Cas no 1137665-94-1 (5-(Triethoxysilyl)pentanoic acid, tech)
5-(Triethoxysilyl)pentanoic acid, tech Chemical and Physical Properties
Names and Identifiers
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- 5-(Triethoxysilyl)pentanoic acid, tech
- Pentanoic acid, 5-(triethoxysilyl)-
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- Inchi: 1S/C11H24O5Si/c1-4-14-17(15-5-2,16-6-3)10-8-7-9-11(12)13/h4-10H2,1-3H3,(H,12,13)
- InChI Key: JECXEVVJRHQJHK-UHFFFAOYSA-N
- SMILES: C(O)(=O)CCCC[Si](OCC)(OCC)OCC
5-(Triethoxysilyl)pentanoic acid, tech Pricemore >>
| Related Categories | No. | Product Name | Cas No. | Purity | Specification | Price | update time | Inquiry |
|---|---|---|---|---|---|---|---|---|
| Apollo Scientific | OR52572-100mg |
5-(Triethoxysilyl)pentanoic acid |
1137665-94-1 | tech | 100mg |
£86.00 | 2025-02-19 | |
| Apollo Scientific | OR52572-250mg |
5-(Triethoxysilyl)pentanoic acid |
1137665-94-1 | tech | 250mg |
£167.00 | 2025-02-19 | |
| Apollo Scientific | OR52572-1g |
5-(Triethoxysilyl)pentanoic acid |
1137665-94-1 | tech | 1g |
£429.00 | 2025-02-19 | |
| abcr | AB391080-100mg |
5-Triethoxysilylpentanoic acid, tech.; . |
1137665-94-1 | 100mg |
€192.70 | 2025-02-18 | ||
| abcr | AB391080-250mg |
5-Triethoxysilylpentanoic acid, tech.; . |
1137665-94-1 | 250mg |
€336.60 | 2025-02-18 | ||
| abcr | AB391080-1g |
5-Triethoxysilylpentanoic acid, tech.; . |
1137665-94-1 | 1g |
€802.00 | 2025-02-18 |
5-(Triethoxysilyl)pentanoic acid, tech Related Literature
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Bo Wei,Zhenyu Liu,Chen Xie,Shu Yang,Wentao Tang,Aiwei Gu,Wing-Tak Wong,Ka-Leung Wong J. Mater. Chem. C, 2015,3, 12322-12327
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Yaling Zhang,Chunhui Dai,Shiwei Zhou,Bin Liu Chem. Commun., 2018,54, 10092-10095
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Yong Ping Huang,Tao Tao,Zheng Chen,Wei Han,Ying Wu,Chunjiang Kuang,Shaoxiong Zhou,Ying Chen J. Mater. Chem. A, 2014,2, 18831-18837
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Erika A. Cobar,Paul R. Horn,Robert G. Bergman,Martin Head-Gordon Phys. Chem. Chem. Phys., 2012,14, 15328-15339
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Gang Pan,Yi-jie Bao,Jie Xu,Tao Liu,Cheng Liu,Yan-yan Qiu,Xiao-jing Shi,Hui Yu,Ting-ting Jia,Xia Yuan,Ze-ting Yuan,Yi-jun Cao RSC Adv., 2016,6, 42109-42119
Additional information on 5-(Triethoxysilyl)pentanoic acid, tech
Introduction to 5-(Triethoxysilyl)pentanoic acid, tech (CAS No. 1137665-94-1)
5-(Triethoxysilyl)pentanoic acid, tech, identified by its Chemical Abstracts Service (CAS) number 1137665-94-1, is a specialized organosilicon compound that has garnered significant attention in the field of chemical and pharmaceutical research. This compound serves as a versatile intermediate in organic synthesis, particularly in the development of advanced materials and bioactive molecules. Its unique structural features, combining a pentanoic acid moiety with a triethoxysilyl group, make it a valuable building block for various applications ranging from polymer chemistry to drug delivery systems.
The triethoxysilyl functionality imparts hydrolyzability and covalent bonding capabilities, enabling its use in cross-linking reactions and surface modifications. This property is particularly useful in the creation of hydrogels, coatings, and nanomaterials where controlled surface chemistry is essential. In recent years, the integration of silicon-based compounds into biomedical applications has expanded rapidly, driven by their biocompatibility and tunable reactivity.
Recent studies have highlighted the potential of 5-(Triethoxysilyl)pentanoic acid, tech in the synthesis of novel drug delivery systems. Researchers have demonstrated its efficacy in forming stable nanoparticles that can encapsulate therapeutic agents, improving bioavailability and targeted delivery. The compound’s ability to undergo sol-gel transitions under mild conditions makes it an attractive candidate for developing injectable hydrogels used in tissue engineering and regenerative medicine. These hydrogels can be tailored to release drugs at controlled rates, offering sustained therapeutic effects.
In the realm of polymer chemistry, 5-(Triethoxysilyl)pentanoic acid, tech has been employed to modify the surface properties of polymers, enhancing their adhesion to biological tissues. This application is particularly relevant in medical device manufacturing, where biocompatible coatings are critical for reducing immune responses and improving device functionality. The compound’s silanol groups facilitate strong bonding with various substrates, including metals and ceramics, making it a versatile additive for surface engineering.
The pharmaceutical industry has also explored the use of 5-(Triethoxysilyl)pentanoic acid, tech as a precursor in the synthesis of bioactive molecules. Its carboxylic acid group can be readily functionalized to introduce diverse pharmacophores, enabling the development of new therapeutic agents. For instance, researchers have utilized this compound to create derivatives with anti-inflammatory and anticancer properties. The flexibility offered by its molecular structure allows for extensive modifications, making it a valuable tool in medicinal chemistry.
From an industrial perspective, 5-(Triethoxysilyl)pentanoic acid, tech is produced under controlled conditions to ensure high purity and consistency. The "tech" grade designation indicates that the product is suitable for industrial applications where slight impurities may be tolerated without compromising performance. Manufacturers focus on optimizing synthetic routes to minimize byproducts and maximize yield, ensuring cost-effective production for large-scale use.
The environmental impact of using 5-(Triethoxysilyl)pentanoic acid, tech has also been a point of interest. While silicon-based compounds are generally considered environmentally friendly due to their biodegradability compared to traditional synthetic materials, proper handling and disposal protocols must be followed to prevent unintended ecological effects. Researchers are actively investigating sustainable synthetic methods that reduce waste and energy consumption without sacrificing product quality.
Future research directions for 5-(Triethoxysilyl)pentanoic acid, tech include exploring its potential in nanotechnology and advanced material science. The ability to functionalize both the silanol and carboxylic acid groups opens up possibilities for creating multifunctional materials with applications in electronics, sensors, and energy storage devices. Additionally, advancements in computational chemistry may aid in designing derivatives with enhanced properties tailored for specific applications.
In conclusion,5-(Triethoxysilyl)pentanoic acid, CAS No. 1137665-94-1, represents a promising compound with broad utility across multiple scientific disciplines. Its unique structural features enable innovative applications in drug delivery、polymer modification、and material science,while ongoing research continues to uncover new possibilities for its use。As the demand for specialized chemicals grows,this compound is poised to play an increasingly important role in advancing technological and medical solutions.
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