Formulace a studium protimikrobního přípravku / Formulation and study of the antimicrobial agent

Valíková, Karolína

January 2015

Charles University in Prague Faculty of Pharmacy in Hradec Králové Department of Pharmaceutical Technology Candidate: Karolína Valíková Supervisor: doc. RNDr. Milan Dittrich, CSc. Diploma thesis title: Formulation and study of the antimicrobial agent A literary overview of selected characteristics of silver nanoparticles is presented in the diploma thesis. Size measurement methods are described, while considerable attention is paid to photon correlation spectroscopy (PCS), which was used in the experimental part of this diploma thesis. Various methods of silver nanoparticle synthesis are outlined. Later part of the text is focused on the application of silver nanoparticles in areas concerning human health - mainly for the purposes of medicine, disinfection and as components of cosmetic products. Possible toxic effects of silver nanoparticles on human organism are also discussed. The focus of the thesis is in the experimental part. Stability of microparticles in suspensions used for product formulation was studied, as well as the PCS instrument's capability to distinguish the size distribution of particles in aqueous medium in highly polydisperse systems and in highly diluted systems. It was proven that microparticles have a spontaneous ability to form flocks, nonionic surfactants in 0.1%...

Vliv molekulové hmotnosti a stupně větvení alifatických oligoesterů na jejich hydrolytickou degradaci / Influence of molecular mass and branching degree of aliphatic oligoesters on their hydrolytic degradation

Müllnerová, Veronika

January 2015

Charles Univerzity in Prague Faculty of Pharmacy in Hradec Králové Department of Pharmaceutical Technology Candidate: Veronika Müllnerová Consultant: Doc. RNDr. Milan Dittrich, CSc. Title of thesis: Impact of molecular weight and the grade of branching of aliphatic oligoesters on their hydrolytic degradation Theoretical part of the thesis deals with behavior, properties and applications of biodegradable polyesters, mainly copolymers of lactic and glycolic acid (PLGA). This part concerns degradation, erosion and release mechanism. Furthermore, it describes properties that influence the drug release kinetics from systems based on PLGA. The final section of theoretical part is focused on the in situ forming implants, whose carrier of active substance is biodegradable polyester. The experimental part analyzes the influence of different pH of the medium within physiologically common boundaries and also the influence of ionic force on the degree of swelling and polymer erosion. These degradation parameters have been studied on three potential polyester carriers of active substances - PLGA, M3 (terpolymer of lactic and glycolic acid with mannit) and T3 (terpolymer of lactic and glycolic acid with tripentaerythritol). Polymer bodies were kept in temperature of 37řC inside phosphate-citrate buffers with...

Estudo do efeito de nanopartículas de carbonato de cálcio, dióxido de titânio e óxido de zinco nas propriedades dos termoplásticos polietileno de baixa densidade linear e copoliéster alifático aromático, submetidos à radiação ultravioleta / Effect study of calcium carbonate, titanium dioxide and zinc oxide nanoparticles on linear low density polyethylene and aliphatic - aromatic copolyester thermoplastics properties subjected to ultraviolet radiation

