Ensaios de tratabilidade de águas residuárias da indústria de piso de madeira por processos oxidativos avançados: ozônio e UV-C.

A indústria moveleira em geral e de piso de madeira é caracterizada por processos a seco. Em decorrência da limpeza e lavagem de maquinário e superfícies gera águas residuárias em baixos volumes porém altamente contaminadas com substâncias recalcitrantes de difícil tratamento. Com o objetivo de oferecer uma alternativa tecnológica de fácil operação (com uso mínimo de reagentes químicos), capaz de tratar tais águas, reduzir toxicidade e aumentar biodegradabilidade do efluente, viabilizando desta forma uma etapa subsequente de tratamento biológico, o presente trabalho conduziu ensaios de tratabilidade baseados em processos oxidativos avançados com águas residuárias provenientes de lavagens em uma indústria de piso de madeira em Nybro, Suécia, com DQO inicial de aproximadamente 45.000 mg/L e pH de 2,3-2,6. Após tratamento primário in situ com redução de 89% de DQO, os seguintes processos geradores de radicais OH foram testados em escala de laboratório: ozonização sem ajuste de pH (Etapa I); ozonização com ajuste de pH (Etapa II); e ozonização + UV-C com ajuste de pH (Etapa III). Os experimentos foram realizados em semi-batelada, utilizando-se um aparato com dois reatores conectados (de O3 e de UV), entre os quais foi mantido fluxo de recirculação em contracorrente com o gás. Para o desenho experimental, utilizou-se a metodologia de planejamento fatorial do tipo Delineamento Composto Central Rotacional (DCCR) utilizando-se como variáveis independentes, (i) vazão de recirculação entre os reatores (VR) com níveis variando de 0,3 a 3L/min; (ii) concentração de O3 na mistura gasosa injetada ([O3]) ou modo de dosagem cujos níveis variaram de 40 a 115 g/Nm3 e; (iii) pH inicial (Etapas II e III) com níveis que variaram de 3 a 11. A quantidade total de O3 fornecida até o final de cada ensaio foi fixada em 2 gramas de O3 para cada grama de DQO inicial (2:1). A eficiência de cada tratamento foi avaliada em função da redução de DQO, da remoção de COT e do consumo de O3. Para ozonização sem ajuste de pH foram alcançadas reduções de DQO e COT de 65 e 31% respectivamente. No tratamento com ajuste de pH sem UV, foram alcançadas reduções de DQO e COT de 85% e 43% com pHinicial = 7,0 enquanto que no tratamento com UV foi alcançada redução de DQO e COT de 93% e 56% respectivamente, com pHi = 9,38. Os resultados de respirometria com os efluentes dos tratamentos indicaram que a ozonização destas águas em pH baixo pode resultar na geração de subprodutos menos biodegradáveis. Entretanto, tais produtos não são gerados quando a ozonização é realizada em pH mais elevado (7,0), mesmo sem aplicação de UV, com doses de O3:DQOinicial menores que 1:1. O tratamento por ozonização pode, portanto, ser aplicado como uma etapa intermediária de tratamento das águas residuárias em questão, inclusive precedendo o tratamento biológico.

Preparação, caracterização e avaliação de nanocompósitos de PBAT/amido de milho e vermiculita organofilizada

