Catalytic Activity of Heteropoly Tungstophosphoric Acid supported on Partially Reduced Graphene Oxide Prepared by Laser and Microwave Irradiation

Dailo, Mark Paul Jimena

01 January 2014

The solid acid catalyst of the Keggin-type 12-tungstophosphoric acid (H3PW12O40, HPW) is supported on partially reduced graphene oxide (PRGO) nanosheets for acid-catalyzed reactions. HPW is a new class of catalyst with a good thermal stability and high Bronsted acidity in order to replace common mineral acids. However, it has low specific surface area (1-5 m2/g). Therefore, the possibility of PRGO as a catalytic support for HPW is investigated due to its high surface area (2630 m2/g) and good thermal stability. The synthesis of HPW-GO catalyst is prepared using microwave and laser irradiation without using any chemical reducing agents. The HPW-GO catalysts are characterized by Ultraviolet-visible spectroscopy (UV-Vis), Fourier Transform Infrared Spectroscopy (FT-IR), Raman Spectroscopy, X-ray Photoelectron Spectroscopy (XPS), X-ray Diffraction (XRD) techniques, and Transmission Electron Microscopy (TEM). Also, the surface acidity is measured by a non-aqueous titration of n-butyl amine. Furthermore, the application for catalysts is tested by three acid-catalyzed reactions: Esterification, Friedel-Crafts acylation, and Pechmann condensation. The greatest acidity for the microwave irradiation method is with the loading of 85 wt% HPW-GO and 60wt% HPW-GO for laser irradiation. The results observed provide an excellent opportunity for PRGO as a catalytic support for HPW for acid-catalyzed reactions.

catalysis

graphene oxide

reduced graphene oxide

heteropoly acids

microwave irradiation

laser irradiation

Chemistry

Screening And Characterization Of Catalytic Composite Membranes For Ethyllactate Production

Oguzer, Ozge

01 September 2004

In this research, molybdophosphoric acid (PMo) was blended with polysulfone polymer (PSF) and form a film catalyst by using a common solvent dimethylformamide (DMF). Kinetic and mass transfer parameters were evaluated for catalytic films in ethanol lactic acid esterification reaction as film surface area, film thickness and catalyst loading were varied at 50&amp / #61616 / C, 1 atm and 1:1 ethyl alcohol to lactic acid mole ratio conditions. Also prepared films were characterized by DSC, TGA, FTIR, X-ray and SEM analysis. It was observed that the catalytic films showed higher activities with respect to the unloaded form of PSF and activities were increased with the increasing loading levels. The stabilities of the loaded catalysts were tested by means of deactivation experiments. A decrease was observed after 5th trial for 10wt% PMo loaded PSF film and at 4th trial for 15wt% PMo loaded PSF film. However, activities of the loaded films gave still higher conversion results than the unloaded PSF film. Also it was proved that with increasing film thickness conversion was decreased and increasing surface area conversion was increased. It was observed from the characterization studies that PMo catalysts have no chemical interaction with the PSF polymer and there was trace amount of DMF solvent was observed in the PMo-PSF catalytic film. Particulate structure of the PMo catalyst was observed and there is no catalyst agglomeration in the membrane network. However, along the thickness, catalyst particles were not homogeneously but finely dispersed in amorphous film structure.

TP Chemical Engineering 155-156

Friedel-Crafts alkylation of benzene with a superacid catalyst

Cutright, Josh T.

01 May 2022

Long-chain alkylbenzenes are industrially synthesized precursors to commercial surfactants such as laundry detergent. The currently used catalysts in the processes of their synthesis are corrosive and harmful to the environment. These problems can be avoided utilizing heterogeneous highly acidic catalysts. Solid catalysts do not corrode equipment and are relatively simple to remove from the post-reaction mixture. Phosphotungstic acid (PTA) supported on silica gel could be a possible catalyst due to its high acidity with an estimated pKa ≈ -13. The catalyst PTA-SiO2 was prepared via the sol-gel method to covalently embed it in a silica support. The catalyst was granulated with γ-alumina for use in a fixed bed flow reactor during the alkylation of benzene with long chain alkenes. The isomerization of 1-octene, 1-decene, and 1-octadecene as well as the conversion of 1-decene in the alkylation of benzene were studied under varying conditions. During these reactions, the catalyst demonstrated good catalytic activity at temperatures above 200 °C with an optimal temperature of 250 °C. Of all three alkenes, 1-octadecene showed the highest conversion into respective isomers. The alkylation of benzene with 1-decene experiments showed decreasing of flow rate and increasing the ratio of benzene to 1-decene lead to higher conversions of 1-decene. Characterization of the catalyst after the reaction showed little changes in porosity and particle size. No leaching of PTA was observed. However, carbon deposits were found on the catalyst that requires regeneration before next use in catalysis.

alkylbenzenes

sol-gel synthesis

heteropoly acids

phosphotungstic acid

catalyst

Organic Chemistry

Superacidic Mesoporous Catalysts Containing Embedded Heteropolyacids

Kuvayskaya, Anastasia, Garcia, Saul, Mohseni, Ray, Vasiliev, Aleksey

01 January 2019

Abstract: Superacidic mesoporous silica materials containing embedded heteropolyacids (HPAs) were synthesized by sol–gel method in acidic media. In these materials, HPAs were immobilized into the silica structure covalently. The most acidic materials were obtained at the use of Pluronic P123 as a non-ionic pore-forming agent. Ionic surfactants also formed mesoporous structures, however, their interaction with HPA reduced acidity of the products. Obtained materials were tested as heterogeneous catalysts in liquid-phase alkylation of 1,3,5-trimethylbenzene by 1-decene. The most effective catalyst demonstrated higher conversion of starting substances to long-chain isomeric alkylbenzenes as compared to the activity of zeolite HY, a well-known alkylation catalyst. No leaching of HPA from silica gel was observed after the alkylation.

alkylation

aromatic compounds

embedding

heterogeneous catalysis

heteropoly acids

mesoporous materials

sol–gel

surfactants

Chemistry