Poveda, Patricia Negrini Siqueira

27 May 2015

De modo geral, os materiais termoplásticos são sensíveis à radiação ultravioleta (UV), a qual provoca mudanças em suas estruturas químicas, afetando suas propriedades, principalmente as mecânicas, e características de aparência. A radiação ultravioleta (10-400 nm), em especial na faixa entre 290- 400 nm, é bastante agressiva aos materiais plásticos resultando na quebra de cadeias e/ou reticulação. Para aplicações agrícolas, são fatores críticos para envelhecimento: a radiação solar total, temperatura, umidade relativa do ar, esforço mecânico, presença de agroquímicos, poluição do ar e a combinação desses fatores. Os aditivos estabilizantes de luz são adicionados aos plásticos para aumentar a durabilidade do produto final. Existem diversos sistemas estabilizantes de luz, desenvolvidos de acordo com a resina, aplicação final, tipo de cultivo e outras características. Além dos estabilizantes convencionais, como por exemplo, benzofenona, benzotriazol e as moléculas do tipo aminas estericamente bloqueadas (HALS), existem também aditivos inorgânicos baseados em nanotecnologia. Este estudo avalia diferentes sistemas de aditivos: HALS, nano carbonato de cálcio (nCaCO3 ou NPCC), nano óxido de zinco (nZnO) e nano dióxido de titânio (nTiO2), aplicados a 0,25 % e 0,75 % (em massa) em polietileno de baixa densidade linear (PEBDL) e copoliéster alifático aromático. As amostras foram envelhecidas em QUV-B simulando 6 meses de exposição à intempérie. Foram realizados testes de resistência à tração, termogravimetria (TG), calorimetria exploratória diferencial (DSC), índice de carbonila, espectroscopia na região do infravermelho com transformada de Fourier (FT-IR), microscopia eletrônica de varredura (MEV), microscopia de força atômica (AFM) e espectroscopia de absorção na região de ultravioleta e visível (UV-VIS). As propriedades das amostras não envelhecidas foram comparadas as envelhecidas para avaliar o desempenho dos vários sistemas de aditivos sobre o comportamento da degradação das amostras. Como resultado deste estudo, concluiu-se que há viabilidade da aplicação de nanopartículas como aditivos estabilizantes de luz (anti-UV), em especial o nZnO. Contudo, a aditivação do tipo HALS ainda mostrou-se mais eficaz, considerando os polímeros, sistemas de aditivação e proporções utilizadas. / Usually, the thermoplastic materials are sensitive to ultraviolet radiation (UV), which produces changes in their chemical structures, affecting their mechanical properties and appearance characteristics. Ultraviolet radiation (10- 400 nm), in particular range between 290-400 nm, is extremely aggressive to plastic materials resulting in breaking chains and/or crosslinking. For agricultural applications, are critical factors for aging: the total solar radiation, temperature, air relative humidity, mechanical stress, agrochemicals presence, air pollution, and combinations of these factors. Light stabilizers additives are added to plastics to increase the durability of the final product. There are several light stabilizers systems, developed according with the resin, final application, the type of plantation and other factors. In addition to the conventional stabilizers, such as benzophenone, benzotriazole and molecules like hindered amine light stabilizer (HALS), there are also inorganic additives based on nanotechnology. This study evaluates different additive systems: hindered amine light stabilizer (HALS), nano calcium carbonate (nCaCO3 or NPCC), nano zinc oxide (nZnO) and nano titanium dioxide (nTiO2), applied 0.25 % and 0.75 % (in mass) in linear low density polyethylene (LLDPE) and aliphatic-aromatic copolyester. The samples were aged in QUV-B simulating 6 months of exposure to weather. Tests of tensile strength, thermogravimetry (TG), differential scanning calorimetry (DSC), carbonyl index, spectroscopy in the infrared Fourier transform (FT-IR), scanning electron microscopy (SEM), force microscopy atomic (AFM) and absorption spectroscopy in the ultraviolet and visible region (VIS-UV) were carried out. The properties of non aged samples were compared with aged samples in order to evaluate the performance of various additive systems on behavior of samples degradation. As result of this study, it was concluded that there is viability of nanoparticles application as light stabilizers additives (anti-UV), in particular the nZnO. However, the properties of HALS still showed to be more effective, considering the polymers, additives systems and proportions used.

aliphatic-aromatic copolyester

copoliéster alifático aromático

nanoparticle

nanopartícula

polietileno de baixa densidade linear

polyethylene

ultraviolet

ultravioleta

Estudo do efeito de nanopartículas de carbonato de cálcio, dióxido de titânio e óxido de zinco nas propriedades dos termoplásticos polietileno de baixa densidade linear e copoliéster alifático aromático, submetidos à radiação ultravioleta / Effect study of calcium carbonate, titanium dioxide and zinc oxide nanoparticles on linear low density polyethylene and aliphatic - aromatic copolyester thermoplastics properties subjected to ultraviolet radiation

