Triethylaluminum
Product Description
| Product | Triethylaluminum |
| CAS | 97-93-8 |
| Formula | C6H15Al |
| Synonym | UNII-H426E9H3TT, 4-04-00-04398 (Beilstein Handbook Reference), TEA, UN 1102, triethyl-alane, HSDB 4016, Superlist Names Aluminum, triethyl-, EINECS 202-619-3, Triethylaluminium, triethyl-aluminu, ATE, ALUMINUM TRIETHYL, Triethylalane, Triethylaluminum, BRN 3587229, ALUMINUMTRIETHANIDE, TEAL, Aluminum, triethyl-, aluminiumtriethyl, EC 202-619-3 |
Typical Product Specifications
| Density | 0.85 g/mL at 20 °C |
| Water solubility | reacts |
| Boiling Point | 128-130°C (50 mmHg) |
| Molecular weight | 114.16 |
| EINECS | 202-619-3 |
| SMILES | [Al](CC)(CC)CC |
| InChI | 1S/3C2H5.Al/c3*1-2;/h3*1H2,2H3; |
| Atmospheric OH Rate Constant | 2.85E-11 cm3/molecule-sec |
| Melting Point | -5.25E+01 ° C |
| log P (octanol-water) | 3.440 |
| Boiling Point | 194 ° C |
| Vapor Pressure | 0.0256 mm Hg |
| Water solubility | 121 mg/L |
| Melting Point | -50°C |
| Flash Point | -1 °F |
| Sensitive | Air & Moisture Sensitive |
| Storage Temperature | 0-6°C |
| Notes | Triethylaluminum uses and applications include: Catalyst component in Ziegler-Natta type systems for olefin and diene polymerizations; in ethylene oligomerization to produce olefins; in chain growth of ethylene to produce longer chain aluminum alkyls which are then converted to primary alcohols; reagent for Meerwein-Ponndorf reduction Suggested storage of Triethylaluminum: Handle and store under nitrogen |
| Class | Specialty Chemicals |
| Function | Catalyst |
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