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Literature DB >> 21402441

Methanolysis of polycarbonate catalysed by ionic liquid [Bmim][Ac].

Fusheng Liu¹, Lei Li, Shitao Yu, Zhiguo Lv, Xiaoping Ge.

Abstract

The methanolysis of polycarbonate (PC) was studied using ionic liquid [Bmim][Ac] as a catalyst. The effects of temperature, time, methanol dosage and [Bmim][Ac] dosage on the methanolysis reaction were examined. It was shown that the conversion of PC was nearly 100%, and the yield of bisphenol A (BPA) was over 95% under the following conditions: m([Bmim][Ac]):m(PC) = 0.75:1;m(methanol):m(PC) = 0.75:1; a reaction temperature of 90 °C and a total time of 2.5h. The ionic liquid could be reused up to 6 times with no apparent decrease in the conversion of PC and yield of BPA. The kinetics of the reaction was also investigated. The results indicated that the methanolysis of PC in [Bmim][Ac] was a first-order kinetic reaction with an activation energy of 167 kJ/mol.

Entities: Chemical

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Year: 2011 PMID： 21402441 DOI： 10.1016/j.jhazmat.2011.02.032

Source DB: PubMed Journal: J Hazard Mater ISSN： 0304-3894 Impact factor: 10.588

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Cited

6 in total

1. Material recovery from electronic waste using pyrolysis: Emissions measurements and risk assessment.

Authors: Endalkachew Sahle-Demessie; Bineyam Mezgebe; Joshua Dietrich; Yonggui Shan; Stephen Harmon; Chun C Lee
Journal: J Environ Chem Eng Date: 2021-02-01

2. Degradation of polycarbonate to produce bisphenol A catalyzed by imidazolium-based DESs under metal-and solvent-free conditions.

Authors: Wenwen Huang; Hui Wang; Weiyue Hu; Daoshan Yang; Shitao Yu; Fusheng Liu; Xiuyan Song
Journal: RSC Adv Date: 2021-01-05 Impact factor: 3.361

Methanolysis of polycarbonate catalysed by ionic liquid [Bmim][Ac].

1. Material recovery from electronic waste using pyrolysis: Emissions measurements and risk assessment.

2. Degradation of polycarbonate to produce bisphenol A catalyzed by imidazolium-based DESs under metal-and solvent-free conditions.

3. Supported ionic liquids as highly efficient and low-cost material for CO₂/CH₄ separation process.

4. Hydrogenative Depolymerization of End-of-Life Poly-(Bisphenol A Carbonate) Catalyzed by a Ruthenium-MACHO-Complex.

5. Hydrogenative Depolymerization of End-of-Life Polycarbonates by an Iron Pincer Complex.

6. Versatile Chemical Recycling Strategies: Value-Added Chemicals from Polyester and Polycarbonate Waste.

Methanolysis of polycarbonate catalysed by ionic liquid [Bmim][Ac].

1. Material recovery from electronic waste using pyrolysis: Emissions measurements and risk assessment.

2. Degradation of polycarbonate to produce bisphenol A catalyzed by imidazolium-based DESs under metal-and solvent-free conditions.

3. Supported ionic liquids as highly efficient and low-cost material for CO2/CH4 separation process.

4. Hydrogenative Depolymerization of End-of-Life Poly-(Bisphenol A Carbonate) Catalyzed by a Ruthenium-MACHO-Complex.

5. Hydrogenative Depolymerization of End-of-Life Polycarbonates by an Iron Pincer Complex.

6. Versatile Chemical Recycling Strategies: Value-Added Chemicals from Polyester and Polycarbonate Waste.

3. Supported ionic liquids as highly efficient and low-cost material for CO₂/CH₄ separation process.