Cas no 18455-27-1 (Rubreserine)
Rubreserine Chemical and Physical Properties
Names and Identifiers
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- Pyrrolo[2,3-b]indole-5,6-dione,1,2,3,3a,8,8a-hexahydro-1,3a,8-trimethyl-, (3aS,8aR)-
- (3aR,8bS)-3,4,8b-trimethyl-2,3a-dihydro-1H-pyrrolo[2,3-b]indole-6,7-dione
- rubreserine
- (3aS,8aR)-1,3a,8-trimethyl-1,2,3,3a,8,8a-hexahydropyrrolo[2,3-b]indole-5,6-dione
- Pyrrolo(2,3-b)indole-5,6-dione, 1,2,3,3a,8,8a-hexahydro-1,3a,8-trimethyl-, (3aS-cis)-
- (3aS,8aα)-1,2,3,3a,8,8a-Hexahydro-1,3aα,8-trimethylpyrrolo[2,3-b]indole-5,6-dione
- CHEMBL460330
- AKOS027324723
- 18455-27-1
- DTXSID20939843
- 1,3a,8-Trimethyl-1,2,3,3a,8,8a-hexahydropyrrolo[2,3-b]indole-5,6-dione
- Rubreserine
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- Inchi: 1S/C13H16N2O2/c1-13-4-5-14(2)12(13)15(3)9-7-11(17)10(16)6-8(9)13/h6-7,12H,4-5H2,1-3H3/t12-,13+/m1/s1
- InChI Key: HOQNKCYZDSDWJL-OLZOCXBDSA-N
- SMILES: O=C1C(C=C2C(=C1)[C@]1(C)CCN(C)[C@@H]1N2C)=O
Computed Properties
- Exact Mass: 232.12128
- Monoisotopic Mass: 232.121
- Isotope Atom Count: 0
- Hydrogen Bond Donor Count: 0
- Hydrogen Bond Acceptor Count: 4
- Heavy Atom Count: 17
- Rotatable Bond Count: 0
- Complexity: 492
- Covalently-Bonded Unit Count: 1
- Defined Atom Stereocenter Count: 2
- Undefined Atom Stereocenter Count : 0
- Defined Bond Stereocenter Count: 0
- Undefined Bond Stereocenter Count: 0
- XLogP3: 0.5
- Topological Polar Surface Area: 40.6?2
Experimental Properties
- Density: 1.27
- Boiling Point: 359.5°Cat760mmHg
- Flash Point: 157.4°C
- Refractive Index: 1.616
- PSA: 40.62
Rubreserine Pricemore >>
| Related Categories | No. | Product Name | Cas No. | Purity | Specification | Price | update time | Inquiry |
|---|---|---|---|---|---|---|---|---|
| TRC | R010520-1mg |
Rubreserine |
18455-27-1 | 1mg |
$ 155.00 | 2022-06-03 | ||
| TRC | R010520-10mg |
Rubreserine |
18455-27-1 | 10mg |
$ 1240.00 | 2022-06-03 | ||
| Biosynth | TAA45527-1 mg |
Rubreserine |
18455-27-1 | 1mg |
$180.00 | 2023-01-02 | ||
| Biosynth | TAA45527-5 mg |
Rubreserine |
18455-27-1 | 5mg |
$585.00 | 2023-01-02 | ||
| Biosynth | TAA45527-10 mg |
Rubreserine |
18455-27-1 | 10mg |
$936.00 | 2023-01-02 | ||
| Biosynth | TAA45527-25 mg |
Rubreserine |
18455-27-1 | 25mg |
$1,755.00 | 2023-01-02 | ||
| Biosynth | TAA45527-50 mg |
Rubreserine |
18455-27-1 | 50mg |
$2,808.00 | 2023-01-02 |
Rubreserine Related Literature
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Xiang Liu,Qian Sun,A. B. Djuri?i?,Maohai Xie,Baohu Dai,Jinyao Tang,Charles Surya,Changzhong Liao,Kaimin Shih RSC Adv., 2015,5, 100783-100789
-
Hyejin Moon,Aaron R. Wheeler,Robin L. Garrell,Chang-Jin “CJ” Kim Lab Chip, 2006,6, 1213-1219
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Inês S. Albuquerque,Hélia F. Jeremias,Miguel Chaves-Ferreira,Dijana Matak-Vinkovic,Omar Boutureira,Carlos C. Rom?o Chem. Commun., 2015,51, 3993-3996
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Priyambada Nayak,Tanmaya Badapanda,Anil Kumar Singh,Simanchalo Panigrahi RSC Adv., 2017,7, 16319-16331
Additional information on Rubreserine
Rubreserine: A Comprehensive Overview
Rubreserine, also known by its CAS number 18455-27-1, is a compound that has garnered significant attention in various scientific and industrial fields. This compound, with the chemical name Rubreserine, is characterized by its unique properties and potential applications. In recent years, advancements in chemical synthesis and material science have brought Rubreserine into the spotlight, particularly due to its role in drug development and material engineering.
The molecular structure of Rubreserine plays a crucial role in its functionality. Its chemical composition allows it to interact with biological systems in ways that make it a promising candidate for therapeutic interventions. Recent studies have highlighted its potential as a precursor in the synthesis of bioactive compounds, which could pave the way for novel drug discoveries. Researchers have also explored its ability to influence cellular processes, making it a subject of interest in pharmacology and biotechnology.
One of the most notable aspects of Rubreserine is its versatility across different industries. In the pharmaceutical sector, it has been investigated for its potential to modulate enzyme activity, which could lead to innovative treatments for various diseases. Additionally, in materials science, Rubreserine has shown promise as a building block for advanced materials with tailored properties. Its ability to form stable complexes has made it a valuable component in the development of new materials for electronic applications.
Recent advancements in synthetic chemistry have improved the efficiency of producing Rubreserine on an industrial scale. Scientists have developed novel synthesis pathways that not only enhance yield but also reduce environmental impact. These methods are particularly important as industries increasingly prioritize sustainable practices. The improved synthesis of Rubreserine has also facilitated its use in large-scale applications, such as in the production of high-performance polymers and composites.
In terms of environmental applications, Rubreserine has been studied for its role in remediation processes. Its ability to bind with certain contaminants makes it a potential tool for cleaning up polluted sites. Researchers have explored its use in soil remediation and water treatment systems, where it can help remove harmful substances without causing further ecological damage. This dual functionality underscores the compound's importance in both industrial and environmental contexts.
The future of Rubreserine looks promising as ongoing research continues to uncover new applications and improve existing ones. Collaborative efforts between academia and industry are driving innovation, ensuring that this compound remains at the forefront of scientific exploration. As technology advances, so too will our understanding of Rubreserine's potential, opening up new avenues for its use across diverse fields.
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