- 3-Bromoquinoline
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- $11.00 / 25g
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2024-09-12
- CAS:5332-24-1
- Min. Order: 25g
- Purity: 0.98
- Supply Ability: 25kg
- 3-Bromoquinoline
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- $0.00 / 1KG
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2022-10-13
- CAS:5332-24-1
- Min. Order: 1KG
- Purity: 98%
- Supply Ability: 1Ton
- 3-Bromoquinoline
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- $1.10 / 1g
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2022-03-04
- CAS:5332-24-1
- Min. Order: 1g
- Purity: 99.00%
- Supply Ability: 100 Tons
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| 3-Bromoquinoline Chemical Properties |
Melting point | 13-15 °C (lit.) | Boiling point | 274-276 °C (lit.) | density | 1.533 g/mL at 25 °C (lit.) | vapor pressure | 0.196Pa at 25℃ | refractive index | n20/D 1.664(lit.) | Fp | >230 °F | storage temp. | Keep in dark place,Inert atmosphere,Room temperature | form | Liquid | pka | 2.69(at 25℃) | color | Clear colorless to yellow | Water Solubility | 103mg/L at 25℃ | BRN | 112939 | InChIKey | ZGIKWINFUGEQEO-UHFFFAOYSA-N | LogP | 3.03 | CAS DataBase Reference | 5332-24-1(CAS DataBase Reference) | NIST Chemistry Reference | Quinoline, 3-bromo-(5332-24-1) | EPA Substance Registry System | Quinoline, 3-bromo- (5332-24-1) |
Hazard Codes | Xi | Risk Statements | 36/37/38 | Safety Statements | 26-36-37/39 | RIDADR | UN2810 | WGK Germany | 3 | TSCA | Yes | HS Code | 29334900 |
| 3-Bromoquinoline Usage And Synthesis |
Bromoquinoline | There are seven position isomers with the main properties are as follows:
Name
Melting point(℃)
Boiling point(℃)
Solubility
2-bromoquinoline
48~49
It is soluble in diethyl ether, chloroform and benzene
3-bromoquinoline
12~15
274~276,
95(66.66Pa)
4-bromoquinoline
29~30
270(decomposition)
Easily soluble in dilute acid
5-bromoquinoline
52 (needle crystal)
280
7-bromoquinoline
52 (needle crystal)
290
8-bromoquinoline
80
165~166
(2399.79Pa)
| Application and synthesis method | 3-Bromoquinoline can have action with mixed acid to generate 3-bromo-5-nitroquinoline, followed by heating with potassium permanganate to be oxidized to 5-bromo-2, 3-pyridine dicarboxylic acid.
6-bromo-quinoline can be heated together nitric acid to generate 6-bromo-8-nitro-quinoline, followed by reaction with potassium permanganate to be oxidized into 2, 3-pyridinedicarboxylic acid.
2-bromo-quinoline can be manufactured through the reaction between 2-hydroxyquinoline and phosphorus pentabromide
3-bromo-quinoline can be obtained through heating the quinoline perbromide at 180 ° C.
4-bromoquinoline can be obtained through either the heating reaction between 4-hydroxyquinoline and phosphorus pentabromide or by the diazotization reaction of 4-aminoquinoline.
5-bromo-quinoline can be obtained from the heating reaction between m-bromo aniline, glycerol, m-bromonitrobenzene and concentrated sulfuric acid, or through the diazotization reaction of 5-amino-quinoline.
6-bromo-quinoline can be obtained through the heating reaction between p-bromoaniline, glycerol, concentrated sulfuric acid and p-bromo-nitrobenzene.
7-bromoquinoline can be obtained through the diazotization of 7-aminoquinoline.
8-bromo-quinoline can be obtained through the heating of o-bromo aniline, glycerol, concentrated sulfuric acid and o-bromo-nitrobenzene in the heating system.
Purposes: as organic synthesis reagents. | Uses | For pharmaceuticals
Medicine, pesticide intermediates | Chemical Properties | colorless to light yellow liquid | Synthesis Reference(s) | The Journal of Organic Chemistry, 27, p. 1318, 1962 DOI: 10.1021/jo01051a047 | General Description | 3-Bromoquinoline undergoes bromine-magnesium exchange reaction with lithium tributylmagnesate in toluene at -10°C, which is quenched by various electrophiles to yield functionalized quinolines. | Flammability and Explosibility | Not classified |
| 3-Bromoquinoline Preparation Products And Raw materials |
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