Nos últimos 20-30 anos polímeros biodegradáveis vêm sendo estudados e desenvolvidos e atualmente já são comercializados. Contudo, o custo, a processabilidade e algumas propriedades ainda dificultam a penetração desses polímeros no mercado e a competição com as chamadas commodities. Não são poucos os autores que se dedicam a desenvolver aditivos e formulações para superar essas limitações. Desta forma, esta Tese se dedicou ao desenvolvimento de compósitos de Ecobras, fabricado pela Basf e comercializado pela Corn Products, utilizando como carga mineral resíduo da extração da bauxita, no município de Santa Luzia/PB, o qual consiste em sua totalidade de vermiculita. Esta vermiculita foi quimicamente modificada com sais de alquil fosfônio para melhorar a compatibilidade com a matriz polimérica e também espaçar as camadas de aluminossilicato. De fato, a modificação com o brometo de hexadecil tributil fosfônio resultou na esfoliação da vermiculita tornando-a potencialmente apropriada para a obtenção de nanocompósitos. A preparação dos compósitos foi realizada pelo método de intercalação no estado fundido e foram comparadas a utilização da câmara interna de mistura e da mini extrusora de dupla rosca, sendo esta última mais eficaz na dispersão da vermiculita, conforme revelado pela microscopia eletrônica de varredura, difração de raios-X e reometria de placas. O grau de dispersão também foi influenciado pela estrutura química do modificador da vermiculita e pelo teor dessa carga incorporada à matriz. Teores mais elevados levaram a formação de aglomerados, enquanto a modificação da carga implicou na formação de micro e nanocompósitos. Ainda houve alterações das propriedades térmicas com aumento dos valores da temperatura de transição vítrea, de cristalização e fusão, embora o grau de cristalinidade tenha sido mantido. Nitidamente, foram obtidos materiais mais rígidos, com maior módulo e menor capacidade de deformação. Cerca de 58% de perda de massa foi observada para os micro e nanocompósitos obtidos após 17 semanas de enterro em solo simulado para avaliação da biodegradabilidade, valor bem próximo ao Ecobras puro. De modo geral, a incorporação das diferentes vermiculitas retardou nas primeiras semanas a biodegradação, provavelmente em função de modificações na estrutura cristalina, conforme sugerido pelos maiores valores de temperatura de fusão observados durante o acompanhamento do processo de biodegradação. No entanto, após 7 semanas os perfis de biodegradação dos micro e nanocompósitos se aproximaram bastante do Ecobras puro. Desta forma, foi possível nesta Tese obter um nanocompósito de Ecobras com vermiculita modificada com brometo de hexadecil fosfônio utilizando ferramentas comuns de processamento no estado fundido com biodegradabilidade próxima ao polímero de partida, porém mais rígido e menos deformável

植物生产生物可降解塑料PHB的研究：真养产碱杆菌H16的phbB和phbC的基因克隆、植物表达载体构建和转基因马铃薯植株的获得

利用聚合酶链式反应(PCR)技术从Alcaligenes eutrophus H16染色体DNA中扩增并克隆了调控聚-3-羟基丁酸(poly-3-hydroxy-butyrate，PHB)生物合成的两个关键酶基因：依赖NADPH的乙酰乙酰CoA还原酶基因(phbB)和PHB合成酶基因(phbC)。限制性内切酶图谱和核苷酸序列分析证实了克隆结果，并表明克隆的基因与国外所报道的有很高的同源性。经过基因拼接，构建了块茎特异性表达的高等植物表达载体pPSAGB（嵌合phbB）、pBIBGC(嵌合phbC)和pPSAGCB（嵌合phbB和phbC）。并以试管薯(microtuber)为外植体经Agrobacterium介导转化了虎头、京丰、Bintje、Favorita、高原4号和88-5共6个马铃薯品种，获得49个株系。经PCR检测导入phbB的株系共有44个，对其中30个株系进行DNA dot blot分析，结果表明phbC导入呈阳性的株系有20个。深入的鉴定工作还在进行中。

