- Product Details
Keywords
- 1291-32-3 Bis(cyclopentadienyl)zirconium dichloride
- high quality Bis(cyclopentadienyl)zirconium dichloride
- Bis(cyclopentadienyl)zirconium dichloride manufacturer
Quick Details
- ProName: 1291-32-3 Bis(cyclopentadienyl)zirconi...
- CasNo: 1291-32-3
- Molecular Formula: C10H10Cl2Zr
- Appearance: white or off-white crystalline powder
- Application: 1291-32-3
- DeliveryTime: depend on yr quantity
- PackAge: bottle/drum or customer's request
- Port: china main port
- ProductionCapacity: 1 Metric Ton/Month
- Purity: 98%
- Storage: N/A
- Transportation: --
- LimitNum: 1 Kilogram
Superiority
1291-32-3 Bis(cyclopentadienyl)zirconium dichloride 1291-32-3
English synonyms:
Bis(cycL; zirconocene; opentadienyL;) zirconiumdichL; Dichlorozirconocene; Zirconcenedichloride; dichChemicalbooklorozirconium(2+); ZIRCONOCENEDICHLORIDE; ZIRCONOCENEDICHLORIDE,98+%; DICHLORODICYCLOPENTADIENYLZIRCONIUM
Melting point: 242-245 ° C (lit.)
Boiling point: 124-125 ° C / 15 mm
Flash: 124-125 ° C / 15 mm
Storage conditions :Refrigerator(+4°C)
Appearance: Powder
Color: whitetooff - white
The water solubility, hydrolysis
Sensitivity: Air&MoistureSensitive
CAS Database :1291-32-3(CASDataBaseReference)
NIST chemical information :Bis(Cyclopentadienyl) Zirconiumdichloride (1291-32-3)
EPA Chemical Information: Zirconenedichloride (1291-32-3)
Details
Introduction to the
Zirconium dichloroethene is the main catalyst of Kaminsky type catalytic system. This kind of catalyst has high activity and isometric of olefin oligomerization, and catalytic olefin oligomerization has also been reported in literature. Zirconium dichloroethene is also the main component of Negishi's reagent, which can be used for the cyclogenesis of intramolecular dienes and the cyclogenesis of intermolecular alkynes and olefin.
application
Cp2ZrCl2 can be used to catalyze hydrogenation of unsaturated polymers and in laboratory research and development as well as in chemical and pharmaceutical research and development.
The preparation of
Step 1:
Preparation of cyclopentadienyl sodium Dipolycyclopentadiene was pyrolysis at 180℃ under the protection of pure nitrogen. The cyclopentadiene monomers were collected at 40 ~ 42℃ and stored in an ice-salt bath. A stirring magneton was placed in a 500mL three-mouth bottle, and a constant pressure drop funnel and reflux-condenser were installed. Then, it was evacuated and replaced with pure nitrogen for 3 times. 4.6g(0.2mol) sodium wire and 40mLTHF were added under pure nitrogen protection. Add 25mL(0.3mol) of fresh cyclopentadiene into a constant pressure drop funnel containing 100mLTHF, start an electromagnetic stirrer, and drop the above cyclopentadiene solution into a three-mouth bottle within 20min. After finishing the drop, continue the reaction for 1.5h, the sodium filament basically disappears, and obtain the cyclopentadienyl sodium THF solution. Cyclopentadienyl sodium solution under normal conditions is pale yellow, if there is no pure nitrogen protection will be oxidized to purple.
Step 2:
Preparation of zirconium dichloroethene a stirring magneton was placed in a 500mL three-mouth bottle, constant pressure drop funnel and reflux-condenser were installed, pumped out, and replaced for 3 times with pure nitrogen. 50mL toluene and 22.3g(0.1mol)ZrCl4 were added into the flask and stirred to make a suspension. The THF solution of cyclopentadienyl sodium was added to the drip funnel at constant pressure and dropped at room temperature to keep the reaction solution boiling slightly. After the dripping was completed, the reaction continued for 2h. Under the heating of 50℃ oil bath, the solvent was decompressed and dried to obtain yellow solid. The solids are put into a cable extractor and extracted with CHCl3. Most of the solvents in the extract were steamed under decompression, and the solids were separated out after cooling and filtered. The product was washed with a small amount of CHCl3 and dried in vacuum, and the white crystal was 20.2g with a yield of 69%.
use
Used in olefin polymerization catalysts, as raw materials for the preparation of zirconium, and in organic synthesis for the synthesis of many early transition metal complexes and organic metal compounds