Interesting facts
Interesting Facts about 1-Methyl-3-nitro-benzene
1-Methyl-3-nitro-benzene, often referred to as methyl-3-nitro-toluene, is a fascinating compound with unique properties and applications. Here are some intriguing aspects of this chemical:
- Structural Insights: The compound features a methyl group (-CH3) and a nitro group (-NO2) attached to a benzene ring, displaying an intriguing combination of functionalities that influence its chemical behavior.
- Industry Utilization: It is primarily employed in the synthesis of various dyes and pigments, making it key in the chemical industry, particularly in textiles and coloring agents.
- Intermediary Role: 1-Methyl-3-nitro-benzene serves as an important intermediate in the production of pharmaceuticals, illustrating its significance in medicinal chemistry.
- Reactivity: The presence of both an electron-withdrawing nitro group and an electron-donating methyl group leads to interesting reactivity patterns, allowing for selective substitution reactions in further synthetic pathways.
- Environmental Considerations: As with many nitro compounds, there are environmental concerns regarding its persistence and potential toxicity, which necessitates careful handling and regulation in industrial contexts.
Overall, the study of 1-methyl-3-nitro-benzene not only highlights the complexities of organic chemistry but also showcases the delicate balance between utility and safety in chemical handling.
Synonyms
3-Nitrotoluene
1-Methyl-3-nitrobenzene
m-Nitrotoluene
99-08-1
Benzene, 1-methyl-3-nitro-
3-Nitrotoluol
Toluene, m-nitro-
m-Methylnitrobenzene
3-Methylnitrobenzene
Nitrotoluene, m-
m-Nitrotoluol
Nitrotoluene, all isomers
CCRIS 2312
3-Nitrotoluene, 99%
HSDB 2937
m-nitro toluene
3-Methyl-1-nitrobenzene
1-methyl-3-nitro-benzene
NSC 9578
EINECS 202-728-6
UNII-29A9W826KQ
3-Nitrobenzyl radical
DTXSID5021831
CHEBI:39931
M-MONONITROTOLUENE
NSC-9578
M-NITROTOLUENE [MI]
3-NITROTOLUENE [HSDB]
CHEMBL114059
DTXCID001831
EC 202-728-6
meta-Nitrotoluol
29A9W826KQ
UN 1664
MNT
3-mononitrotoluene
CAS-99-08-1
3NT
Nitrotoluene, m-isomer
metaNitrotoluol
mNitrotoluene
mNitrotoluol
Method 8330 Calibration Standard Solution B; 3-Nitrotoluene
3Nitrotoluene
3Nitrotoluol
Toluene, mnitro
mMethylnitrobenzene
Toluene, m-nitro
3Methylnitrobenzene
1Methyl3nitrobenzene
Nitrotoluene, meto-
MFCD00007265
M-NITROPHENYLMETHANE
WLN: WNR C1
SCHEMBL92055
3-METHYL NITROBENZENE
36-37-3
MLS001055494
m-Nitrotoluene (ACGIH:OSHA)
m-Nitrotoluene, liquid or solid
SCHEMBL10731554
SCHEMBL19334362
DTXSID90210136
NSC9578
HMS3039H14
3-Nitrotoluene, analytical standard
3-nitrotoluene, p-methylnitrobenzene
Benzene, 1-methyl-3-nitro-(9CI)
Tox21_202435
Tox21_300007
BDBM50008563
STL283957
AKOS000121051
NCGC00090732-01
NCGC00090732-02
NCGC00090732-03
NCGC00090732-04
NCGC00254182-01
NCGC00259984-01
BS-43801
SMR000677943
N0274
NS00002108
EN300-21681
C19486
F21441
A845960
Q2816005
m-Nitrotoluene, liquid or solid [UN1664] [Poison]
F0001-2330
Z104508722
Solubility of 1-methyl-3-nitro-benzene
1-methyl-3-nitro-benzene, a nitro-substituted aromatic compound, exhibits varying solubility characteristics depending on the solvent used. Its solubility can be understood through several key aspects:
Generally, solubility is vital in determining the compound's behavior in chemical reactions and its application in industries. Thus, understanding solubility helps highlight its practical uses and potential environmental impacts. Furthermore, it's important to mention that external factors, such as temperature and pH, can also influence the solubility of this compound.