转基因植物生产生物可降解塑料PHB的研究-phbA功能鉴定、多价表达载体的构建及转基因植物的获得

聚-β-羟基链烷酸（PHA）是许多微生物作为碳源、能源的一类贮藏性聚酯，具有广泛的应用价值。该聚酯可被微生物完全降解且有与塑料相似的性质，因而研究并提高PHA在植物中的合成为解决环境污染提供了新的解决途径。 聚-β-羟基于酸酯（PHB）是研究的最早、研究的最清楚的一种PHA。用聚合酶链式反应扩增并克隆了真养产碱杆菌（Alcaligenes eutrophus）中合成PHB的一个关键酶——3-酮硫裂解酶基因phbA。DNA序列分析表明所克隆的基因与国外报道序列同源性很高，只有一个碱基对的区别。为了检测该基因的功能及导肽的定位效率，构建了带有导肽基因的组成型表达载体，由根癌农杆菌介导转化烟草（Nicotiana tabacum cv. Wisconsin 38）得到转基因植株。蛋白质电泳结果表明导肽可以将外源蛋白定位于质体，phbA基因能翻译成相应大小的蛋白。酶活性分析证实了转基因烟草中phbA编码的3-酮硫裂解酶可以催化乙酰-CoA合成乙酰乙酰-CoA。 将携有导肽序列的phbC（编码PHB合酶）和phbB（编码乙酰乙酰-CoA还原酶）连入pBIB-HYG得到组成型表达载体pZCB，用冻融法转入根癌农杆菌，介导转化烟草。烟草为已获得的具有卡那霉素抗性整合并表达phbA的转基因烟草。通过二次转化将携有潮霉素抗性的phbB基因和phbC基因导入已整合phbA的烟草，各基因均由质体导肽控制，最后得到整合PHB合成的三个酶基因的转基因烟草。转基因烟草经PCR、PCR-Southern检测，初步确定整合phbB和phbC烟草植株。以气相色谱初步分析，转基因烟草中PHB的含量可达鲜重的0.233%。 结果表明phbB和phbC基因可以在真核表达系统中编码相应的蛋白。通过色素分析、荧光动力学等手段分析了PHB在叶绿体中的累积对其功能的影响。 为了提高底物乙酰-CoA的供应能力及减少惰性聚酯对植物体的伤害，分离了种子特异性启动子和质体导肽序列，利用忆经克隆的合成PHB的三个关键酶基因，通过一系列DNA重组，分别构建了含有种子特异性启动子的嵌合phbC、phbB的二价表达载体pSCB及嵌合phbC、phbA、phbB的三价表达载体pSCAB，并由导肽将基因表达产物定位于质体。经根癌农杆菌介导转化油菜（Brassica napus L.) H165，获得转基因油菜植株，并进行了PCR、Southern blot及RT-PCR-DNA杂交等分检测。结果表明，三基因已经分别整合到相应的转基因油菜中，并已在转录水平表达。同时转化了油菜不育系、恢复系和保持系，获得批量转化株，并移入温室栽培。

