Silica was used, as a catalyst carrier, to load cerous sulfate for catalyzing the synthesis of n-butyl acetate. The main purpose of this research was to explore the feasibility of silica in improving the decentrality ...Silica was used, as a catalyst carrier, to load cerous sulfate for catalyzing the synthesis of n-butyl acetate. The main purpose of this research was to explore the feasibility of silica in improving the decentrality and activity of the catalyst. The effects of molar ratio of butyl alcohol to acetic acid, the cerous sulfate loadings and the reaction time on the conversion of acetic acid were studied by single factor experiment method and orthogonal experiment method respectively. The refractive index (n20D) and molecular structure of the prepared n-butyl acetate were measured by Abbe Raefractometer and Fourier Transform Infrared spectroscope, respectively. The comparisons of the silica loaded and unloaded catalysts for catalyzing the synthesis of n-butyl acetate were made. The results showed that the suitable conditions for synthesizing n-butyl acetate were: molar ratio of butyl alcohol to acetic acid of 1.4∶1, use level of loaded cerous sulfate of 0.30 g and reaction time of 50 min, respectively. The maximum conversion of acetic acid for the silica loaded catalyst reached 98.62% which was 12.32% and 16.43% higher than those for the unloaded catalysts reported in literatures, but the use level of cerous sulfate for the former was much less than those for the latters under similar optimal technical conditions. The silica was proved to be a good catalyst carrier for enhancing decentrality and activity of the catalyst and increasing the conversion of acetic acid. The repentance of the silica loaded cerous sulfate was also investigated in the experiment.展开更多
The effect of cerous nitrate on activity of NOS and expression of iNOS in rat hepatocyte was studied by means of reverse transcription - polymerase chain reaction ( RT-PCR). The result shows that neither high ( 50 mg....The effect of cerous nitrate on activity of NOS and expression of iNOS in rat hepatocyte was studied by means of reverse transcription - polymerase chain reaction ( RT-PCR). The result shows that neither high ( 50 mg.kg(-1)) nor low( 1 mg.kg(-1)) dose of cerous nitrate can induce the increase of expression of iNOS mRNA, but an increase of activity was observed after administration of cerous nitrate. Possible mechanism for these phenomena was discussed.展开更多
A novel cerium(Ⅲ) salt of Dawson type tungstophosphoric acid(Ce2P2W18O62·16H2O) was prepared by doping cerous nitrate in H6P2W18O62·13H2O powder and characterized by thermogravimetry and differential therma...A novel cerium(Ⅲ) salt of Dawson type tungstophosphoric acid(Ce2P2W18O62·16H2O) was prepared by doping cerous nitrate in H6P2W18O62·13H2O powder and characterized by thermogravimetry and differential thermal analyses(TG/DTA),Fourier transform infrared spectroscopy(FT-IR),X-ray powder diffraction(XRD),pyridine infrared spectroscopy(Py-IR) and scanning electron microscopy(SEM).Its catalytic activity was evaluated by the probe reaction of synthesis of n-butyl acetate with acetic acid and n-butanol.The effects of various parameters such as molar ratio of n-butanol to acetic acid,reaction temperature,reaction time,and catalyst amount have been studied by single factor experiment.The results show that Ce2P2W18O62·16H2O behaved as an excellent heterogeneous catalyst in the synthesis of n-butyl acetate.The optimum synthetic conditions were determined as follows︰molar ratio of n-butanol to acetic acid at 2.0︰1.0,mass of the catalyst being 1.44% of the total reaction mixture,reaction temperature of 120 ℃ and reaction time of 150 min.Under above conditions,the conversion of acetic acid was above 97.8%.The selectivity of n-butyl acetate based on acetic acid was,in all cases,nearly 100%.The catalysts could be recycled and still exhibited high catalytic activity with 90.4% conversion after five cycles of reaction.It was found by means of TG-DTA and Py-IR that the catalyst deactivation was due to the adsorption of a complex of by-product on the active sites on catalysts surface or the catalyst loss in its separation from the products.Compared with using sulfuric acid as catalyst,the present procedure with Ce2P2W18O62·16H2O is a green productive technology due to simple process,higher yield,catalyst recycling and no corrosion for the production facilities.展开更多
