Interesting facts
Interesting Facts about Benzimidazole
Benzimidazole is a fascinating heterocyclic compound that plays a crucial role in various fields, including medicinal chemistry and material science. Here are some noteworthy points about this compound:
- Core Structure: Benzimidazole consists of a fused benzene ring and an imidazole ring, forming a unique bicyclic arrangement. This intricate structure is a key factor in its reactivity and biological activity.
- Pharmaceutical Applications: This compound is notable for its presence in numerous pharmaceuticals. Its derivatives have been employed in treatments for conditions such as fungal infections, gastrointestinal disorders, and even certain types of cancers.
- Antimicrobial Properties: Benzimidazole derivatives exhibit significant antimicrobial properties, making them valuable in the development of new antibiotics and antifungal agents.
- Agrochemical Use: Besides its medical applications, benzimidazole is also utilized in agriculture as a plant fungicide, helping to protect crops from various fungal diseases.
- Environmental Impact: Researchers are investigating the environmental impact and biodegradability of benzimidazole compounds, emphasizing the importance of sustainable practices in chemical manufacturing.
- Research Advancements: Ongoing studies are aimed at enhancing the efficacy of benzimidazole derivatives while minimizing side effects, showcasing the compound's potential for future drug development.
In summary, benzimidazole is more than just a chemical formula; it represents a bridge between organic chemistry and practical applications that can significantly impact health and agriculture. As one researcher aptly stated, “The potential of benzimidazole derivatives knows no bounds.”
Synonyms
BENZIMIDAZOLE
51-17-2
1H-Benzimidazole
1H-Benzo[d]imidazole
1,3-Benzodiazole
Benzoimidazole
o-Benzimidazole
3-Azaindole
Benziminazole
Benzoglyoxaline
Azindole
1,3-Diazaindene
1H-1,3-benzodiazole
1H-Benzoimidazole
Benzimidazol
N,N'-Methenyl-o-phenylenediamine
NSC 759
CCRIS 5967
Hbzim
BZI
Hbim
CHEBI:41275
HSDB 2797
NSC-759
EINECS 200-081-4
UNII-E24GX49LD8
MFCD00005585
BRN 0109682
E24GX49LD8
DTXSID8024573
AI3-03737
DTXCID704573
5-23-06-00196 (Beilstein Handbook Reference)
benzimidazole phase betaetha
benzimidazole phase alphalpha
benzimidazole phase gammaamma
CAS-51-17-2
26985-65-9
bezimidazole
benz-imidazole
1H-benzimidazol
4dsu
Benzimidazole, 98%
1,3-Benzodiazole, BZI
BENZIMIDAZOLE [MI]
Epitope ID:140095
SCHEMBL6009
SCHEMBL6010
BENZIMIDAZOLE [HSDB]
WLN: T56 BM DNJ
MLS001066336
1H-1,3-BENZIMIDAZOLE
BDBM7939
CHEMBL306226
F3366-5347
NSC759
SCHEMBL5197771
CHEBI:36622
HMS2233D03
HMS3370L16
HY-Y1825
Tox21_202107
Tox21_303321
STK397462
AKOS000119163
CS-W019944
DB02962
FB01168
PS-5765
NCGC00091255-01
NCGC00091255-02
NCGC00257173-01
NCGC00259656-01
SMR000471839
SY012765
DB-002016
B0054
NS00010836
EN300-33475
C02009
D70829
Q415190
InChI=1/C7H6N2/c1-2-4-7-6(3-1)8-5-9-7/h1-5H,(H,8,9
200-081-4
Solubility of Benzimidazole (C7H6N2)
Benzimidazole is an intriguing compound when it comes to solubility, exhibiting unique behavior based on various solvents. Understanding its solubility can be beneficial in different fields, including pharmaceuticals and material science. Here's a closer look at its solubility characteristics:
As summarized, while benzimidazole exhibits low solubility in water, its behavior in organic solvents opens up various applications. Understanding its solubility can lead to more effective formulations and uses in chemical synthesis.