Patricia Negrini Siqueira Poveda

27 May 2015

De modo geral, os materiais termoplásticos são sensíveis à radiação ultravioleta (UV), a qual provoca mudanças em suas estruturas químicas, afetando suas propriedades, principalmente as mecânicas, e características de aparência. A radiação ultravioleta (10-400 nm), em especial na faixa entre 290- 400 nm, é bastante agressiva aos materiais plásticos resultando na quebra de cadeias e/ou reticulação. Para aplicações agrícolas, são fatores críticos para envelhecimento: a radiação solar total, temperatura, umidade relativa do ar, esforço mecânico, presença de agroquímicos, poluição do ar e a combinação desses fatores. Os aditivos estabilizantes de luz são adicionados aos plásticos para aumentar a durabilidade do produto final. Existem diversos sistemas estabilizantes de luz, desenvolvidos de acordo com a resina, aplicação final, tipo de cultivo e outras características. Além dos estabilizantes convencionais, como por exemplo, benzofenona, benzotriazol e as moléculas do tipo aminas estericamente bloqueadas (HALS), existem também aditivos inorgânicos baseados em nanotecnologia. Este estudo avalia diferentes sistemas de aditivos: HALS, nano carbonato de cálcio (nCaCO3 ou NPCC), nano óxido de zinco (nZnO) e nano dióxido de titânio (nTiO2), aplicados a 0,25 % e 0,75 % (em massa) em polietileno de baixa densidade linear (PEBDL) e copoliéster alifático aromático. As amostras foram envelhecidas em QUV-B simulando 6 meses de exposição à intempérie. Foram realizados testes de resistência à tração, termogravimetria (TG), calorimetria exploratória diferencial (DSC), índice de carbonila, espectroscopia na região do infravermelho com transformada de Fourier (FT-IR), microscopia eletrônica de varredura (MEV), microscopia de força atômica (AFM) e espectroscopia de absorção na região de ultravioleta e visível (UV-VIS). As propriedades das amostras não envelhecidas foram comparadas as envelhecidas para avaliar o desempenho dos vários sistemas de aditivos sobre o comportamento da degradação das amostras. Como resultado deste estudo, concluiu-se que há viabilidade da aplicação de nanopartículas como aditivos estabilizantes de luz (anti-UV), em especial o nZnO. Contudo, a aditivação do tipo HALS ainda mostrou-se mais eficaz, considerando os polímeros, sistemas de aditivação e proporções utilizadas. / Usually, the thermoplastic materials are sensitive to ultraviolet radiation (UV), which produces changes in their chemical structures, affecting their mechanical properties and appearance characteristics. Ultraviolet radiation (10- 400 nm), in particular range between 290-400 nm, is extremely aggressive to plastic materials resulting in breaking chains and/or crosslinking. For agricultural applications, are critical factors for aging: the total solar radiation, temperature, air relative humidity, mechanical stress, agrochemicals presence, air pollution, and combinations of these factors. Light stabilizers additives are added to plastics to increase the durability of the final product. There are several light stabilizers systems, developed according with the resin, final application, the type of plantation and other factors. In addition to the conventional stabilizers, such as benzophenone, benzotriazole and molecules like hindered amine light stabilizer (HALS), there are also inorganic additives based on nanotechnology. This study evaluates different additive systems: hindered amine light stabilizer (HALS), nano calcium carbonate (nCaCO3 or NPCC), nano zinc oxide (nZnO) and nano titanium dioxide (nTiO2), applied 0.25 % and 0.75 % (in mass) in linear low density polyethylene (LLDPE) and aliphatic-aromatic copolyester. The samples were aged in QUV-B simulating 6 months of exposure to weather. Tests of tensile strength, thermogravimetry (TG), differential scanning calorimetry (DSC), carbonyl index, spectroscopy in the infrared Fourier transform (FT-IR), scanning electron microscopy (SEM), force microscopy atomic (AFM) and absorption spectroscopy in the ultraviolet and visible region (VIS-UV) were carried out. The properties of non aged samples were compared with aged samples in order to evaluate the performance of various additive systems on behavior of samples degradation. As result of this study, it was concluded that there is viability of nanoparticles application as light stabilizers additives (anti-UV), in particular the nZnO. However, the properties of HALS still showed to be more effective, considering the polymers, additives systems and proportions used.

