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Mohammad Barati

Mohammad Barati

Assistant Professor

College: Faculty of Chemistry

Department: Chemistry

Degree: Ph.D

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Mohammad Barati

Assistant Professor Mohammad Barati

College: Faculty of Chemistry - Department: Chemistry Degree: Ph.D |

Assistant Professor

Applied Chemistry, University of Kashan, Kashan, Iran, 2015-Now.

Fields of Research: Gaseous, liquid and solid fuels production from bio resources. Biodiesel production from algae and other oily biomasses in supercritical conditions. Water, methanol, hexane and acetone in supercritical conditions is used for biomass conversion to biofuels in our Lab. Nanocomposites for bio applications is my other field of research. Extraction of chemicals from medicinal herbs for using in controlled drug delivery systems, especially polymer nanocomposites.

Current research projects: Kinetic study of biodiesel production processes in supercritical environment and conversion studies of bio-aviation fuels production processes in supercritical environment.

 

PhD

Applied Chemistry, University of Tehran, Tehran-Iran, 2011-2015.

Field of Research: Catalytic renewable fuels production from biomass.

More specifically, in my PhD thesis, I have focused on the production of hydrogen gas from biomass feedstock using catalytic sub and supercritical water gasification.  Ni, Ru, Cu and K are the metals we are working on. Renewable liquid fuels production especially higher alcohols and ethers is our parallel aim in the thesis. With progressing the experimental steps of thesis, we could produce relatively significant amounts of higher alcohols from a catalytic subcritical methanol/water process as well as hydrogen production was successful.
 

 

Master of Science

Applied Chemistry, University of Tabriz, Tabriz-Iran, 2008-2011.

Field of Study: Anticorrosion behavior of electroactive polymer coatings on steel.

In MSc thesis we try to inhibit the steel electrochemical corrosion with polymer nanocomposite coatings. The polymer matrix contain polyaniline as an electroactive polymer and Zn metal nanoparticles was applied as additive.  The nanocomposite coatings exhibited good anticorrosion performance. The field included courses such as preparation of polymer nanocomposites and electrochemical tests as CV and electrochemical impedance spectroscopy.

 

Bachelor of Science

Applied Chemistry, University of Tabriz, Tabriz-Iran, 2008-2011.

نمایش بیشتر

Conductivity and anticorrosion performance of polyaniline/zinc composites:Investigation of zinc particle size and distribution effect

AuthorsA Olad, M Barati, H Shirmohammadi
JournalPROG ORG COAT
Paper TypeFull Paper
Published At2011-7-01
Journal GradeScientific - research
Journal TypeElectronic
Journal CountryNetherlands
Journal IndexISI ,SCOPUS

Abstract

Polyaniline/zinc composites and nanocomposites were prepared using solution mixing method. Zinc (Zn) particles with an average particle size of 60μm and zinc nanoparticles with an average particle size of 35nm were used as fillers in polyaniline (PANI) matrix. Films and coatings of PANI/Zn composites and nanocomposites were prepared by the solution casting method. Electrical conductivity and anticorrosion properties of PANI/Zn composite and nanocomposite films and coatings with different zinc loadings were evaluated. According to the results, electrical conductivity and anticorrosion performances of both PANI/Zn composites and nanocomposites were increased by increasing the zinc loading. Also results showed that the PANI/Zn nanocomposite films and coatings have better electrical conductivity and corrosion protection effect on iron coupons compared to that of PANI/Zn composite.

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