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141	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 N.S. 07 August 2015 (has links) Submitted by Claudinei Pracidelli (cpracide@ipen.br) on 2015-08-07T14:31:04Z No. of bitstreams: 0 / Made available in DSpace on 2015-08-07T14:31:04Z (GMT). No. of bitstreams: 0 / Tese (Doutorado em Tecnologia Nuclear) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP NANOSTRUCTURES PARTICLES CALCIUM CARBONATES TITANIUM OXIDES ZINC OXIDES POLYETHYLENES DENSITY AROMATICS COPOLYMERS POLYESTERS THERMOPLASTICS ULTRAVIOLET RADIATION THERMAL GRAVIMETRIC ANALYSIS
142	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 N.S. 07 August 2015 (has links) Submitted by Claudinei Pracidelli (cpracide@ipen.br) on 2015-08-07T14:31:04Z No. of bitstreams: 0 / Made available in DSpace on 2015-08-07T14:31:04Z (GMT). No. of bitstreams: 0 / 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. / Tese (Doutorado em Tecnologia Nuclear) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP nanostructures particles calcium carbonates titanium oxides zinc oxides polyethylenes density aromatics copolymers polyesters thermoplastics ultraviolet radiation thermal gravimetric analysis
143	Implante experimental de substituto arterial de polidimetilsiloxano com reforço de tecido de poliéster em coelhos / Experimental implant of arterial substitute of polydimethylsiloxane reinforced with polyester fabric in rabbits Laila Massad Ribas 21 August 2013 (has links) O presente estudo avaliou próteses vasculares de pequeno calibre feitas de polidimetilsiloxano (PDMS) com reforço de poliéster implantadas em aorta de coelhos através de fluoroscopia. Os objetivos do estudo foram: (1) analisar tubo de PDMS com reforço de poliéster implantado em aorta de coelhos como possível material para prótese vascular, (2) avaliar a patência das próteses através de fluoroscopia, (3) avaliar a condição de implante cirúrgico; (4) avaliar o comportamento macroscópico biológico do implante e (5) analisar o modelo experimental proposto. Próteses vasculares de PDMS foram implantadas na aorta infrarrenal de 64 coelhos cedidos pelo biotério da Faculdade de Medicina da Univesidade de São Paulo. Os exames de fluoroscopia foram realizados em até 150 dias após implantação cirúrgica. As próteses de PDMS foram classificadas em ocluídas e patentes, sendo essas sub-classificadas em diferentes graus de estenose. O tempo de clampeamento da aorta foi aferido durante os procedimentos cirúrgicos. De maneira amostral peças foram encaminhadas para microscopia eletrônica para verificação de endotelização das próteses. As análises estatísticas foram feitas através de teste t-Studant, teste ANOVA e Kaplan-Meier. Dos 64 animais que receberam a prótese, trinta (46,88%) apresentaram boa evolução clínica, vinte e três (35,94%) morreram e onze (17,18%) apresentaram paraplegia de membros posteriores. A patência das próteses em 30 dias foi de 87% (±6,7), em 60 dias foi de 73% (±9,3), em 90 dias foi de 57% (±11) e em 120 dias foi de 48% (±12). Cinquenta por cento (oito) das próteses patente não apresentaram nenhum grau de estenose, 35,5% (seis) apresentaram cinquenta por cento ou menos de estenose e 12,5% (dois) apresentaram estenose entre cinquenta e setenta por cento. Nenhum animal apresentou estenose maior que 70%. O tempo médio de clampeamento da aorta foi de 52 minutos. Não houve diferença significante nem na associação entre tempo de clampeamento da aorta e a evolução clínica dos animais (p=0,67) nem na associação entre o tempo de clampeamento e a patência das próteses (t=1,35; p=0,18). As peças encaminhadas para microscopia apresentaram crescimento endotelial a partir do vaso nativo em direção à prótese de PDMS. Foi possível concluir com este estudo que o PDMS demonstrou-se um material adequado para futuras pesquisas no ramo de próteses vasculares e que o uso da fluoroscopia na avaliação dessas próteses foi de fundamental importância na determinação da patência dos implantes / The present study evaluated small caliber vascular prostheses made of polydimethylsiloxane (PDMS) with polyester reinforcement implanted in the aorta of rabbits by fluoroscopy. The study objectives were: (1) analyze PDMS tube with polyester reinforcement implanted in the aorta of rabbits as possible material