利用转基因植物生产生物可降解塑料(PHB)的研究

聚 3 一控基丁酸酯 (Poly – 3 - hydroxybutyrate,PHB) 及其它类型的聚 3-泾基链烷酸醋同属于聚酯类物质 , 是自然界中多种细菌的碳源及能源储备物。这种聚酯的物理化学特性与传统塑料相似 , 并具有生物可降解性 , 如能取代化学合成塑料将减少环境中的塑料废弃物 , 从源头治理 " 白色污染 " 问题。微生物发酵法生产的 PHB 价格过高 , 无法在市场上与化学合成塑料竞争。随着分子生物学的发展 , 人们逐渐将视线转向植物生物反应器。转基因植物能够利用二氧化碳为碳源、太阳能为能源合成目的产物 , 大大降低生产成本 , 为生产具有市场 竞争力的新型生物可降解塑料提供可行途径。在此领域虽然己取得一定进展 , 但远未达到商业化生产水平。大规模商业化生产要求转基因植物能够在确保环 境安全性的前提下高效、稳定地生产 PHB 。本文尝试改善植物中 PHB 的生产体系 ,为环保型塑料早日进入市场作出努力。 1. 由于表达框架中多次使用同一启动子会导致基因沉默 , 本文克隆了另一 种子特异性启动子 nap300, 以替换重复使用的7S启动子,减轻“共抑制”。将 nap300 与 GUS 基因相连进行功能鉴定。荧光检测和组织化学染色的结果都证明此仅 30Obp 的 DNA 序列足以调控基因进行种子特异性表达。尽管 B 盒作为 高度保守区在种子特异性表达中起重要作用 , 位于此处的两个碱基替代型突变 并未使 nap300 的活性明显降低 , 对启动子的时空表达模式也无明显影响。将 nap300 、 7S 分别与 phbA 基因 ( 编码 3-酮硫裂解酶) 相连 , 在相似表达环境中 对二者功能进行比较 , 发现两个启动子表达模式基本相同并在同一时期达到活 性高峰 , 因此 nap300 可用于改善 PHB 合成基因在植物体内的表达调控。通过 对种子特异性启动子的比较可加深对其表达模式的了解 , 为植物基因工程中的 精细调控提供依据。 2. 叶绿体基因工程是随着植物遗传转化技术发展刚刚兴起的生物技术 , 具 有超量表达外源基因 , 为原核基因提供适宜表达环境 , 消除 “位置效应”和基因沉默 , 环境安全性好等优点 , 较更适合用于植物生物反应器方面的研究。本研究在国内率先探讨将叶绿体转化技术引入植物生产生物可降解塑料这一领域 的可行性 ( 国外仅有日本一例 ), 构建了叶绿体转化及表达载体 pTRV-PHB, 通过基因枪法将 PHB 合成相关基因导入烟草叶绿体基因组。转基因烟草顺利达到同质化，其形态和生长发育均无异常。 Northern 点杂交检测表明与 PHB 合成相关的三个基因均能在转录水平表达 , 未出现核转化中经常发生的“基因沉默”现象。通过 RT-PCR 进一步检测表明叶绿体型转基因烟草中目的基因的表达水平明显比核转化植株中相应基因的表达水平高。气相色谱分析确证转基因植株具有合成 PHB 的能力。这些都表明叶绿体转化适合用于转基因植物生产 PHB的研究。虽然叶绿体型转基因烟草中产物含量偏低 , 并未达到预期结果 , 但经进一步改进与完善 , 终将会成功地用于生产高附加值产品的植物基因工程中。 3. 为初步探讨叶绿体转化中在同源重组反应介导下整合外源基因的机理 , 从油菜叶绿体基因组中分离两段序列作为同源片段 , 基因枪法转化烟草 , 结果显示即使供体所含同源片段与受体叶绿体基因组相应区域差异高达 10%, 转化效率也无降低。这一现象的发现有助于促进“通用载体”　的改进 , 扩展叶绿体转化受体范围乃至达到商业化应用水平。 4. 成功地通过二次转化获得整合并表达多基因的转基因烟草 , 缩短了研究周期 , 对相关转基因植物的研究有一定参考价值。本文还优化了油菜转化体系 , 使转基因油菜同时整合三个 PHB 合成相关基因的效率由 7.69% 增加至 16.0% 。 田间试验与产物分析正在进行中。

Effect of microbial biofilm in the nursery phase of mrigal, Cirrhinus mrigala

The experiment was conducted for 35 days in nine cement tubs (1 x 1 x 1 m) having 15 cm sandy-loam soil base with three treatments in triplicate, viz., cow dung alone at the rate of 1 kg/tub (T sub(1)), cow dung at 1 kg/tub and feed at 10% body wt/d in two meals (T sub(2)), and cow dung at 1 kg and paddy straw at 200 g/tub (T sub(3)). Both manure and substrate were added on dry weight basis. All the tubs were stocked with 10 fry each mrigal (100,000/ha) of average weight of 0.09 g, seven days after the addition of manure and substrate. The total plate count of bacteria in water did not vary much between the treatments and the mean values were 5.13, 5.49 and 5.85 (CFU x 10 super(4)/ml) in T sub(1) T sub(2) and T sub(3) respectively. The number of phytoplankters and zooplankters in water differed significantly between the treatments. The average number of attached algae (no./cm³) and fish food organisms (no./cm³) recorded on the substrate were 145.28 and 70.67, respectively. The mean final weight of mrigal differed significantly (P < 0.05) between the treatments with T sub(3) registering the highest value of 6.93 g followed by T sub(2) (5.01 g) and T sub(1) (3.37 g). The specific growth rate and growth increment of fish also followed the same trend as that of weight recorded in the different treatments. Survival was higher in T sub(2) (83.33%), followed by T sub(3) (80.00%) and T sub(1) (76.67%). The study demonstrates that by the introduction of biodegradable substrates like paddy straw into the culture systems, significantly higher growth and survival can be obtained in the nursery rearing of mrigal.