copoliéster alifático aromático

nanopartícula

polietileno de baixa densidade linear

ultravioleta

aliphatic-aromatic copolyester

nanoparticle

polyethylene

ultraviolet

"Metodologia para determinação de biomarcadores geoquímicos orgânicos em sedimentos - Hidrocarbonetos Alifáticos e Aromáticos, Esteróis e Alquenonas" / "Methodology for determination of organic geochemistry biomarkers in sediment - Aliphatic hydrocarbons, PAHs, Sterols and Alkenones"

Lourenço, Rafael André

18 June 2003

O destino de grande parte da matéria orgânica presente nos oceanos é o sedimento marinho. Essa matéria orgânica, que vai sendo armazenada ao longo dos anos, produz uma reserva única de informações sobre os processos biogeoquímicos ocorridos no passado e como esses processos responderam às mudanças ambientais. Certas moléculas orgânicas são sintetizadas apenas por organismos marinhos ou somente por plantas superiores terrestres. A abundância relativa desses compostos em sedimentos marinhos pode ser usada para determinar a contribuição de matéria orgânica terrestre ou marinha que foi depositada. Outros compostos, cujas fontes naturais são raras ou inexistem, encontrados em sedimentos, refletem a influência antrópica no meio. Há ainda compostos, com origem biológica especifica, cujas estruturas são influenciadas pelo controle enzimático dos organismos que os produzem, que são influenciados pelo meio. Esses compostos, cuja presença pode fornecer evidências inequívocas da sua fonte ou informações sobre condições oceanográficas recebem o nome de marcadores biológicos e são comumentemente abreviados como biomarcadores. Esse trabalho produziu uma metodologia analítica para identificação e quantificação de biomarcadores como os hidrocarbonetos alifáticos, hidrocarbonetos policíclicos aromáticos, esteróis e alquenonas através de uma única extração lipídica. Essa metodologia foi avaliada por diversos critérios analíticos e validada através de materiais de referência e de exercícios de comparação entre laboratórios. A metodologia foi aplicada em um testemunho de sedimento marinho obtido em Cabo Frio. A quantificação das alquenonas nas amostras do testemunho permitiu estimar a variação da temperatura da superfície oceânica ao longo dos anos e correlacioná-la com variações na intensidade da ressurgência, além de permitir verificar como os demais biomarcadores variaram em função da variação da temperatura do meio onde foram sintetizados. / The fate of most organic matter in the oceans is the marine sediment. This preserved organic matter became an unique reservoir of information about the operation of biogeochemical processes in the geological past, and how these processes responded to environmental changes. Some molecules are only synthesized by sea organisms, others only by higher plants. The relative abundance among these compounds in sea sediments can be used to determine the source of the organic matter. Other organic compounds, without natural sources, are an indicative of anthropogenic influence. The marine sediment also can accumulate compounds with the specific biological sources, which structures are influenced by the enzymatic control of the precursor organisms. All of these compounds, which can provide clear evidences of its sources or information about oceanographic conditions, are called biological markers or biomarkers. The present work put out an analytic method to identify and quantify biomarkers like aliphatic hydrocarbons, PAHs, sterols and alkenones with only one lipidic extraction. This method was evaluated by several analytic criteria and validated by reference material and by interlaboratory comparison study. The method was used to analyze a marine sediment core from Cabo Frio. The alkenones quantification in this core allowed not only appreciate changes in the sea surface temperature (SST) along the years and correlate them with changes in the upwelling, but also verify how the other biomarkers responded to SST changes.

aliphatic hydrocarbons

alkenones

alquenonas

biomarcadores

biomarkers

esteróis

hidrocarbonetos alifáticos

PAHS

PAHs

paleotemperaturas

paleotemperatures

sterols

UK37

UK37

Agronomic and phytochemical aspects of cilantro and stevia crops / Aspectos agronômicos e fitoquímicos das culturas de coentro e estévia