for vascular prosthesis, (2) assess the patency of the prosthesis through fluoroscopy, (3) assess the condition of surgical implant (4) evaluate the macroscopic behavior of biological implant and (5) analyze the proposed experimental model. Vascular prostheses were implanted in PDMS infrarenal aorta of 64 rabbits assigned by the animal house of the Faculty of Medicine of the University of São Paulo. Fluoroscopic examinations were performed within 150 days after surgical implantation. The prosthesis of PDMS were classified into occluded and patents, these being sub-classified into different degrees of stenosis. The time of aortic clamping was measured during surgical procedures. Sample pieces were sent for electron microscopy to check endothelialization of prostheses. Statistical analyzes were performed using t-test Studant, ANOVA and Kaplan-Meier. Of the 64 animals that received the prosthesis, thirty (46.88%) showed clinical improvement, twenty-three (35.94%) died and eleven (17.18%) had paraplegia of hind limbs. The patency of the prosthesis in 30 days was 87% (± 6.7), at 60 days was 73% (± 9.3), at 90 days was 57% (± 11) and at 120 days was 48 % (± 12). Fifty percent (eight) of the prosthesis patent did not present any degree of stenosis, 35.5% (six) had fifty percent or less of stenosis and 12.5% (two) had stenosis between fifty and seventy percent. No animal showed stenosis greater than 70%. The mean aortic clamping was 52 minutes. There was no significant difference in the association between duration of aortic clamping and clinical evolution of animals (p = 0.67) nor the association between clamping time and patency of the prosthesis (t = 1.35, p = 0.18). The parts sent for microscopy showed endothelial growth from the native vessel toward the prosthesis PDMS. It can be concluded from this study that the PDMS proved to be a suitable material for future research in the field of vascular prostheses and the use of fluoroscopy in the evaluation of these prostheses was of fundamental importance in determining the patency of the implants Aorta abdominal/cirurgia Coelhos Polidimetilsiloxanos Poliésteres Próteses vasculares Silicones Abdominal aorta/surgery Polydimethilsiloxane Polyesters Rabbits Silicones Vascular prosthesis
144	The preparation and testing of novel biodegradable surfactants using poly(lactic acid) as the backbone, by a one-step ring opening polymerisation reaction Hill, Gavin T. H. January 2009 (has links) A review of the chemistry of poly(lactic acid) was carried out with a focus on techniques and applications of PLA polymer and copolymers with reference to some of the work that has been accomplished over the last 20 years or so. A review of the characterisation techniques used to analyse PLA polymers and copolymers was also carried out giving reference to the equipment and methods used herein. An investigation into the potential of PLA as the hydrophilic portion of a polymeric surfactant was carried out. To develop PLA based surfactants, the ring opening polymerisation of lactide was carried out in a melt in the presence of a long chain alcohol (C₇ to C₂₀) or diol (C₄ & C₆) to produce AB or ABA type polymers that follow the traditional surfactant template. Stannous octanoate and 4-dimethylaminopyridine were typically used as catalysts due to their high activity and relative cheapness. PLA only shows good hydrophilicity with up to 12 lactic acid units in the chain. Above this the electrostatic interactions between polymer chains reduced water solubility. It was also noted that D,L-lactide produced more water soluble polymers (syndiotactic) than the enantiomerically pure L-lactide (isotactic polymer chains). An investigation of the hydrophobic properties of PLA was carried out to evaluate their usefulness for other biodegradable surfactant applications. To this end an investigation of sugars as the hydrophilic portion of the molecule was carried out. Due to problems with solubilising sugars, they were deemed unsuitable for use as initiatiors within the scope of this research. Choline chloride was then investigated as a potential hydrophilic initiator and indeed has produced some of the most water soluble of PLA polymers. Choline chloride presented several challenges as an initiator, its high melting point resulted in