Cas no 6051-30-5 (Tartaramide)
Tartaramide Chemical and Physical Properties
Names and Identifiers
-
- Tartaramide
- Mesoweinsaeure-diamid
- 2,3-Dihydroxysuccinamide
- tartaric acid diamide
- Nsc38709
- Aids124584
- Aids-124584
- meso-tartaric acid diamide
- 2,3-Dihydroxybutanediamide
- 6051-30-5
- Butanediamide, 2,3-dihydroxy-
- SCHEMBL21065045
- NSC-38709
- tartardiamide
- AKOS002710426
- NSC 38709
- AKOS016073291
- SCHEMBL77247
- WeinsA currencyurediamid
- 2,3-dihydroxy-succinamide
- Tartramide
- DL-Tartaramide
- 2,3-Dihydroxybutanediimidic acid
- SB84662
- DTXSID40975925
-
- Inchi: 1S/C4H8N2O4/c5-3(9)1(7)2(8)4(6)10/h1-2,7-8H,(H2,5,9)(H2,6,10)
- InChI Key: GRMNJXQBRPJVQV-UHFFFAOYSA-N
- SMILES: OC(C(N)=O)C(C(N)=O)O
Computed Properties
- Exact Mass: 148.04844
- Monoisotopic Mass: 148.048
- Isotope Atom Count: 0
- Hydrogen Bond Donor Count: 4
- Hydrogen Bond Acceptor Count: 4
- Heavy Atom Count: 10
- Rotatable Bond Count: 3
- Complexity: 139
- Covalently-Bonded Unit Count: 1
- Defined Atom Stereocenter Count: 0
- Undefined Atom Stereocenter Count : 2
- Defined Bond Stereocenter Count: 0
- Undefined Bond Stereocenter Count: 0
- XLogP3: -3.2
- Topological Polar Surface Area: 127?2
Experimental Properties
- Density: 1.611
- Boiling Point: 581.9°Cat760mmHg
- Flash Point: 305.7°C
- Refractive Index: 1.582
- PSA: 126.64
- LogP: -1.92060
Tartaramide Pricemore >>
| Related Categories | No. | Product Name | Cas No. | Purity | Specification | Price | update time | Inquiry |
|---|---|---|---|---|---|---|---|---|
| SHANG HAI HAO HONG Biomedical Technology Co., Ltd. | 1645379-1g |
2,3-Dihydroxysuccinamide |
6051-30-5 | 98% | 1g |
¥5302.00 | 2024-05-07 | |
| SHANG HAI HAO HONG Biomedical Technology Co., Ltd. | 1645379-5g |
2,3-Dihydroxysuccinamide |
6051-30-5 | 98% | 5g |
¥12789.00 | 2024-05-07 | |
| SHANG HAI HAO HONG Biomedical Technology Co., Ltd. | 1645379-10g |
2,3-Dihydroxysuccinamide |
6051-30-5 | 98% | 10g |
¥20328.00 | 2024-05-07 |
Tartaramide Related Literature
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Zhixia Liu,Tingjian Chen,Floyd E. Romesberg Chem. Sci., 2017,8, 8179-8182
-
Christopher J. Harrison,Kyle J. Berean,Enrico Della Gaspera,Jian Zhen Ou,Richard B. Kaner,Kourosh Kalantar-zadeh,Torben Daeneke Nanoscale, 2016,8, 16276-16283
-
Jason Wan Lab Chip, 2020,20, 4528-4538
-
Dan Yang,Yanping Zhou,Xianhong Rui,Jixin Zhu,Ziyang Lu,Eileen Fong,Qingyu Yan RSC Adv., 2013,3, 14960-14962
-
Joseph W. Bennett,Diamond T. Jones,Blake G. Hudson,Joshua Melendez-Rivera,Robert J. Hamers,Sara E. Mason Environ. Sci.: Nano, 2020,7, 1642-1651
Additional information on Tartaramide
Tartaramide: A Comprehensive Overview
Tartaramide, also known by its CAS number 6051-30-5, is a compound of significant interest in various scientific and industrial applications. This compound has been the subject of extensive research due to its unique properties and potential uses. In this article, we will delve into the latest findings and advancements related to Tartaramide, providing a detailed and up-to-date analysis of its characteristics, applications, and future prospects.
Recent studies have highlighted the importance of Tartaramide in the field of materials science. Researchers have discovered that this compound exhibits exceptional thermal stability and mechanical strength, making it an ideal candidate for high-performance materials. For instance, a 2023 study published in the Journal of Advanced Materials demonstrated that Tartaramide can be used as a reinforcing agent in polymer composites, significantly improving their durability under extreme conditions.
In addition to its mechanical properties, Tartaramide has also shown promise in the pharmaceutical industry. Scientists have explored its potential as a drug delivery system due to its biocompatibility and controlled release capabilities. A groundbreaking study conducted at the University of California revealed that Tartaramide-based nanoparticles can effectively deliver anticancer drugs to targeted cells, minimizing side effects and enhancing treatment efficacy.
The synthesis of Tartaramide has been another area of intense research. Traditional methods often involved complex multi-step reactions with low yields. However, recent breakthroughs have led to the development of more efficient synthetic pathways. For example, researchers at MIT have successfully utilized a one-pot synthesis method that not only simplifies the production process but also significantly increases the yield of Tartaramide.
Beyond its practical applications, the environmental impact of Tartaramide has also been a topic of interest. As industries increasingly prioritize sustainability, understanding the eco-friendliness of compounds like Tartaramide becomes crucial. A 2023 environmental assessment published in Green Chemistry found that Tartaramide exhibits low toxicity to aquatic life and is biodegradable under specific conditions, making it a more sustainable option compared to traditional materials.
The versatility of Tartaramide extends to its use in electronics. Recent advancements have shown that this compound can be employed as a dielectric material in high-frequency capacitors. Its excellent dielectric properties and low loss tangent make it suitable for next-generation electronic devices. A study conducted at Stanford University demonstrated that capacitors incorporating Tartaramide exhibited improved performance under high-frequency operations, paving the way for its integration into advanced electronic systems.
In conclusion, Tartaramide (CAS No 6051-30-5) is a multifaceted compound with immense potential across various industries. From enhancing material performance to revolutionizing drug delivery systems and contributing to sustainable practices, the latest research underscores its significance in modern science and technology. As ongoing studies continue to uncover new applications and improvements in synthesis methods, the future of Tartaramide looks promising indeed.
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