A kind of preparation method of 9,9-bis[(4-hydroxyethoxy)phenyl]fluorene
A technology of hydroxyethoxy and phenyl, which is applied in the field of preparation of 9,9-bis[phenyl]fluorene, can solve the problem of high cost and achieve the effects of less three wastes, cheap raw materials and convenient recycling
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Embodiment 1
[0026] Add 18 grams of 9-fluorenone, 31 grams of ethylene glycol monophenyl ether, and 0.1 grams of 3-mercaptopropionic acid into a 500 ml stainless steel reaction kettle, seal the reaction kettle, test the pressure with nitrogen, and replace it with nitrogen after confirming that the reaction kettle is well sealed System twice, cool the reactor to -40~-50°C, slowly feed anhydrous hydrogen fluoride gas to condense hydrogen fluoride into liquid in the reactor, until the weight of the reactor increases by 180 grams, stop feeding hydrogen fluoride. The temperature of the reaction kettle was raised to 60-70° C. for 20 hours. Cool the reaction system to 40-50°C, slowly open the exhaust valve to discharge the hydrogen fluoride gas, the hydrogen fluoride gas is condensed by the condenser and then recovered, after the hydrogen fluoride in the system is basically discharged, nitrogen gas is introduced into the reaction kettle to drive the remaining hydrogen fluoride out, stop nitrogen....
Embodiment 2
[0028] Add 25 grams of 9-fluorenone, 57.5 grams of ethylene glycol monophenyl ether, and 0.7 grams of 2-mercaptopropionic acid into a 500 ml stainless steel reactor, seal the reactor, test the pressure with nitrogen, and replace it with nitrogen after confirming that the reactor is well sealed System twice, cool the reactor to -20~-30°C, slowly feed anhydrous hydrogen fluoride gas to condense the hydrogen fluoride into a liquid in the reactor, until the weight of the reactor increases by 150 grams, stop feeding hydrogen fluoride. The temperature of the reaction kettle was raised to 80-90° C. for 15 hours. Cool the reaction system to 30-40°C, slowly open the exhaust valve to discharge the hydrogen fluoride gas, the hydrogen fluoride gas is condensed by the condenser and then recovered, after the hydrogen fluoride in the system is basically discharged, argon gas is introduced into the reaction kettle to remove the remaining hydrogen fluoride Drive out, stop argon. Slowly add 60...
Embodiment 3
[0030] Add 10 grams of 9-fluorenone, 30.7 grams of ethylene glycol monophenyl ether, and 0.5 grams of mercaptoacetic acid into a 250 ml stainless steel reactor, seal the reactor, test the pressure with nitrogen, and replace the system twice with nitrogen after confirming that the reactor is well sealed , Cool the reactor to -50~-60°C, slowly feed anhydrous hydrogen fluoride gas to condense hydrogen fluoride into a liquid in the reactor, and stop feeding hydrogen fluoride until the reactor increases in weight by 150 grams. The temperature of the reaction kettle was raised to 110-120° C. for 10 hours. Cool the reaction system to 50-60°C, slowly open the exhaust valve to discharge the hydrogen fluoride gas, the hydrogen fluoride gas is condensed by the condenser and then recovered, after the hydrogen fluoride in the system is basically discharged, nitrogen gas is introduced into the reaction kettle to drive out the remaining hydrogen fluoride out, stop nitrogen. Slowly add 50 gr...
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