Donegá, Mateus Augusto

17 December 2013

The market of medicinal plants and herbs such as cilantro (Coriandrum sativum) and stevia (Stevia rebaudiana) has been growing due to the demand of the food, chemical and pharmaceutical industries. Leaves of C. sativum are used by many countries in the preparation of food and in folk medicine. The essential oil from the leaves has potential for use in the food industry as an antimicrobial agent and as a condiment to mask undesirable odors and flavors. Studies were conducted to evaluate the activity of the essential oil of cilantro against Leishmaniasis, and the results showed that the essential oil and its major compounds inhibited the growth of L. donovani in its different forms, indicating potential use of this plant for the production of new drugs against Leishmaniasis. From these results, another study was conducted to evaluate five materials of cilantro, a cultivar and four germplasm accessions from the North American Department of Agriculture regarding the quality of the raw material for the food and pharmaceutical industries. The materials with the highest potential to use were AMES 18596 and PI193770 for producing larger amount of dry biomass and the highest production of major compounds, which are desirable by industries. Stevia is a species with high potential to be consumed by diabetics and obese, it is a source of diterpene glycosides used as natural sweeteners. Sweeteners derived from stevia are ingredients in the production of foods, juices and soft drinks in Asia, Europe and in the Americas. The compounds responsible for the sweetness of stevia leaves are well characterized in the literature. However, good agronomic practices are still poorly studied. Some countries have worked on improving this culture and have achieved cultivars with higher yield. In the area of plant nutrition, calcium is one of the most important nutrients for the production of biomass and stevioside in stevia plants. Thus, a preliminary study was conducted to test the effect of calcium applied in nutrient solution in stevia yield, and stevioside and rebaudioside in hydroponic system. The leaf, stem and shoot biomass yield, by stevia plants were influenced by Ca rates in nutrient solutions and were maximal with 7.0, 5.7, 6.2 mmol L-1 of Ca, respectively. The production of stevioside and rebaudioside A was maximal with addition of 4.0 mmol of Ca L-1. / O mercado de plantas medicinais, condimentares e aromáticas tais como coentro (Coriandrum sativum) e estévia (Stevia rebaudiana) vêm crescendo devido à demanda das indústrias alimentícias, químicas e farmacêuticas. As folhas C. sativum são utilizadas por diversos países no preparo de alimentos e na medicina popular. O óleo essencial das folhas tem potencial para utilização na indústria de alimentos como agente antimicrobiano e como condimento para mascarar cheiros e sabores indesejáveis. Estudos foram realizados para avaliar a atividade do óleo essencial de coentro contra a leishmaniose, e os resultados revelaram que o óleo essencial e seus compostos majoritários inibiram o crescimento L. donovani em suas diferentes formas, indicando potencial de uso dessa planta para a produção de novos medicamentos contra Leishmaniose. A partir desses resultados, outro estudo foi realizado com o objetivo de avaliar cinco materiais de coentro, uma cultivar e quatro acessos do germoplasma do Departamento de Agricultura norte americano quanto à qualidade da matéria prima para as indústrias de alimentos e farmacêuticas. Os materiais variaram entre si quanto à produção de biomassa, acúmulo de nutrientes e produção de aldeídos alifáticos tais como (E)- 2-decenal, (E)- 2-dodecenal. Os materiais que apresentaram maior potencial de uso foram AMES 18596 e PI193770, pois, produziram maior quantidade de massa seca e produção de compostos majoritários, que são os desejáveis pelas indústrias. Quanto à estévia, essa espécie apresenta elevado potencial para ser usado por pessoas diabéticas e obesas, pois é fonte de diterpenos glicosídicos usados como adoçantes naturais. Os adoçantes derivados de estévia são usados na produção de alimentos, sucos e refrigerantes em diversos países asiáticos, europeus e no continente americano. Os compostos responsáveis pelo dulçor das folhas de estévia são bem caracterizados pela literatura, entretanto, as boas práticas agronômicas ainda são pouco estudadas. Alguns países trabalharam no melhoramento dessa cultura e conseguiram alcançar cultivares mais produtivas. Na área de nutrição, o cálcio está entre os nutrientes mais importantes para a produção de esteviosídeo e produção de biomassa de estévia. Assim, um estudo preliminar foi conduzido com o objetivo de estudar o efeito do cálcio aplicado em solução nutritiva na produção de estévia, e de esteviosídeos e rebaudiosídeos, em sistema hidropônico. A produção de folhas, caule e parte aérea por plantas de estévia foi influenciada por níveis de Ca na solução nutritiva e foram máximos com as doses de 7,0, 5,7, 6,2 mmol L-1 de Ca, respectivamente. A produção de esteviosídeo e rebaudiosídeo A foi máxima com a adição de 4,0 mmol L-1 de Ca.