Application of whey protein incorporation with Cinnamon oil as a preservative in Huse huso fillet under chilled storage condition

Biodegradable protein-based film was developed by incorporating cinnamon essential oil (CEO) into whey protein concentrate (WPC) at level of 0.8% and 1.5% v/v. Then physical and mechanical properties of the films were evaluated. Adding CEO to the WPC matrix decreased the water vapour permeability of the films and water solubility. Films containing CEO showed significant antibacterial activity both gram-positive and gram-negative strains and exhibited significant inhibitory effect on the studied fungi. In continue, the effect of whey coating and whey coating incorporated with 1.5% CEO on quality and shelf life of Huso huso fillet during refregrated (4±1°C) storage period were also investigated. The control and treated fish samples were analyzed for microbiological (total viable count, psychrophilic counts), chemical (PV, TBA, FFA, pH, TVB-N), and sensory characteristics in 4-day intervals up of microbial, chmical and sensoy analyses indicated lower levels of PV, TBA, FFA, pH, TVB-N in coasted sampels and specially, those with CEO while were kept in refrigerator. Based on results, whey protein edible coating contain 1.5% cinnamon essential oil could enhance preserving ability Huso huso during storage cold.

Chemical surface modification of poly-ε-caprolactone improves Schwann cell proliferation for peripheral nerve repair.

Poly-ε-caprolactone (PCL) is a biodegradable and biocompatible polymer used in tissue engineering for various clinical applications. Schwann cells (SCs) play an important role in nerve regeneration and repair. SCs attach and proliferate on PCL films but cellular responses are weak due to the hydrophobicity and neutrality of PCL. In this study, PCL films were hydrolysed and aminolysed to modify the surface with different functional groups and improve hydrophilicity. Hydrolysed films showed a significant increase in hydrophilicity while maintaining surface topography. A significant decrease in mechanical properties was also observed in the case of aminolysis. In vitro tests with Schwann cells (SCs) were performed to assess film biocompatibility. A short-time experiment showed improved cell attachment on modified films, in particular when amino groups were present on the material surface. Cell proliferation significantly increased when both treatments were performed, indicating that surface treatments are necessary for SC response. It was also demonstrated that cell morphology was influenced by physico-chemical surface properties. PCL can be used to make artificial conduits and chemical modification of the inner lumen improves biocompatibility.

Long term peripheral nerve regeneration using a novel PCL nerve conduit.

The gold standard in surgical management of a peripheral nerve gap is currently autologous nerve grafting. This confers patient morbidity and increases surgical time therefore innovative experimental strategies towards engineering a synthetic nerve conduit are welcome. We have developed a novel synthetic conduit made of poly ε-caprolactone (PCL) that has demonstrated promising peripheral nerve regeneration in short-term studies. This material has been engineered to permit translation into clinical practice and here we demonstrate that histological outcomes in a long-term in vivo experiment are comparable with that of autologous nerve grafting. A 1cm nerve gap in a rat sciatic nerve injury model was repaired with a PCL nerve conduit or an autologous nerve graft. At 18 weeks post surgical repair, there was a similar volume of regenerating axons within the nerve autograft and PCL conduit repair groups, and similar numbers of myelinated axons in the distal stump of both groups. Furthermore, there was evidence of comparable re-innervation of end organ muscle and skin with the only significant difference the lower wet weight of the muscle from the PCL conduit nerve repair group. This study stimulates further work on the potential use of this synthetic biodegradable PCL nerve conduit in a clinical setting.

Polymer film packaging for food: An environmental assessment

Plastics packaging is ubiquitous in the food industry, fulfilling a range of functions including a significant role in reducing food waste. The public perception of packaging, however, is dominated by end-of-life aspects, when the packaging becomes waste often found littering urban, rural and marine environments. A balanced analysis of the role of packaging demands that the whole lifecycle is examined, looking not only at the packaging itself but also at the product being packaged. This paper focuses on packaging in the meat and cheese industry, analysing the impact of films and bags. The functions of packaging are defined and the environmental impact of delivering these functions is assessed. The influence of packaging on levels of waste and energy consumption elsewhere in the system is examined, including the contentious issue of end-of-life for packaging. Strategies for minimizing the environmental impact of the packaging itself involve reduction in the amount of material used (thinner packaging), rather than emphasizing end-of-life issues. Currently, with polymer recycling not at a high level, evidence suggests that this strategy is justifiable. Biodegradable polymers may have some potential for improving environmental performance, but are still problematic. The conclusion is that although current packaging is in some ways wasteful and inefficient, the alternatives are even less desirable. © 2013 Elsevier B.V. All rights reserved.

