Amphiphilic magnetic composites based on layered vermiculite and fibrous chrysotile with carbon nanostructures: Application in catalysis

[Display omitted] ► Vermiculite and chrysotile are used to produce composites with carbon nanostructures. ► These composites show special amphiphilic and magnetic properties. ► The composites show remarkable effect on biodiesel synthesis and oil hydrolysis. This work describes the synthesis and cata...

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Published inCatalysis today Vol. 190; no. 1; pp. 133 - 143
Main Authors Teixeira, Ana Paula C., Purceno, Aluir D., Barros, Aline S., Lemos, Bruno R.S., Ardisson, José D., Macedo, Waldemar A.A., Nassor, Evelisy C.O., Amorim, Camila C., Moura, Flávia C.C., Hernández-Terrones, Manuel G., Portela, Flaysner M., Lago, Rochel M.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.08.2012
Subjects
Amphiphilic
Biodiesel
carbon
Carbon nanofibers
carbon nanotubes
catalytic activity
Chrysotile
clay
cobalt
contact angle
emulsifying
hydrogenation
hydrolysis
hydrophobicity
iron
magnetic properties
magnetic separation
nanofibers
oxides
soybean oil
vapors
Vermiculite
wastewater treatment
Carbon nanofibers
Amphiphilic
Chrysotile
Biodiesel
Vermiculite
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Summary:[Display omitted] ► Vermiculite and chrysotile are used to produce composites with carbon nanostructures. ► These composites show special amphiphilic and magnetic properties. ► The composites show remarkable effect on biodiesel synthesis and oil hydrolysis. This work describes the synthesis and catalytic applications of magnetic composites based on carbon nanotubes and nanofibers prepared by CVD (chemical vapor deposition) using two natural materials with special morphology, i.e. layered vermiculite clay and fibrous chrysotile. Extensive characterization by XRD, Mössbauer, Raman, SEM, TEM, TG/DTA, contact angle showed that the composites are made mainly of carbon nanotubes and nanofibers fixed on the surface of the layered or fibrous matrix containing also carbon coated iron or cobalt cores responsible for the magnetic properties of the composites. The combination of hydrophilic Si and Al oxides surface with the hydrophobic carbon nanostructure produced amphiphilic materials with remarkable effect on the interaction and separation of two phases system, e.g. oil and water. For example, immiscible oil/water mixtures can be easily emulsified in the presence of the amphiphilic composites producing a much more efficient interface. It is demonstrated that this emulsification is very important for the biodiesel synthesis and hydrolysis of soybean oil. After reaction, the emulsion can be easily broken by a simple magnetic separation process. This emulsion–demulsification process can be also used for biodiesel purification and wastewater treatment. The composites are also used to prepare a magnetically recoverable supported Pd catalyst for the hydrogenation of the model molecule 1,5-COD.
Bibliography:http://dx.doi.org/10.1016/j.cattod.2012.01.042
ISSN:0920-5861
1873-4308
DOI:10.1016/j.cattod.2012.01.042