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Derivatização de polimetacrilatos comerciais: preparação e caracterização de novos suportes químicos e bioquímicos oriundos da alilamina / Derivatization of the commercial poly(methyl methacrylate): preparation and characterization of the new chemicals and biochemicals supports from allylamineManoel Marcos da Costa 12 July 2008 (has links)
Esta dissertação avaliou a reação de amidação de poli(metacrilato de metila) (PMMA) comercial de massa molecular de 90000 g/mol (determinado por viscosimetria) com alilamina. A reação foi estudada a temperatura ambiente e sob refluxo. A reação apresentou baixos índices de conversão, 0,5 %, tanto após 24 dias, a temperatura ambiente, quanto sob refluxo por 2 horas. Experimentos executados sob refluxo por períodos maiores apresentaram diminuição no índice de conversão. Todos os experimentos foram acompanhados pela análise elementar e FT-IR e RMN-1H. O material derivatizado foi epoxidado pelo tratamento com ácido m-cloro-perbenzóico (AMCPB) seguido de tratamento com ácido periódico gerado in situ (NaIO4/HCl). Todos os produtos preparados foram submetidos à análise térmica apresentando, em sua maioria, um aumento na Tg relativa ao PMMA / This dissertation valued the reaction of amidation of the commercial poly(methyl methacrylate)(PMMA) of molecular mass of 90000 g/mol (determinated by viscosimetric method) with allylamine. The reaction was studied the room temperature and reflux. The reaction there presented low rates of conversion, 0,5 %, so much after 24 days the room temperature all that under reflux for 2 hours. Experiments executed under reflux for bigger periods presented reduction in the conversion rate. All the experiments were accompanied by the elementary analysis and FT-IR and NMR-1H. The material derivatizated was epoxidated for the treatment with m-chloro-perbenzoic acid following of treatment with periodic acid produced in situ (NaIO4/HCl). All the prepared products were subjected the thermal analysis presenting, in his majority, an increase in the relative Tg to the PMMA
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Derivatização de polimetacrilatos comerciais: preparação e caracterização de novos suportes químicos e bioquímicos oriundos da alilamina / Derivatization of the commercial poly(methyl methacrylate): preparation and characterization of the new chemicals and biochemicals supports from allylamineManoel Marcos da Costa 12 July 2008 (has links)
Esta dissertação avaliou a reação de amidação de poli(metacrilato de metila) (PMMA) comercial de massa molecular de 90000 g/mol (determinado por viscosimetria) com alilamina. A reação foi estudada a temperatura ambiente e sob refluxo. A reação apresentou baixos índices de conversão, 0,5 %, tanto após 24 dias, a temperatura ambiente, quanto sob refluxo por 2 horas. Experimentos executados sob refluxo por períodos maiores apresentaram diminuição no índice de conversão. Todos os experimentos foram acompanhados pela análise elementar e FT-IR e RMN-1H. O material derivatizado foi epoxidado pelo tratamento com ácido m-cloro-perbenzóico (AMCPB) seguido de tratamento com ácido periódico gerado in situ (NaIO4/HCl). Todos os produtos preparados foram submetidos à análise térmica apresentando, em sua maioria, um aumento na Tg relativa ao PMMA / This dissertation valued the reaction of amidation of the commercial poly(methyl methacrylate)(PMMA) of molecular mass of 90000 g/mol (determinated by viscosimetric method) with allylamine. The reaction was studied the room temperature and reflux. The reaction there presented low rates of conversion, 0,5 %, so much after 24 days the room temperature all that under reflux for 2 hours. Experiments executed under reflux for bigger periods presented reduction in the conversion rate. All the experiments were accompanied by the elementary analysis and FT-IR and NMR-1H. The material derivatizated was epoxidated for the treatment with m-chloro-perbenzoic acid following of treatment with periodic acid produced in situ (NaIO4/HCl). All the prepared products were subjected the thermal analysis presenting, in his majority, an increase in the relative Tg to the PMMA
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Aspects of amidization of chitosanToffey, Ackah 06 June 2008 (has links)
The intent of this research was to develop an understanding of an amidized chitosan-from-chitosan regeneration process discovered in our laboratory. In this study several characterization methods including DMTA, TMA, TGA, X-ray diffraction, FTIR, solid state CP-MAS ¹³C NMR, and HPLC were used to study the transformation of various ionic complexes of chitosan (N-acylate) to their respective N-acyl homologs of chitosan; and several properties of these materials were examined. DMTA and TMA provided information on changes in T<sub>g</sub> as well as modulus-changes and glass formation underlying the transformation of the N-acylate to the N-acyl derivative. X-ray diffraction and FTIR shed some insights on the morphology of the N-acetyl homolog of chitosan in relation to native chitin. Solid state CP-MAS ¹³C NMR provided evidence of the conversion of N-acylate to N-acetyl. Enzymatic hydrolysis of native chitin and amidized chitosan homologs and subsequent identification of fractions by HPLC allowed a comparison of various amidized chitosan homologs in terms of their recognition and degradation by chitinolytic enzymes.
Solid state CP-MAS ¹³C showed that the heat treatment of the ionic complex of chitosan results in thermal dehydration leading to the formation of the N-acetyl group at the C-2 of chitin. The DS of amidized chitosan varied between 0.1 and 0.6. T<sub>g</sub>-changes with time and heating temperature were used as a variable to monitor amidization. Kinetics analysis indicated that the amidization of various ionic complexes of chitosan is a first order, two-phase process with activation energies of 14±1 kcal/mol and 21±2 kcal/mol for the first and second phase, respectively. These values did not vary with the type of acid used in the formation of the chitosan complex. This two-phase behavior is explained with the influence of vitrification on chain mobility.
In situ DMTA was found to be a suitable technique for monitoring the phase transformation of chitosonium acetate and chitosonium propionate from a rubbery to a glassy phase (vitrification). Consequently, the concept of TTT-cure diagram analysis was used to describe such phase changes and map out vitrification and full cure curves. As in thermosets, the vitrification curve describing glass formation in these materials is S-shaped. The time to full cure decreased with increasing heating temperature. The activation energy for vitrification is the same irrespective of the type of acid used in the preparation of chitosan complex.
Thermal analysis revealed that the T<sub>g</sub> of N-acyl homologs of chitin displays a stepwise relationship with length of N-acyl substituent. These materials are characterized by two transitions designated as β- and α-relaxation. Additionally, enzymatic hydrolysis of N-acyl homologs of chitosan using an enzyme mixture of chitinase, chitosanase, and β-N-acetylglucosaminidase and subsequent identification of fractions revealed that these enzymes recognize and degrade chitin irrespective of the N-acyl substituent at the C-2 position of chitin at any DS. / Ph. D.
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