Cas no 84489-38-3 (Mono(1-ethylpentyl) Phthalate)
Mono(1-ethylpentyl) Phthalate Chemical and Physical Properties
Names and Identifiers
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- Mono(1-ethylpentyl) Phthalate
- phthalic acid mono-((S)-1-ethyl-pentyl ester)
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Mono(1-ethylpentyl) Phthalate Pricemore >>
| Related Categories | No. | Product Name | Cas No. | Purity | Specification | Price | update time | Inquiry |
|---|---|---|---|---|---|---|---|---|
| TRC | M542550-50mg |
Mono(1-ethylpentyl) Phthalate |
84489-38-3 | 50mg |
$207.00 | 2023-05-17 | ||
| TRC | M542550-500mg |
Mono(1-ethylpentyl) Phthalate |
84489-38-3 | 500mg |
$1642.00 | 2023-05-17 | ||
| SHENG KE LU SI SHENG WU JI SHU | sc-484986-50 mg |
Mono(1-ethylpentyl) Phthalate, |
84489-38-3 | 50mg |
¥2,858.00 | 2023-07-11 | ||
| SHENG KE LU SI SHENG WU JI SHU | sc-484986-50mg |
Mono(1-ethylpentyl) Phthalate, |
84489-38-3 | 50mg |
¥2858.00 | 2023-09-05 | ||
| TRC | M542550-250mg |
Mono(1-ethylpentyl) Phthalate |
84489-38-3 | 250mg |
$ 800.00 | 2023-09-06 |
Mono(1-ethylpentyl) Phthalate Related Literature
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Yang Xu,Min Wang,Donghui Wei,Rongqiang Tian,Zheng Duan,Fran?ois Mathey Dalton Trans., 2019,48, 5523-5526
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2. Agricultural
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Ying Li,Weirong Yao,Yunfei Xie,Renjun Pei RSC Adv., 2015,5, 98724-98729
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Jieun Kim,Han-Saem Park,Tae-Hee Kim,Sung Yeol Kim,Hyun-Kon Song Phys. Chem. Chem. Phys., 2014,16, 5295-5300
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Tanya Ostapenko,Peter J. Collings,Samuel N. Sprunt,J. T. Gleeson Soft Matter, 2013,9, 9487-9498
Additional information on Mono(1-ethylpentyl) Phthalate
Mono(1-ethylpentyl) Phthalate (CAS No. 84489-38-3): Properties, Applications, and Industry Insights
Mono(1-ethylpentyl) Phthalate (CAS No. 84489-38-3) is a specialized phthalate ester widely recognized for its role in industrial and research applications. As a derivative of phthalic acid, this compound exhibits unique chemical properties that make it valuable in various formulations. With the growing demand for specialty plasticizers and polymer additives, Mono(1-ethylpentyl) Phthalate has garnered attention for its compatibility and performance-enhancing characteristics.
The chemical structure of Mono(1-ethylpentyl) Phthalate features a branched alkyl chain, contributing to its solubility and flexibility in polymer matrices. Researchers often explore its use as an intermediate in high-performance coatings and adhesive formulations. Recent trends in sustainable materials have also sparked interest in optimizing its synthesis to reduce environmental impact, aligning with global initiatives for green chemistry.
One of the key advantages of Mono(1-ethylpentyl) Phthalate is its thermal stability, making it suitable for applications requiring resistance to high temperatures. Industries such as automotive and electronics utilize this compound in heat-resistant polymers and dielectric materials. Additionally, its low volatility ensures long-term performance in end products, addressing common challenges in material degradation.
In the context of consumer safety and regulatory compliance, Mono(1-ethylpentyl) Phthalate has been evaluated for its suitability in non-sensitive applications. While not classified as hazardous, manufacturers adhere to strict guidelines to ensure safe handling and storage. This aligns with increasing consumer demand for transparent ingredient disclosure and responsible sourcing in industrial chemicals.
The market for phthalate derivatives like Mono(1-ethylpentyl) Phthalate continues to evolve, driven by innovations in bio-based alternatives and circular economy practices. Companies investing in R&D are exploring ways to enhance the compound's biodegradability without compromising performance. Such developments are particularly relevant in sectors prioritizing eco-friendly manufacturing and lifecycle assessment.
Analytical techniques such as GC-MS and HPLC are commonly employed to characterize Mono(1-ethylpentyl) Phthalate, ensuring purity and consistency in industrial batches. Quality control protocols emphasize the importance of traceability and batch-to-batch reproducibility, critical factors for end-users in precision-dependent industries.
Looking ahead, the versatility of Mono(1-ethylpentyl) Phthalate positions it as a candidate for emerging technologies, including flexible electronics and advanced composites. As industries seek alternatives to traditional materials, this compound’s balance of performance and processability offers compelling advantages. Stakeholders are encouraged to monitor regulatory updates and technological breakthroughs that may influence its future applications.
For researchers and procurement specialists, understanding the supply chain dynamics of Mono(1-ethylpentyl) Phthalate is essential. Factors such as raw material availability and geopolitical trade policies can impact pricing and accessibility. Proactive engagement with specialty chemical distributors ensures a reliable supply for critical projects.
In summary, Mono(1-ethylpentyl) Phthalate (CAS No. 84489-38-3) represents a niche yet impactful component in modern material science. Its applications span from industrial polymers to innovative material solutions, reflecting broader trends in chemical innovation and sustainability. By staying informed about its properties and market trends, professionals can leverage its potential effectively.
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