Coriandrum sativum

Stevia rebaudiana

Aldeídos alifáticos

Aliphatic aldehydes

Coriandrum sativum

Esteviol glicosídicos

Stevia rebaudiana

Steviol glycosides

Síntese de novos adutos de lapachol com aminas alifáticas

LITIVACK JÚNIOR, José Torres

31 August 2009

Submitted by (lucia.rodrigues@ufrpe.br) on 2017-02-15T12:46:59Z No. of bitstreams: 1 Jose Torres Litivack Junior.pdf: 1021307 bytes, checksum: 23166bc9966fb074f01ede1fa2f5f5bd (MD5) / Made available in DSpace on 2017-02-15T12:46:59Z (GMT). No. of bitstreams: 1 Jose Torres Litivack Junior.pdf: 1021307 bytes, checksum: 23166bc9966fb074f01ede1fa2f5f5bd (MD5) Previous issue date: 2009-08-31 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / In this work a series of novel lapachol adducts with aliphatic primary amines were synthesized. These amines included 2-aminoethanol, 3-amino-1-propanol, 2- methoxy-ethylamine, 3-methoxy-propylamine, n-butylamine and glycine. All reactions were performed under ambient temperature and without solvents. The newly products with unique structures were characterized by IR and UV spectroscopy and 1H and 13C NMR with bi-dimensional techniques. A possible mechanism was proposed based on the ability of the quinones to react as radical species, where a initially formed imine act as a nucleophile with a second molecule of lapachol, and this primary adduct results in observed products under the oxidant conditions used in reaction. To test this hypothesis the reaction was conducted in inert atmosphere or in the presence of an antioxidant (BHT), and the reaction mixture behaves differently, as expected. / Neste trabalho foi sintetizada uma série de novos adutos do lapachol com aminas alifáticas primárias. Entre as aminas estão o 2-amino etanol, o 3-amino-1- propanol, a 2-metoxi-etilamina, o 3-metoxi-propilamina, a n-butilamina e a glicina. Todas as reações foram realizadas sob temperatura ambiente e sem solvente. Os novos produtos de estrutura inédita foram caracterizados por infravermelho, espectroscopia UV, RMN 1H e 13C, incluindo técnicas bidimensionais. Um possível mecanismo foi proposto baseado na capacidade das quinonas reagirem como espécies radicalares, onde a imina inicialmente formada atua como nucleófilo com uma segunda molécula de lapachol, resultando em um aduto primário que se converte nos produtos observados nas condições oxidantes utilizadas na reação. Para testar essa hipótese, a reação foi conduzida em atmosfera inerte ou na presença de um antioxidante (BHT), onde a mistura reagente se comportou de forma diferente, como esperado.