polar solvents such as t-butanol being employed. Alternatively, more success was achieved by preparation of a choline chloride eutectic mixture prior to the polymerisation. It was discovered that a choline chloride/urea eutectic mixture was capable of self initiation, thus required no further addition of catalyst, this result shows a potential step forward in PLA green chemistry. A final investigation into producing surface-active PLA in a one-pot process that required only a hydroxycarboxylate initiator was carried out. The production of PLA sodium or potassium salts was carried out in a melt polymerisation and the results show some promise. Initiators that have been employed include a range of a, b and g-hydroxycarboxylic acids. These work through tautomerisation to the alkoxide, which then initiates a living type polymerisation of lactide to produce surface-active polymers. As well as the synthesis of these polymers some analysis of the physical and aqueous properties of these materials was carried out. PLA sodium salts were shown to have reasonable surfactant ability (~45 mNm⁻¹) and low CMC values of around 5x10⁻⁹ mol cm⁻³. They were also shown to have some properties as emulsifiers, and in some cases showed non-Newtonian fluid behaviour such as shear-thinning (thixotropy) and shear-thickening (dilatant). The thermal characteristics of the polymers such as T[subscript]g and stability were assessed as well as their ability to retain water. 668
145	Préparation, étude de l’orientation et caractérisation physico-chimique de films polymères comportant des fluorophores Fourati, M. Amine 12 1900 (has links) No description available. Fluorescence Orientation Matériaux indicateurs Polyesters Fluorophores Caractérisation Mécanisme de désactivation Indicating materials Characterization Quenching mechanism
146	Tratamentos térmico e corona em tecido de poliéster / Thermal and corona treatments in polyester fabric Carvalho, José Geraldo de, 1977- 18 August 2018 (has links) Orientador: João Sinézio de Carvalho Campos / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Química / Made available in DSpace on 2018-08-18T13:11:39Z (GMT). No. of bitstreams: 1 Carvalho_JoseGeraldode_M.pdf: 906811 bytes, checksum: ac36e65d7b8b81bace165c355c2d5f59 (MD5) Previous issue date: 2011 / Resumo: O tratamento térmico, que na indústria têxtil é mais conhecido como termofixação, é um processo muito importante para garantir a estabilidade dimensional do tecido de poliéster durante os processos de beneficiamento e no uso. Mas o processo de termofixação modifica algumas propriedades do tecido e entre elas podemos destacar: Hidrofilidade, comportamento tintorial, alongamento e ruptura. Essas propriedades são influenciadas pelas variáveis tempo e temperatura de termofixação. Nesse sentido o presente trabalho tem como objetivo analisar as alterações proporcionadas pela termofixação nas propriedades físico-químicas do tecido de poliéster. O poliéster é um material que apresenta superfície quimicamente inerte, não porosa e com baixa energia de superfície (43 mN/m). O tratamento com descarga corona vem propor aumentar a energia de superfície, melhorar a hidrofilidade, o comportamento tintorial e a adesão do tecido termofixado e sem termofixar. Submeteram-se amostras de tecido plano de poliéster á termofixação em diversas combinações de tempo e temperatura dentro dos intervalos de 120 a 220°C e de 30 a 120 segundos. Após a termofixação mediu-se o encolhimento das amostras e submeteram-se as mesmas a testes de alongamento e ruptura. Trataram-se amostras de tecido de poliéster termofixadas e sem termofixar com descarga corona, e em seguida, submeteu-se as mesmas a testes de hidrofilidade, tingimento, estampagem, alongamento e ruptura. Observou-se que a termofixação promove encolhimento, aumento do alongamento, diminuição da hidrofilidade e da absorção de corante em tingimento de tecido de poliéster. O tratamento corona aumenta a hidrofilidade, a absorção de corante, a ancoragem de pigmentos em amostras de tecido de poliéster termofixadas e sem termofixar / Abstract: The thermal treatment, which in the textile industry is known as heat setting, is very important to ensure the dimensional stability of polyester fabric during the process of improving and use. But the process of heat