Incorporating different vegetable oils into an aqueous dispersion of hybrid organic nanoparticles

Stanssens³

2015

Materials

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A synthesis route is presented for the subsequent intercalation, exfoliation and surface modification of kaolinite (Kln) by an imidization reaction of high-molecular weight poly(styrene-co-maleic anhydride) or SMA in the presence of ammonium hydroxide. In a first step, the intercalation of ammonolyzed SMA by guest displacement of intercalated dimethylsulfoxide has been proven. In a second step, the imidization of ammonolyzed SMA at 160 °C results in exfoliation of the kaolinite layers and deposition of poly(styrene-co-maleimide) or SMI nanoparticles onto the kaolinite surfaces. Compared with a physical mixture of Kln/SMI, the chemically reacted Kln/SMI provides more efficient exfoliation and hydrogen bonding between the nanoparticles and the kaolinite. The kaolinite nanocomposite particles are synthesized in aqueous dispersion with solid content of 65 wt %. The intercalation and exfoliation are optimized for a concentration ratio of Kln/SMI = 70:30, resulting in maximum intercalation and interlayer distance in combination with highest imide content. After thermal curing at 135 °C, the imidization proceeds towards a maximum conversion of the intermediate amic acid moieties. The changes in O–H stretching and kaolinite lattice vibrations have been illustrated by infrared and FT-Raman spectroscopy, which allow for a good quantification of concentration and imidization effects.

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Section: Resultssupporting

confidence: 81%

Kaolinite Nanocomposite Platelets Synthesized by Intercalation and Imidization of Poly(styrene-co-maleic anhydride)

Stanssens³

2015

Materials

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“…The presence of oil and SMI was recognized in the spectra: in particular, the imide moieties N-C ¼ O (1710 cm À1 ) have completely developed after drying with no remaining carboxylic groups (1860, 1780 cm À1 ). The present situation of nanoparticles with 70 wt.% PO differs from previous experiments where 50 wt.% oil was included (Samyn et al, 2012d). As the latter still showed the existence of remaining ammonolyzed groups, there was indeed further potential for reaction of additional oil as demonstrated in the present situation.…”

Section: Ftir Spectroscopycontrasting

confidence: 63%

Hybrid palm-oil/styrene-maleimide nanoparticles synthesized in aqueous dispersion under different conditions

Nieuwkerke

Journal of Microencapsulation

et al. 2015

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Poly(styrene-co-maleic anhydride) was imidized with ammonium hydroxide and palm oil, resulting in an aqueous dispersion of hybrid nanoparticles with diameters 85-180 nm (dispersed) or 20-50 nm (dried). The reaction conditions were optimized for different precursors by evaluating the relative amount ammonium hydroxide and maximizing the incorporated palm oil up to 70 wt.%. The interactions between palm oil and polymer phase have been studied by TEM, IR, Raman spectroscopy and thermal analysis (TGA, [TM] DSC). From Raman spectra, the amount of imide and reacted oil were quantified. Through concurring effects of imidization and coupling of fatty acids, the imidization needs a slight excess of NH3 relatively to maleic anhydride. The oxidative stability highly depends on oxidative crosslinking of free or non-reacted oil. Comparing the imide content from spectroscopic and thermal analysis suggests that a complex rigid imide phase without strong relaxation behavior has formed in combination with oil.

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“…The latter is further evidenced by a remaining fraction cyclic CAOAC anhydride (1850 cm À1 ) that completely disappeared for pure SMI. From a previous study comparing the reactivity of other oils, it is known that mono-or saturated oils were less reactive than polyunsaturated oils [38], which confirms that C@C acts as main reactive sites. In literature, different reaction mechanisms for SMA with plant oils are reported [39], while especially reactions between unsaturated bonds in fatty acids and maleic anhydride have been detailed [40].…”

Section: Detailed Interactions Between Oil and Organic Phasementioning

confidence: 75%

Synthesis of imidized nanoparticles containing soy oil under various reaction conditions

Nieuwkerke

European Polymer Journal

et al. 2015

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