2,3,6,7,12,13-Hexabromotriptycene CAS#: 55805-81-7; 凯望编码 (ChemWhat Code): 1491291
Identification
| 英文名 | 2,3,6,7,12,13-Hexabromotriptycene |
| IUPAC Name | 4,5,11,12,17,18-hexabromopentacyclo[6.6.6.02,7.09,14.015,20]icosa-2,4,6,9,11,13,15,17,19-nonaene |
| 分子结构 |  |
| CAS编号 | 55805-81-7 |
| 别名 | 2,3,6,7,12,13-hexabromotriptycene 55805-81-7 bromotriphenylene Hexabomotripycene 2,3,6,7,14,15-Hexabromo-9,10-dihydro-9,10-[1,2]benzenoanthracene 4,5,11,12,17,18-hexabromopentacyclo[6.6.6.02,7.09,14.015,20]icosa-2,4,6,9,11,13,15,17,19-nonaene YSZC062 MFCD31700802 9,10[1′,2′]-Benzenoanthracene, 2,3,6,7,14,15-hexabromo-9,10-dihydro- BS-48863 CS-0111314 E81378 |
| 分子式 | C20H8Br6 |
| 分子量 | 727.7 |
| InChI | InChI=1S/C20H8Br6/c21-13-1-7-8(2-14(13)22)20-11-5-17(25)15(23)3-9(11)19(7)10-4-16(24)18(26)6-12(10)20/h1-6,19-20H |
| InChI Key | FXRWLRSFZAHEEL-UHFFFAOYSA-N |
| SMILES | C1=C2C3C4=CC(=C(C=C4C(C2=CC(=C1Br)Br)C5=CC(=C(C=C35)Br)Br)Br)Br |
Physical Data
| Melting Point, °C | Solvent (Melting Point) |
| 350 | acetone |
| 360 – 362 | ethanol |
| 362 – 365 |
Spectra
| Description (NMR Spectroscopy) | Nucleus (NMR Spectroscopy) | Solvents (NMR Spectroscopy) | Temperature (NMR Spectroscopy), °C | Frequency (NMR Spectroscopy), MHz |
| Chemical shifts | 1H | chloroform-d1 | ||
| Chemical shifts | 1H | chloroform-d1 | 400 | |
| Chemical shifts, Spectrum | 1H | chloroform-d1 | ||
| Chemical shifts, Spectrum | 13C | chloroform-d1 | ||
| Chemical shifts, Spectrum | 1H | chloroform-d1 | 26.84 | 500 |
| Chemical shifts | 1H | chloroform-d1 | 26.84 | 400 |
| Chemical shifts, Spectrum | 1H | chloroform-d1 | 300 |
| Description (UV/VIS Spectroscopy) | Solvent (UV/VIS Spectroscopy) | Absorption Maxima (UV/VIS), nm |
| Spectrum | dichloromethane | 229, 285, 295 |
Route of Synthesis (ROS)
| Conditions | Yield |
| With bromine; iodine; iron In chloroform at 79℃; Experimental Procedure 4 Synthesis of compound 4 Add triptycene (1g, 3.9mmol), liquid bromine (1.49mL, 29mmoL), iron powder (73.7mg), iodine (144.9mg), 80mL chloroform, reflux at 79°C, and check the reaction progress by nuclear magnetic After the reaction is completed, it is cooled to room temperature, filtered, and the solvent is removed in vacuo to obtain hexabromotriptycene 4 (2.5 g) as a white solid with a yield of 90%. | 90% |
| With bromine; iodine; iron In chloroform | 90% |
| With bromine; iron In 1,2-dichloro-ethane for 6h; Reflux; | 80% |
Safety and Hazards
No data available
Other Data
| Transportation | Under the room temperature and away from light |
| HS Code | |
| Storage | Under the room temperature and away from light |
| Shelf Life | 1 year |
| Market Price |
| Druglikeness | |
| Lipinski rules component | |
| 分子量 | 727.708 |
| logP | 10.032 |
| HBA | 0 |
| HBD | 0 |
| Matching Lipinski Rules | 2 |
| Veber rules component | |
| Polar Surface Area (PSA) | 0 |
| Rotatable Bond (RotB) | 0 |
| Matching Veber Rules | 2 |
| Use Pattern |
| Due to its unique structure and the presence of bromine substituents, 2,3,6,7,12,13-Hexabromotriptycene might have potential applications in electronic materials. For example, it could be used in organic optoelectronic devices or semiconductor materials. Being an organic compound with a distinctive structure, 2,3,6,7,14,15-hexabromotriphenylene could be employed as a starting material or intermediate in various chemical reactions and synthesis routes. Bromine compounds are commonly used as flame retardants to slow down or prevent the combustion of materials. 2,3,6,7,14,15-hexabromotriphenylene may find applications as a flame retardant in certain industries. |
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