setting changes some properties of the fabric and among them we can highlight: Hidrophilicity, dyeability, elongation and strength. These properties are influenced by variables dwell time and heat setting temperature. In that sense this work has as objective to analyze the changes caused by heat in the physico-chemical properties of polyester fabric. Polyester is a material that presents the surface chemically inert, non-porous and low surface energy (43 mN / m). The treatment with corona discharge is proposing to increase the surface energy, improve the hidrophilicity, dyeability and adhesion of the polyester fabric with and without heat setting. Samples of polyester plan fabric underwent to heat setting on various combinations of time and temperature within the interval between 120 to 220 ° C, from 30 to 120 seconds. After the heat setting was measured the shrinkage of the samples and underwent the samples by tests of elongation and rupture. Samples of polyester fabric with and without heat setting were treated with corona discharge and in sequence the samples were tested by hidrophilicity, dyeing and printing. The heat setting promotes shrinkage and increase the elongation of polyester fabric. It was observed that the heat setting promotes shrinkage, increase of elongation, reduction of hydrophilicity and reduction of uptake of dye in the dyeing of polyester fabric. The corona treatment increase the hydrophilicity, the absorption of dye in pad-thermofix process and the pigment anchoring in polyester fabric samples with and without heat setting / Mestrado / Ciencia e Tecnologia de Materiais / Mestre em Engenharia Química Acabamento têxtil Corona (Eletricidade) Tratamento térmico Poliésteres Tingimento - Fibras sintéticas Textile finishing Corona (Electricity) Heat treatment Polyesters Dyeing - Synthetic fibers
147	Construção de biblioteca metagenômica e prospecção de genes para a síntese de polihidroxalcanoatos / Metagenomic library construction for PHA synthase screening Mauricio Rocha Dimitrov 18 September 2009 (has links) Os microrganismos constituem dois terços da diversidade biológica na Terra, no entanto, muitos deles não podem ser cultivados por técnicas tradicionais. Portanto, o acesso a esta diversidade tem sido feita através da utilização de técnicas independentes de cultivo. Diante deste panorama, a metagenômica apresenta-se como uma alternativa, pois dispensa a necessidade de cultivo. Tal técnica possibilita inclusive a identificação e utilização do potencial metabólico destes organismos para o desenvolvimento de novos processos e produtos. Os polihidroxialcanoatos (PHAs) são poliésteres bacterianos, acumulados intracelularmente em forma de grânulos, cujas propriedades são similares a de alguns plásticos de origem petroquímica. O objetivo deste trabalho foi identificar e avaliar a diversidade de genes relacionados à produção de PHAs em bibliotecas metagenômicas de solo. A prospecção realizada resultou na identificação de clones contendo o gene phaC. De uma forma geral, pôde-se concluir que ainda há uma grande diversidade deste gene a ser descoberta no ambiente estudado. / Microorganisms constitute two third of the Earth\'s biological diversity, however, many of them cannot be cultured by standard techniques. Therefore, access to this diversity has been achieved through the use of culture-independent techniques. Facing this scenario, the metagenomic presents itself as an alternative, since it eliminates the need for cultivation. This technique also allows the identification and use of the metabolic pathways of these organisms to develop new processes and products. The polyhydroxyalkanoates (PHAs) are bacterial polyesters accumulated as granules, whose properties are similar to some plastics of petrochemical origin. The aim of this work was to identify and access the diversity of genes related to PHAs production in soil metagenomic libraries. The screening resulted in the identification of clones containing the phaC gene. In a general way, it was concluded that there is still a considerable diversity of this gene to be discovered in the study environment. Bibliotecas metagenômicas Biotecnologia Fosmídeo PHA sintase Polihidroxialcanoatos Polímeros bacterianos Bacterial polyesters Biotechnology Fosmid Metagenomic Library PHA synthase Polyhydroxyalkanoates
