Abstract
In this work, bio-oil (an organic matrix rich in oxygen functionalities) was used to efficiently dissolve and disperse Fe3+ which upon thermal treatment produced a carbon containing dispersed and encapsulated Fe oxide magnetic nanoparticles. These materials were prepared by dissolution of 8, 16 and 24 wt.% Fe3+ salt in bio-oil followed by treatment at 400, 450, 500 or 600 oC in N2 atmosphere. X-ray diffraction (XRD), scanning (SEM) and transmission electron microscopies (TEM), elemental analysis, thermogravimetric-mass spectrometry (TG-MS), potentiometric titration, Raman and Mossbauer spectroscopies showed that Fe3+ species in bio-oil is reduced to produce magnetic nanoparticles phases: magnetite Fe3O4 and maghemite γ-Fe2O3. At low temperatures, the iron phases were less protected, and the carbon matrix was more reactive, while in temperatures above 500 oC, the iron phases were more stable, however, the carbon matrix was less reactive. Reaction of these magnetic carbon materials with concentrated H2SO4 produced surface sulfonic acidic sites (ca. 1 mmol g-1), especially for the materials obtained at 400 and 450 oC. The materials were used as catalysts on esterification reaction of oleic acid with methanol at 100 oC and conversions of 90% were reached, however, after 2 consecutive uses, the conversion decreased to 30%, being required more studies to improve the material stability.
Highlights
Bio-oil is a renewable and low-cost feedstock, which is generated by biomass flash pyrolysis.[1,2] It is composed by water, alcohols, furans, acids, ketones, carbohydrates,[3] and usually have highly oxygenated large carbon structures.[4,5] These oxygen groups are considered undesirable since they bring some properties such as acidity, corrosion and thermal instability.[6]
Previous GC-Mössbauer spectra (MS) and 1H nuclear magnetic resonance (NMR) characterization of bio-oil showed a complex matrix composed of syringols, phenols, carboxylic acids, aldehydes, ketones, alcohols and a heavier fraction containing oligomers with different oxygen functionalities.[16]
It is interesting to observe that Fe(NO3)[3] could be well solubilized in rather hydrophobic organic matrix bio-oil
Summary
Bio-oil is a renewable and low-cost feedstock, which is generated by biomass flash pyrolysis.[1,2] It is composed by water, alcohols, furans, acids, ketones, carbohydrates,[3] and usually have highly oxygenated large carbon structures.[4,5] These oxygen groups are considered undesirable since they bring some properties such as acidity, corrosion and thermal instability.[6]. It is described the sulfonation of these carbons, which showed reactivity dependent of thermal treatment temperature to produce magnetic acid materials which have potential application in acid-catalyzed reactions.[23] They can be used in hydrogenation,[24] photocatalysis,[25] Mapping and energy-dispersive X-ray spectroscopy (EDS) (Figure S4, SI section) analyses showed that iron was leached by sulfuric acid indicating that the carbon formed did not encapsulate/ protect the Fe oxide particles.
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