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Introduction of CAS:2050-94-4 | N-CAPRYLIC ANHYDRIDE
Dipentyl carbonate (DPC) is a carbonate ester derived from the reaction of pentanol with carbon dioxide or a carbonate donor. It is a compound of interest in the field of green chemistry due to its potential use as a non-toxic solvent and as an intermediate in the synthesis of various organic compounds. The synthesis of DPC has been explored through transesterification reactions using basic ionic liquids as catalysts, which offer an environmentally friendly alternative to traditional methods .
Specification of CAS:623-66-5 | N-CAPRYLIC ANHYDRIDE
|
ITEMS |
SPECIFICATION |
|
Boiling point |
238-240 °C |
|
Density |
0.919±0.06 g/cm3(Predicted) |
|
Form |
Oil |
|
Color |
Clear Colorless |
|
Storage condition |
2-8°C |
Research Application of CAS:2050-94-4 | N-CAPRYLIC ANHYDRIDE
Transesterification in Polycarbonate Manufacturing
Lee et al. (2003) highlighted the role of diphenyl carbonate, closely related to dipentyl carbonate, in the production of non-phosgene polycarbonate. This process involves the transesterification of dimethyl carbonate with phenol, using dibutyltin oxide as a catalyst. The addition of alkyl or aryl sulfonic acid enhances the catalytic activity of dibutyltin oxide in this process (Lee et al., 2003).
Membrane Formation via Thermally Induced Phase Separation
Lin et al. (2008) investigated the use of diphenyl carbonate as a diluent in the preparation of microporous polyvinylidene fluoride (PVDF) membranes through a thermally induced phase-separation method. This study found that low polymer concentration and high quenching temperature resulted in membranes with larger pore sizes, indicating the potential of diphenyl carbonate in creating specific membrane structures (Lin et al., 2008).
Nanocomposite Catalysts in Diphenyl Carbonate Synthesis
Research by Wang et al. (2021) developed a method for preparing PbZr nanocomposite catalysts, demonstrating their efficiency in synthesizing diphenyl carbonate. This research provides valuable insights into the structure-performance relationship of nanocomposites and their potential applications in the synthesis of various carbonates, including dipentyl carbonate (Wang et al., 2021).
Green Solvents in Palladium-Catalyzed Substitution Reactions
Schäffner et al. (2008) explored the use of organic carbonates, such as propylene and butylene carbonate, in palladium-catalyzed asymmetric allylic substitution reactions. Their research confirms the potential of these green solvents, which are less harmful to the environment, for catalytic transformations. This highlights the applicability of various carbonate compounds, including dipentyl carbonate, in more environmentally friendly chemical processes (Schäffner et al., 2008).
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