Phosphorus-containing polymeric ionic liquids-supported rhodium catalyst for hydroformylation of dihydrofurans

Jin, Fengtao; Liu, Qiao; Quan, Zheng‐Jun; Kang, Moon‐Sung; Song, Hang

doi:10.1016/j.mcat.2022.112207

Cited by 6 publications

(1 citation statement)

References 35 publications

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“…First of all, the test chart of BET-speci c surface area consists of two curves of adsorption and analysis. It can be seen from the gure that the adsorption hysteresis loop in the middle represents the type IV isotherm [29], and the speci c surface area reaches 71.5m 2 /g, The average pore size of FILs-XSS is greater than 14.8 nm, which is an important sign of mesoporous materials [30]. The CO 2 molecule can fully contact with propylene oxide on the catalyst, which is very favorable for the rst step of the reaction between CO 2 and propylene oxide, and the average pore size of PILs-FL has reached the basic requirement [31].…”

Section: Bet-bjh Analysis Of Pils-xssmentioning

confidence: 98%

Synthesis of dimethyl carbonate from CO2 catalyzed by spherical polymeric ionic liquid catalyst

Liu,

Li,

Xie

et al. 2023

Chem. Pap.

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Dimethyl carbonate (DMC) is widely used and nontoxic and can replace more dangerous materials such as dimethyl sulfate or methyl chloride. Spherical particle catalysts (PILs-XSS) were synthesized by suspension polymerization, which was characterized by SEM-EDS, FT-IR, TG, and BET-BJH. The characterization results showed that PILs-XSS had a speci c core structure, a certain pore size (14.3nm), and surface area size (71.5m 2 /g), and remained stable at 293.4°C. The catalyst performance was evaluated by a one-pot synthesis of dimethyl carbonate. The process conditions were optimized in detail. The optimal reaction conditions were as follows: the dosage of PILs-XSS was 2.5 wt %, the CO 2 pressure was 1.5 MPa, the reaction temperature was 100°C, the reaction time was 4 h, the molar ratio of methanol to propylene oxide (PO)was 3: 1, and the dosage of cocatalyst Na 2 CO 3 was 3 wt %. Under the optimum conditions, the conversion of PO was up to 98.8% and the yield of DMC reached 53.7%. In addition, the combined catalyst PILs-Na 2 CO 3 was easily recovered by ltration in the reaction system. After ve times of repeated use, the activity and the shape of the catalyst were almost unchanged, which meant that the catalyst had amazing mechanical strength. This study found that the transesteri cation catalyst Na 2 CO 3 not only had good transesteri cation e ciency but also promoted the reaction of CO 2 .

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Section: Bet-bjh Analysis Of Pils-xssmentioning

confidence: 98%