano-sized SO42−/TiO2.  Royal Society Open Science,  (11): [PMID:30564419] [10.1098/rsos.181331]
17. Qiang Xia, Liping Wang, Wenjuan Yu, Yunfei Li.  (2017)  Investigating the influence of selected texture-improved pretreatment techniques on storage stability of wholegrain brown rice: Involvement of processing-induced mineral changes with lipid degradation.  FOOD RESEARCH INTERNATIONAL,  99  (510).  [PMID:28784512] [10.1016/j.foodres.2017.06.020]

参考文献

1. Yuki Kitahara,Tie Yin,Xuebing Zhao,Masaaki Wachi,Wei Du,Dehua Liu.  (2014-07-19)  Isolation of oleaginous yeast (Rhodosporidium toruloides) mutants tolerant of sugarcane bagasse hydrolysate..  Bioscience, biotechnology, and biochemistry,  78  ((2)): (336-342).  [PMID:25036690]
2. Giorgia Purcaro,Laura Barp,Marco Beccaria,Lanfranco S Conte.  (2014-09-12)  Fingerprinting of vegetable oil minor components by multidimensional comprehensive gas chromatography with dual detection..  Analytical and bioanalytical chemistry,  407  ((1)): (309-319).  [PMID:25209809]
3. Yingyang Zhang,Xianchao Feng,Haizhou Wu,Jing Tang,Jianhao Zhang.  (2014-09-13)  Effects of NaCl concentration and potassium chloride substitutions on the thermal properties and lipid oxidation of dry-cured pork..  Journal of food science,  79  ((9)): (E1695-E1703).  [PMID:25212268]
4. Oier Aizpurua-Olaizola,Markel Ormazabal,Asier Vallejo,Maitane Olivares,Patricia Navarro,Nestor Etxebarria,Aresatz Usobiaga.  (2014-12-05)  Optimization of supercritical fluid consecutive extractions of fatty acids and polyphenols from Vitis vinifera grape wastes..  Journal of food science,  80  ((1)): (E101-E107).  [PMID:25471637]
5. Simona Tarricone,Maria Antonietta Colonna,Carlo Cosentino,Francesco Giannico,Marco Ragni.  (2020-06-04)  Meat quality and lipid fatty acid profile from wild thrush (Turdus philomelos), woodcock (Scolopax rusticola) and starling (Sturnus vulgaris): a preliminary comparative study..  Lipids in health and disease,  19  ((1)): (119-119).  [PMID:32487110]
6. Faxiang Xu,Chengcheng Song,Weiwei Liu,Guokai Chen.  (2021-09-02)  Protocol for intracellular and extracellular metabolite detection in human embryonic stem cells..  STAR protocols,  ((3)): (100740-100740).  [PMID:34467226]
7. Rosa Palagano,Enrico Valli,Matilde Tura,Chiara Cevoli,María Del Carmen Pérez-Camino,Wenceslao Moreda,Alessandra Bendini,Tullia Gallina Toschi.  (2020-07-18)  Fatty Acid Ethyl Esters in Virgin Olive Oils: In-House Validation of a Revised Method..  Foods (Basel, Switzerland),  ((7)): [PMID:32674289]
8. Zhigang Li, Yinglin Fang, Jiawei Yang, Huayong Chen, Bo Yang, Yonghua Wang.  (2023)  A green and efficient two-step enzymatic esterification-hydrolysis method for enrichment of c9,t11-CLA isomer based on a three-liquid-phase system.  RSC Advances,  13  (38): (26690-26699).  [PMID:37681044] [10.1039/D3RA02054A]
9. Long Chen, Lijuan He, Baohong Zheng, Gang Wei, Hu Li, Heng Zhang, Song Yang.  (2023)  Bifunctional acid-activated montmorillonite catalyzed biodiesel production from non-food oil: Characterization, optimization, kinetic and thermodynamic studies.  FUEL PROCESSING TECHNOLOGY,  250  (107903).  [10.1016/j.fuproc.2023.107903]
10. Yuan Xue, JinXia Wang, Hong Yuan, Hui Li.  (2023)  Sulfonic acid-type hydrothermal carbon microspheres as stable, efficient catalysts for transesterification reactions.  DIAMOND AND RELATED MATERIALS,  137  (110094).  [10.1016/j.diamond.2023.110094]
11. Wenlu Zhang, Chunrong Wang, Beining Luo, Peihang He, Lei Zhang, Guoqiang Wu.  (2022)  Efficient and economic transesterification of waste cooking soybean oil to biodiesel catalyzed by outer surface of ZSM-22 supported different Mo catalyst.  BIOMASS & BIOENERGY,  167  (106646).  [10.1016/j.biombioe.2022.106646]