148	Synthesis and characterization of aliphatic hyperbranched polyesters Vuković, Jasna 22 November 2006 (has links) Two series of aliphatic hyperbranched (HB) polyesters have been synthesized from 2,2-bis(hydroxymethyl)propionic acid and di-trimethylolpropane using pseudo-one-step or one-step procedure. The structure and properties of these HB polyesters, investigated with different characterization techniques in solution, melt and solid state, were compared between each other, with commercial Boltorn HB polyesters and samples obtained by modification of the end -OH groups with ß-alanine or stearic acid. Seven HB polyesters were fractionated in order to obtain three fractions of each sample. The experimental results obtained from NMR spectroscopy, acid and hydroxyl number titration, GPC, vapour pressure osmometry, MALDI TOF and ESI mass spectrometry indicate that during the synthesis reactivity of terminal and linear -OH groups was not the same and that side reactions occurred in significant amount, which led to the lowering of the number average molar mass and broadening of the molar mass distribution. According to the results obtained from viscosimetry of diluted solutions and dynamic light scattering the best solvents for these HB polyesters are 0.7 mass % solution of LiCl in N,N-dimethylacetamide and N-methyl-2-pyrrolidinon (NMP). The limiting viscosity number and the hydrodynamic radius of the samples increase up to the sixth pseudo generation in these two solvents. Investigated HB polyesters behave as Newtonian liquids in concentrated solutions (c < 50 mass % in NMP) at T < 55 °C. The same was observed for the samples from fourth till sixth pseudo generation in melt at T > 70 °C. At all other experimental conditions used in this work these polymers show shear-thinning behaviour due to the high ability for the aggregation. Thermal stability of investigated HB polyesters increases with increasing number of the pseudo generation. The influence of the procedure for the synthesis and type of end groups on the properties of these polymers is discussed. Hyperbranched polyesters molar mass determination hydrodynamic radius diluted solution properties rheology thermal stability synthesis 30 - Chemie ddc:660
149	ROP in novel biobased ionic liquids towards cellulose functionalization / ROP i nya biobaserade joniska vätskor mot cellulosafunktionalisering Mattsson, Rebecca January 2023 (has links) Ett nytt sätt att aktivera cellulosa för kemisk modifiering med hjälp av en miljövänlig process har utvecklats innan starten av detta projekt. Två versionen av den nyskapade betain-baserade jonvätskan, BBIL har syntetiserats, en som använder mesylat som motjon, M-BBIL och en som använder acetat, A-BBIL. Innan yt-initierad Ringöppningspolymerisation (SI-ROP) kan göras på den aktiverade cellulosan är det av intresse att undersöka hur jonvätskorna kommer påverka polymerisationen. Det katalytiska beteendet hos både M-BBIL och A-BBIL testades på två olika polymerisationsreaktioner. Först testades ROP av ε-CL. Resultaten visade att ingen av jonvätskorna kunde visa någon samkatalytisk förmåga när de användes tillsammans med katalysatorerna MSA och DPP. När A-BBIL användes på egen hand ansågs den vara ineffektiv då termisk nedbrytning hämmade polymerisation vid temperaturer över 85oC. M-BBIL kunde dock uppnå bra kinetik då den användes vid 160oC. Den andra reaktionen som testades var coROP av ftalsyraanhydrid-cyklohexenoxid (PACHO) samt ftalsyraanhydrid-limonenoxid (PALO). Båda sampolymerisationer lyckades polymerisera med hjälp av M-BBIL, med endast mindre mängder av homopolymerisation av epoxiden under rätt förhållanden. Reaktionen visade sig dock vara mycket känslig för vatten och mer arbete krävs för att optimera reaktionen och nå högre molekylvikter. Tester för att försöka ympa PACHO polymerer på cellulosa som först hade aktiverats och sedan modifierats för att ha ftalsyraanhydrid på ytan visade sig också vara mycket känsliga för vatten. En lyckad ympning kunde dock uppnås genom att utföra reaktionen i ett delvist torkat, hydrofobt lösningsmedel. / A new way of activating cellulose for chemical modification using green processing conditions has been developed before the start of this thesis. Two versions of the novel betaine-based