Development of a nanoporous and multilayer drug-delivery platform for medical implants.

Biodegradable polymers can be applied to a variety of implants for controlled and local drug delivery. The aim of this study is to develop a biodegradable and nanoporous polymeric platform for a wide spectrum of drug-eluting implants with special focus on stent-coating applications. It was synthesized by poly(DL-lactide-co-glycolide) (PLGA 65:35, PLGA 75:25) and polycaprolactone (PCL) in a multilayer configuration by means of a spin-coating technique. The antiplatelet drug dipyridamole was loaded into the surface nanopores of the platform. Surface characterization was made by atomic force microscopy (AFM) and spectroscopic ellipsometry (SE). Platelet adhesion and drug-release kinetic studies were then carried out. The study revealed that the multilayer films are highly nanoporous, whereas the single layers of PLGA are atomically smooth and spherulites are formed in PCL. Their nanoporosity (pore diameter, depth, density, surface roughness) can be tailored by tuning the growth parameters (eg, spinning speed, polymer concentration), essential for drug-delivery performance. The origin of pore formation may be attributed to the phase separation of polymer blends via the spinodal decomposition mechanism. SE studies revealed the structural characteristics, film thickness, and optical properties even of the single layers in the triple-layer construct, providing substantial information for drug loading and complement AFM findings. Platelet adhesion studies showed that the dipyridamole-loaded coatings inhibit platelet aggregation that is a prerequisite for clotting. Finally, the films exhibited sustained release profiles of dipyridamole over 70 days. These results indicate that the current multilayer phase therapeutic approach constitutes an effective drug-delivery platform for drug-eluting implants and especially for cardiovascular stent applications.

Composition deviation of arrays of FePt nanoparticles starting from poly(styrene)-poly(4-vinylpyridine) micelles

Ordered arrays of FePt nanoparticles were prepared using a diblock polymer micellar method combined with plasma treatment. Rutherford backscattering spectroscopy analyses reveal that the molar ratios of Fe to Pt in metal-salt-loaded micelles deviate from those when metal precursors are added, and that the plasma treatment processes have little influence upon the compositions of the resulting FePt nanoparticles. The results from Fourier transform infrared spectroscopy show that the maximum loadings of FeCl3 and H2PtCl6 inside poly( styrene)-poly(4-vinylpyridine) micelles are different. The composition deviation of FePt nanoparticles is attributed to the fact that one FeCl3 molecule coordinates with a single 4-vinylpyridine (4VP) unit, while two neighboring and uncomplexed 4VP units are required for one H2PtCl6 molecule. Additionally, we demonstrate that the center-to-center distances of the neighboring FePt nanoparticles can also be tuned by varying the drawing velocity.

Quasi-hexagonal ordered arrays of FePt nanoparticles prepared by a micellar method

Hexagonally ordered arrays of magnetic FePt nanoparticles on Si substrates are prepared by a self assembly of diblock copolymer PS-b-P2VP in toluene, a dip coating process and finally plasma treatment. The as-treated FePt nanoparticles are covered by an oxide layer that can be removed by a 40 s Ar+ sputtering. The effects of the sequence of adding salts on the composition distribution are revealed by x-ray photoelectron spectroscopy measurements. No particle agglomeration is observed after 600 degrees C annealing for the present ordered array of FePt nanoparticles, which exhibits advantages in patterning FePt nanoparticles by a micellar method. Moreover, magnetic properties of the annealed FePt nanoparticles at room temperature are investigated by a vibrating sample magnetometer.