12. Wenlu Zhang, Chunrong Wang, Beining Luo, Peihang He, Liang Li, Guoqiang Wu.  (2023)  Biodiesel production by transesterification of waste cooking oil in the presence of graphitic carbon nitride supported molybdenum catalyst.  FUEL,  332  (126309).  [10.1016/j.fuel.2022.126309]
13. Yuan Xue, Xueling Zhao, Hong Yuan, Hui Li.  (2022)  Oxidation reaction mechanism of hydrothermal carbon microspheres with applications to transesterification after sulfonation.  JOURNAL OF CHEMICAL TECHNOLOGY AND BIOTECHNOLOGY,  98  (1): (66-76).  [10.1002/jctb.7225]
14. Yi-Tong Wang, Xiao-Man Wang, Di Gao, Fu-Ping Wang, Ya-Nan Zeng, Jun-Guo Li, Li-Qun Jiang, Qing Yu, Rui Ji, Le-Le Kang, Ya-Jun Wang, Zhen Fang.  (2022)  Efficient production of biodiesel at low temperature using highly active bifunctional Na-Fe-Ca nanocatalyst from blast furnace waste.  FUEL,  322  (124168).  [10.1016/j.fuel.2022.124168]
15. Xiao-Man Wang, Ya-Nan Zeng, Li-Qun Jiang, Yi-Tong Wang, Jun-Guo Li, Le-Le Kang, Rui Ji, Di Gao, Fu-Ping Wang, Qing Yu, Ya-Jun Wang, Ai-Min Ji, Zhen Fang.  (2022)  Highly stable NaFeO2-Fe3O4 composite catalyst from blast furnace dust for efficient production of biodiesel at low temperature.  INDUSTRIAL CROPS AND PRODUCTS,  182  (114937).  [10.1016/j.indcrop.2022.114937]
16. Yunwei Lin, Wenting Yin, Yujie Li, Guoqin Liu.  (2022)  Influence of different solid lipids on the properties of a novel nanostructured lipid carrier containing Antarctic krill oil.  INTERNATIONAL JOURNAL OF FOOD SCIENCE AND TECHNOLOGY,  57  (5): (2886-2895).  [10.1111/ijfs.15588]
17. Yi-Tong Wang, Di Gao, Jie Yang, Ya-Nan Zeng, Jun-Guo Li, Ya-Jun Wang, Xiao-Man Wang, Fu-Ping Wang, Qing Yu, Tian-Ji Liu, Shuang Cai, Zhen Fang.  (2022)  Highly stable heterogeneous catalysts from electric furnace dust for biodiesel production: Optimization, performance and reaction kinetics.  CATALYSIS TODAY,  404  (78).  [10.1016/j.cattod.2021.12.013]
18. Yi-Tong Wang, Di Gao, Ya-Nan Zeng, Jun-Guo Li, Ai-Min Ji, Tian-Ji Liu, Shuang Cai, Wen-Jie Cong, Fu-Ping Wang, Qing Yu, Xiao-Man Wang, Zhen Fang.  (2022)  Efficient production of biodiesel with electric furnace dust impregnated in Na2CO3 solution.  Journal of Cleaner Production,  330  (129772).  [10.1016/j.jclepro.2021.129772]
19. Dongming Li, Wenping Feng, Chao Chen, Shangxing Chen, Guorong Fan, Shengliang Liao, Guoqiang Wu, Zongde Wang.  (2021)  Transesterification of Litsea cubeba kernel oil to biodiesel over zinc supported on zirconia heterogeneous catalysts.  RENEWABLE ENERGY,  177  (13).  [10.1016/j.renene.2021.05.129]
20. Yunwei Lin, Wenting Yin, Guoqin Liu.  (2020)  Development and characterisation of a novel krill oil nanostructured lipid carrier based on 1,3-glycerol distearate.  INTERNATIONAL JOURNAL OF FOOD SCIENCE AND TECHNOLOGY,  55  (11): (3493-3502).  [10.1111/ijfs.14683]
21. Chen Shen, Xiqing Wang, Yawei Zhu, Jiao Jiao, Sansan Bao, Ping Kou, Hongyi Pan, Yanyan Li, Yujie Fu.  (2020)  A green one-pot method for simultaneous extraction and transesterification of seed oil catalyzed by a p-toluenesulfonic acid based deep eutectic solvent.  INDUSTRIAL CROPS AND PRODUCTS,  152  (112517).  [10.1016/j.indcrop.2020.112517]
22. Chao Chen, Lei Cai, Xinchen Shangguan, Liang Li, Yanping Hong, Guoqiang Wu.  (2018)  Heterogeneous and efficient transesterification of Jatropha curcas L. seed oil to produce biodiesel catalysed by nano-sized SO42−/TiO2.  Royal Society Open Science,  (11): [PMID:30564419] [10.1098/rsos.181331]
23. Qiang Xia, Liping Wang, Wenjuan Yu, Yunfei Li.  (2017)  Investigating the influence of selected texture-improved pretreatment techniques on storage stability of wholegrain brown rice: Involvement of processing-induced mineral changes with lipid degradation.  FOOD RESEARCH INTERNATIONAL,  99  (510).  [PMID:28784512] [10.1016/j.foodres.2017.06.020]

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