Aminas alifáticas

lapachol

Quinomas

lapachol

Aliphatic primary amines

CIENCIAS EXATAS E DA TERRA::QUIMICA

Comparison of indigenous and bioaugmented butane and propane-utilizers for transforming 1,1,1-trichloroethane in Moffett Field microcosms

Jitnuyanont, Pardi

12 December 1997

Graduation date: 1998

Bacteria -- Metabolism

Aliphatic compounds -- Biodegradation

Trichloroethane -- Metabolism

Macromolecular Engineering of Cyclic Aliphatic Polyesters

Li, Haiying

25 January 2007

Summary of the thesis This works aims at reporting a novel strategy that combines controlled ring-opening polymerization of lactones initiated by a cyclic tin(IV) dialkoxide and intramolecular cyclization by photo-cross-linking of pendant unsaturations next to the propagating sites. No linear species is ever involved in the polymerization, which allows higher molecular weight macrocycles to be prepared with high efficiency. Moreover, the synthetic route is very flexible to the point where macrocyclic polyesters with more complex although well-defined architectures, such as tadpole-shaped and sun-shaped copolyesters, can be tailored. Synthesis of well-defined star- and eight-shaped polyesters and twin tadpole-shaped amphiphilic copolymers has also been explored by using a spirocyclic tin(IV) alkoxide as initiator.

twin tadpole-shaped copolymers

tadpole-shaped copolymers

sun-shaped copolymers

aliphatic polyesters

macrocycles

ring-opening polymerization

Synthesis and characterization of biodegradable poly(butylene succinate) copolyesters

Chen, Chi-He

30 August 2010

Three series copolyesters [poly(butylene succinate-co-propylene succinate) (PBPSu), poly(butylene succinate-co-2-methyl-1,3-propylene succinate) (PBMPSu) and poly(ethylene succinate-co-butylene succinate) (PEBSu)] and their homopolyesters [poly(butylene succinate) (PBSu), poly(ethylene succinate) (PESu), poly(propylene succinate) (PPSu) and poly(2-methyl-1,3-propylene succinate) (PMPSu)] were synthesized by a two-step reaction (esterification and polycondensation) with titanium tetraisopropoxide as the catalyst. Molecular weights of all synthesized polyesters were determined by intrinsic viscosity and gel permeation chromatography (GPC) measurements. The values of intrinsic viscosity (0.97 ~ 1.62 dL/g) and relative molecular weight (2.4x10000 ~ 11.9x10000 g/mol) indicate that these polyesters can be made into films without complications. Compositions and sequence distributions of copolyesters were determined by analyzing the spectra of 1H NMR and 13C NMR. The randomness values of these copolyesters are closed to 1.0 that represents random sequence distribution of the comonomers. Thermal properties and stabilities were characterized using differential scanning calorimeter (DSC) and thermogravimetric analyzer (TGA), respectively. All copolyesters exhibited a single glass transition temperature (Tg). For PBPSu copolyesters, incorporating propylene succinate units to PBSu not only narrows the window between Tg and melting temperature (Tm), but also retards the cold crystallization ability, thereby lowering the crystallinity to a considerable extent. This phenomenon also occurred in PBMPSu and PEBSu copolyesters when the 2-methyl-1,3-propylene succinate (MPS) and butylene succinate (BS) units were incorporated into PBSu and PESu, respectively. Tstart is the temperature of first detectable deviation from the derivative curve of weight loss. Tstarts of all synthesized polyesters around 240 £jC, higher than the temperature of polycondensation reaction (220 £jC), demonstrates that there is no necessity of using a thermal stabilizer during the synthesis of these polyesters. Additionally, the thermal stability does not vary significantly with compositions in the same series polyester. Wide-angle X-ray diffractograms (WAXDs) at room temperature were obtained from polyesters crystallized isothermally at a temperature around 5-20 £jC below their melting temperatures. WAXD patterns of two series polyesters elucidated that the incorporation of PS or MPS units into PBSu markedly inhibits the crystallization behavior of PBSu. The phenomenon also occurred in PEBSu copolyesters when BS units were incorporated into PESu. Results of WAXD and DSC measurements showed that PMPSu is a amorphous polyester. The retarding effect on crystallization by methyl substituents on the polymer chain is efficient.

3-propylene succinate)

aliphatic polyester

copolyesters

poly(butylene succinate)

poly(2-methyl-1

polycondensation