ionic liquid, BBIL has been synthesised, one using mesylate as a counter-ion, M-BBIL and one using acetate, A-BBIL. Before surface initiated-Ring Opening Polymerisation (SI-ROP) onto the activated cellulose can proceed, it is of interest to investigate the effects that the ionic liquids will have on the polymerization behaviour. The catalytic behaviour of both M-BBIL and A-BBIL were tested on two different polymerisation reactions. Firstly, ROP of ε-CL was tested. The results showed that neither ionic liquid could show any co-catalytic behaviour when used in combination with the catalysts MSA and DPP. When used on their own, A-BBIL was concluded to be ineffective since thermal degradation inhibited polymerisation at temperatures above 85oC. M-BBIL could however achieve good kinetics when used at 160oC. The second reaction that was tested was the coROP of phthahlic anhydridecyclohexene oxide (PACHO) and phthalic anhydride-limonene oxide (PALO). Both copolymerisations could successfully be polymerised using M-BBIL, with only minor amounts of homopolymerisation of the epoxide if the right conditions were used. The reactions were however shown to be highly sensitive to water and more optimization is needed to reach higher molecular weights. Tests of trying to graft the PACHO polymers onto cellulose that had first been activated and then modified with phthalic anhydride moieties was also shown to be highly sensitive to water. Successful grafting could however be achieved by performing reaction in partially dried hydrophobic solvents. Ionic liquids SI-ROP coROP polyesters cellulose Jonvätska ringöppnings-sampolymerisation polyestrar cellulosa Polymer Technologies Polymerteknologi
150	Synthesis and characterization of sustainable and biobased copolymers from lignocellulosic Saenz, Guery 11 May 2022 (has links) (PDF) Natural compounds have been the primary resource used to produce polymeric materials by humankind since the mid-1900s. Yet, progress in bio-based polymers from renewable feedstock has encountered some obstacles, mainly due to the low prices of petroleum-based monomers, compared to natural and sustainable materials. However, most commodity plastics are non-degradable materials, and solid plastic waste accumulation adversely affects the environment. As the world population is growing and demanding chemicals, energy, and plastics materials, polymer research is focusing on synthesizing bio-based and degradable polymers. Thus, biomass, a sustainable and inexpensive feedstock, is highly appropriate for designing alternative thermoplastics that are degradable to reduce the current environmental issues. In this dissertation, three different approaches were used to afford alternative thermoplastics to petroleum‐based commodities: bio-based poly(ether-amide)s, random aromatic copolyesters, and copoly(acetal triazole)s. In our first approach, two new lignin‐derived poly(ether‐amide)s (PEA)s were prepared. Their thermal properties showed high degradation temperature (Td) ranging from 330 °C to 380 °C, and glass transition temperature (Tg) between 100 °C and 120 °C. The chemical degradation studies revealed that the PEAs were degradable in 4 M H2SO4, HNO3, and TFA in 3 days. The second polymer group synthesized were semicrystalline bio-based aromatic copolyesters with tunable thermal properties. The thermal analysis of these copolyesters revealed high Td (413 °C to 446 °C) and Tg and Tm ranging from –36 °C to 67 °C and 60 °C to 267 °C, respectively. Their crystallization behavior showed a dependence on the comonomer composition, exhibiting a pseudo-eutectic region. Finally, furfural- and benzaldehyde-based copoly(acetal triazole)s (Td range 280–340 °C) were prepared by click polymerization at room temperature. Preliminary results showed that furfural-based copoly(acetal triazole)s were susceptible to hydrolytic degradation under neutral conditions after only 8 days at 40 °C. Overall, degradable and bio-based polymers were successfully synthesized as a potential thermoplastic alternative for packaging applications. biobased polymers natural feedstock lignin polyethers polyamides polyesters polyacetals degradable polymers furfural click chemistry Chemistry Organic Chemistry Polymer Chemistry

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