聚苯乙烯-聚（左旋-乳酸）嵌段共聚物薄膜的相分离与结晶

本论文以对称的半结晶型的聚苯乙烯-聚（左旋-乳酸）（PS-b-PLLA）嵌段共聚物薄膜为研究对象，通过在不同厚度的膜中的时间相关的相行为的演变，来研究不同界面对嵌段共聚物薄膜熔融状态的相结构的影响，并以此相结构为模版来研究软硬受限下结晶对相分离的影响。 首先，我们研究了在不同厚度膜中的熔融状态的相结构。通过调控膜的厚度及退火时间，实现片层方向的转变。随着膜厚的增加，由于选择性的聚合物/基板界面及中性的聚合物/空气界面的作用下，达到平衡态后片层方向由平行向垂直转变。当膜厚大于一个周期时，同一膜厚下，随着退火时间的增加，片层方向由平行向垂直转变。片层方向在由平行向垂直的转变时，形成平行与垂直共存的混合结构。 在熔融状态下得到结晶的PLLA在表面对称润湿的平行片层，以这种结构为模版，研究了系留在PS基板上的PLLA单层的结晶，以及结晶对相分离结构的影响。从有序的熔融状态结晶后，形成了上下非晶中间结晶的“三明治”结构，结晶结构为α晶型正交晶系，结晶分子链垂直于界面。当Tc ≤ Tg,PS, 时，由于分子链的活动性较差，而且 PS与PLLA具有相近的表面能，结晶诱导了垂直片层的形成。当Tc > Tg,PS, 由于分子链的活动性较强，没有形成垂直片层。 以中性的聚合物/空气界面作用下形成的垂直片层为模版，研究了软硬受限条件下结晶对垂直片层结构演变的影响。硬受限下，结晶没有破坏相分离结构，在微相分离的垂直片层中受限结晶，结晶后片层周期增加。软受限下，非晶的PS分子链的活动性较强，结晶破坏了原有的相分离结构，生成棒状结晶。由于受限，结晶结构较为特殊属于单斜晶系。 以平行与垂直片层共存的混合结构为模版，研究了结晶对此结构的影响，发现平行与垂直片层分别结晶形成不同的结晶形貌，两种结晶在形成的过程中相互影响。

PS-b-PEO嵌段共聚物薄膜的结晶与微相分离

半结晶性嵌段共聚物中，嵌段间的不相容性导致的微相分离与结晶嵌段的结晶行为之间存在相互竞争与协同作用。现阶段的大部分工作主要集中于半结晶性嵌段共聚物相分离发生后的结晶行为的结晶动力学和内部链折叠，而对于结晶与微相分离同时发生时的结晶与微相分离行为的研究还较少。 本论文以半结晶性的聚苯乙烯和聚环氧乙烷的二嵌段共聚物（PS-b-PEO）薄膜为研究对象，研究其破坏性（break out）结晶行为，以及研究方形片晶与微相分离结构的关系。 首先，本论文研究了不同相分离取向对结晶行为的影响。我们通过控制膜厚得到垂直基底和平行基底的微相分离薄膜。在溶剂蒸汽中，微相分离取向垂直基底时，仅仅是有序度增加，片晶协同生成。退火时间增加，结晶成核控制生长向扩散控制生长转变，导致片晶周围树枝晶生长。微相分离结构为平行基底取向时，焓主要用于取向转变和有序度增加，体系没有片晶生成，仅边缘效应使树枝晶产生。在结晶取向方面，研究了溶剂蒸汽氛围内界面作用改变使分子链轴垂直基底（flat-on）结晶向分子链轴平行基底（edge-on）结晶的转变。随着溶剂分子扩散到基底界面，结晶嵌段PEO与基底相互作用从强变弱，是发生这种转变的决定因素。 其次，从片晶与微相分离相互转变和片晶上微相分离刷的形成两方面研究片晶与微相分离的竞争与协同关系。退火溶剂的选择性影响片晶与微相分离的竞争。在PEO不良溶剂蒸汽环己烷中发生以下转变：片晶生成，逐渐被微相分离破坏，片晶重新生成；PEO良溶剂水中仅存在结晶到微相分离的转变。即晶体溶解，与PS发生微相分离以获得能量上的有利状态。可溶解嵌段的自由体积增加和结晶嵌段的低溶胀性分别是微相分离和结晶发生的关键因素。片晶与微相分离协同关系研究上，通过调控二嵌段共聚物片晶上聚合物刷的密度（小于14.3大于3.8），获得具有微相分离结构的聚合物刷。PS-PS刷的弱相互作用以及PS与PEO（连接PEO片层结构未结晶的PEO链）之间的强不相容性对片层上微相分离刷的形成起来决定作用。