基金Jiangxi Programs for Science and Technology Development (2005)
文摘Silica was used, as a catalyst carrier, to load cerous sulfate for catalyzing the synthesis of n-butyl acetate. The main purpose of this research was to explore the feasibility of silica in improving the decentrality and activity of the catalyst. The effects of molar ratio of butyl alcohol to acetic acid, the cerous sulfate loadings and the reaction time on the conversion of acetic acid were studied by single factor experiment method and orthogonal experiment method respectively. The refractive index (n20D) and molecular structure of the prepared n-butyl acetate were measured by Abbe Raefractometer and Fourier Transform Infrared spectroscope, respectively. The comparisons of the silica loaded and unloaded catalysts for catalyzing the synthesis of n-butyl acetate were made. The results showed that the suitable conditions for synthesizing n-butyl acetate were: molar ratio of butyl alcohol to acetic acid of 1.4∶1, use level of loaded cerous sulfate of 0.30 g and reaction time of 50 min, respectively. The maximum conversion of acetic acid for the silica loaded catalyst reached 98.62% which was 12.32% and 16.43% higher than those for the unloaded catalysts reported in literatures, but the use level of cerous sulfate for the former was much less than those for the latters under similar optimal technical conditions. The silica was proved to be a good catalyst carrier for enhancing decentrality and activity of the catalyst and increasing the conversion of acetic acid. The repentance of the silica loaded cerous sulfate was also investigated in the experiment.
文摘The effect of cerous nitrate on activity of NOS and expression of iNOS in rat hepatocyte was studied by means of reverse transcription - polymerase chain reaction ( RT-PCR). The result shows that neither high ( 50 mg.kg(-1)) nor low( 1 mg.kg(-1)) dose of cerous nitrate can induce the increase of expression of iNOS mRNA, but an increase of activity was observed after administration of cerous nitrate. Possible mechanism for these phenomena was discussed.
基金Supported by the National Natural Science Foundation of China(21161009)the Natural Science Foundation of Jiangxi Province(20122BAB213001,20114BAB213002)the Science and Technology Foundation of Jiangxi Province(GJJ11613)
文摘A novel cerium(Ⅲ) salt of Dawson type tungstophosphoric acid(Ce2P2W18O62·16H2O) was prepared by doping cerous nitrate in H6P2W18O62·13H2O powder and characterized by thermogravimetry and differential thermal analyses(TG/DTA),Fourier transform infrared spectroscopy(FT-IR),X-ray powder diffraction(XRD),pyridine infrared spectroscopy(Py-IR) and scanning electron microscopy(SEM).Its catalytic activity was evaluated by the probe reaction of synthesis of n-butyl acetate with acetic acid and n-butanol.The effects of various parameters such as molar ratio of n-butanol to acetic acid,reaction temperature,reaction time,and catalyst amount have been studied by single factor experiment.The results show that Ce2P2W18O62·16H2O behaved as an excellent heterogeneous catalyst in the synthesis of n-butyl acetate.The optimum synthetic conditions were determined as follows︰molar ratio of n-butanol to acetic acid at 2.0︰1.0,mass of the catalyst being 1.44% of the total reaction mixture,reaction temperature of 120 ℃ and reaction time of 150 min.Under above conditions,the conversion of acetic acid was above 97.8%.The selectivity of n-butyl acetate based on acetic acid was,in all cases,nearly 100%.The catalysts could be recycled and still exhibited high catalytic activity with 90.4% conversion after five cycles of reaction.It was found by means of TG-DTA and Py-IR that the catalyst deactivation was due to the adsorption of a complex of by-product on the active sites on catalysts surface or the catalyst loss in its separation from the products.Compared with using sulfuric acid as catalyst,the present procedure with Ce2P2W18O62·16H2O is a green productive technology due to simple process,higher yield,catalyst recycling and no corrosion for the production facilities.
