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Specifications of 1,3-Bis(4,5-dihydro-2-oxazolyl)benzen丨34052-90-9
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Property |
Specification |
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Appearance |
Off-white or white solid |
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Melting Point |
143-145°C |
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Assay |
≥98.5% min |
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Residual |
≤0.2% |
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Volatiles |
≤0.5% |
Transport Information of 1,3-Bis(4,5-dihydro-2-oxazolyl)benzen丨34052-90-9
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Parameter |
Specification |
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UN Number |
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Class |
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Packing Group |
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H.S. Code |
2933990099101 |
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Stability & Reactivity |
Stable |
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Storage |
Store in a closed, dry, ventilated place |
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Condition to Avoid |
oxidizing agent |
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Package |
Manufacturing Information of 1,3-Bis(4,5-dihydro-2-oxazolyl)benzen丨34052-90-9
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Parameter |
Specification |
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Capacity |
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Frequency |
Custom per customer's need |
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Main Export Countries |
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Capacity/Batch |
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Experience |
5-10 years, 10MT can be customized |
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Facilities |
Introduction
1,3-Bis(4,5-dihydro-2-oxazolyl)benzen丨34052-90-9 is an organic compound characterized by a benzene ring substituted with two 4,5-dihydro-2-oxazolyl groups. It is primarily used in chemical synthesis and potentially in pharmaceutical research due to its unique structure.
Below is an overview of its possible applications and benefits:
Applications of 1,3-Bis(4,5-dihydro-2-oxazolyl)benzen丨34052-90-9
1. Pharmaceutical Research and Development
The compound may serve as a precursor or intermediate in the development of pharmaceutical agents. The oxazole functional group in the structure is known for its bioactivity, making the compound potentially useful in drug discovery programs. Compounds with oxazole rings are often investigated for their antimicrobial, anti-inflammatory, and anticancer properties.
Antimicrobial Research: The oxazole-containing structure is linked to bioactivity against a variety of microbial organisms. Its derivatives may be studied for their efficacy as antibacterial or antifungal agents.
Anti-inflammatory: Oxazole derivatives are also of interest in the treatment of inflammation-related diseases, with some compounds showing promise in reducing the activity of inflammatory mediators.
Cancer Research: Due to the potential of oxazole-containing compounds in the treatment of cancer, this compound may also be researched for its effects on tumor cells, cell proliferation, and apoptosis mechanisms.
2. Synthesis of New Chemical Compounds
This compound can be used as an intermediate in chemical synthesis, particularly in the creation of novel organic materials or functionalized benzene derivatives. It can be subjected to various chemical modifications, leading to the formation of compounds with different physical, chemical, and biological properties. Researchers often investigate such compounds for use in a wide range of applications from materials science to pharmaceuticals.
3. Materials Science
Benzene-based compounds such as 1,3-Bis(4,5-dihydro-2-oxazolyl)benzen丨34052-90-9 may be used in the development of organic electronics, polymers, and light-emitting diodes (LEDs) due to their ability to undergo specific electronic interactions. While this compound is not commonly cited for such applications, its structural characteristics make it a candidate for research in organic semiconductors.
4. Ligand Development
The compound may serve as a ligand in coordination chemistry. It could be involved in the synthesis of metal-organic frameworks (MOFs) or complexes that are used in various industrial or academic research applications. Ligands based on oxazole rings are useful in metal binding and catalysis.
Potential Benefits of 1,3-Bis(4,5-dihydro-2-oxazolyl)benzen丨34052-90-9
1. Pharmacological Activity
As an intermediate in pharmaceutical research, this compound may be engineered into molecules with useful biological activity. The oxazole ring confers a variety of pharmacological effects, including potential for:
Antibacterial properties.
Antifungal effects.
Anti-inflammatory benefits.
Anticancer activity.
These effects make it an attractive candidate for drug development, particularly in the field of infectious diseases and cancer therapy.
2. Versatile Synthetic Building Block
The compound's structure, with two oxazole rings attached to a central benzene nucleus, provides a versatile platform for creating diverse chemical entities. The compound can be modified to produce derivatives with enhanced properties for use in various fields of chemistry, including pharmaceuticals, polymer chemistry, and materials science.
3. Potential in Organic Electronics
As an organic compound with possible semiconductor properties, derivatives of 1,3-Bis(4,5-dihydro-2-oxazolyl)benzene could find a role in the development of organic LEDs (OLEDs) or organic solar cells (OSCs). Organic electronics are known for being lightweight, flexible, and cost-effective, and compounds such as this may contribute to improving the performance or efficiency of such devices.
4. Coordination Chemistry
In coordination chemistry, the oxazole groups in this compound may be involved in binding to metal centers, leading to the creation of metal-organic complexes. These complexes are of interest for a variety of applications, including catalysis, magnetic materials, and molecular sensors.
Conclusion
1,3-Bis(4,5-dihydro-2-oxazolyl)benzen丨34052-90-9 is a chemical compound with a benzene ring substituted by oxazole groups, making it of interest in pharmaceutical, synthetic chemistry, and materials science. While it is not widely used in commercial products, it has potential applications in the development of new pharmaceuticals, including drugs with antibacterial, antifungal, anti-inflammatory, or anticancer activities. Additionally, it may find use as a synthetic building block in creating organic electronics, metal-organic complexes, and other advanced materials.
