溶剂诱导的聚乳酸/聚乳酸衍生物共结晶行为

通过溶液浇铸法制备不同组分的左旋聚乳酸(PLLA)和聚(L-2-羟基-3-甲基丁酸)(PL-2H3MB)共混物.运用差示扫描量热仪(DSC)、偏光显微镜(POM)、广角X射线衍射(WAXD)和热重分析仪(TGA)分析共混物的结晶、熔融行为和热稳定性.通过观察到DSC加热曲线中新的熔融峰判断PLLA和PL-2H3MB共晶...     

在气液界面上压缩诱导聚(L-乳酸)膜的结构变化

聚乳酸(PLA)是一种环境友好及生物可降解的聚合物, 其界面性质受到了广泛关注. 本文以Langmuir-Blodgett (LB)膜天平、原子力显微镜(AFM)研究了聚(L-乳酸) (PLLA)在气液界面上的性质. 表面压-面积(π-A)等温曲线的结果表明, 在膜压缩的初始阶段, 表面压逐渐增大; 当膜压为9.0 mN·m^-1时, 曲线出现了一个平台,其重复单元的面积大约在0.11-0.17 nm²之间. 原子力显微镜的结果发现, 在压缩过程中, 膜结构发生了明显的变化: 平台刚出现时, 膜内出现了大量的纤维结构; 在平台区内, 界面上出现了多层膜结构. 特别地, 当表面压为20.0 mN·m^-1时, PLLA在界面上可形成约6.0 nm厚的薄膜. 由此可见, PLLA等温线中的平台与其膜结构的变化紧密相关. 这有别于普通双亲分子的性质, 即这类双亲分子π-A等温线中的平台通常表示它们在二维空间上发生了单分子膜的相转变.     

热致相分离制备聚乳酸纳米纤维支架

本研究以二氧六环/叔丁醇为溶剂体系,采用热致相分离方法制备出具有多级孔径的三维连通的聚乳酸纳米纤维支架. 探讨了陈化、陈化温度、聚合物浓度、二氧六环/叔丁醇 (溶剂/非溶剂)比例对纳米纤维支架的结构和纤维直径大小的影响. 结果表明,陈化对较低聚合物浓度下(≤7%)纳米纤维结构的形成影响明显,而在较高聚合物浓度时(＞10%),只要控制在一定温度下相分离即可形成纳米纤维结构的支架;较低的陈化温度(≤5℃)有利于纳米纤维状网络结构(直径约20-300nm)的形成,且随着陈化温度的下降,纤维网络结构分布更加均匀;聚乳酸浓度增加, 纤维细化,网络结构分布更均匀,所形成的孔结构也更致密;叔丁醇含量≤12%时,纤维直径变化不大;当叔丁醇含量＞12%时,纤维直径明显增加(约500 nm).     

The Crystallization and Melting Processes of Poly(L-lactic acid)

A throughout investigation of crystallization and melting behavior of poly(L -lactic acid) is detailed in this contribution. Crystallization analyses, conducted in both isothermal and non-isothermal conditions, revealed the occurrence of a sudden acceleration in phase transition rate in the temperature range between 100 and 118 °C. This unusual increase, due to very high rates of spherulite growth, seems not related to morphological changes of PLLA spherulites, nor to unexpected variations in nucleation rate. DSC analyses disclosed multiple melting behavior of PLLA, depending on crystallization temperature. At low temperatures the very high crystallization rates lead to the achievement of low values of crystalline degree, with formation of small and/or defective crystals, which have a large tendency to reorganize into more stable structures during the heating scan that leads to complete fusion. The multiple melting process of PLLA was also analyzed at different heating rates.     

聚L-乳酸/4,4'-二羟基二苯硫醚共混物的分子间相互作用及结晶和熔融行为

利用红外吸收光谱(FTIR)研究了聚乳酸(PLLA)/4,4'-二羟基二苯硫醚(TDP)熔融共混物的分子间相互作用,结果表明,PLLA的羰基与TDP的羟基之间形成了分子间氢键.通过差示扫描量热(DSC)研究了共混物的玻璃化转变行为及非等温结晶和熔融行为.结果表明,样品的玻璃化转变温度(Tg)随TDP含量的增加呈线性下降.共混物的熔融结晶温度(Tc)、结晶焓(ΔHc)、熔融温度(Tm)及熔融焓(ΔHm)均随TDP含量的增加呈下降趋势,而冷结晶温度的变化趋势则相反.当TDP达到40%(质量分数)时,共混物的DSC曲线既未出现结晶峰,也未出现熔融峰,表明该样品已完全成为非晶态物质.广角X射线衍射(WAXD)分析结果表明,TDP的加入未改变PLLA的晶型,但导致其晶面间距变大,晶体结构变得松散.因此共混物熔点的下降归因于分子间氢键的形成降低了PLLA分子链的运动能力及晶体的紧密程度而非晶型的改变.     

基于聚乙二醇结构调控高分子量聚乳酸立构复合体系的结晶行为

设计合成了梳形聚(聚乙二醇甲醚丙烯酸酯)(PPEGA)及其与聚乙二醇(PEG)的嵌段共聚物(PEG-b-PPEGA).通过与高分子量左旋聚乳酸(PLLA)和右旋聚乳酸(PDLA)共混探究了PEG不同的结构对PLA立构复合体系(sc-PLA)结晶的影响.结果 表明线形PEGA和PEG能与sc-PLA完全相容,两者均能促进...     

Poly(methyl methacrylate)-induced Microstructure and Hydrolysis Behavior Changes of Poly(L-lactic acid)/Carbon Nanotubes Composites

Poly(L-lactic acid)(PLLA)-based composites exhibit wide applications in many fields.However,most of hydrophilic fillers usually accelerate the hydrolytic degradation of PLLA,which is unfavorable for the prolonging of the service life of the articles.In this work,a small quantity of poly(methyl methacrylate)(PMMA)(2 wt%-10 wt%)was incorporated into the PLLA/carbon nanotubes(CNTs)composites.The effects of PMMA content on the dispersion of CNTs as well as the microstructure and hydrolytic degradation behaviors of the composites were systematically investigated.The results showed that PMMA promoted the dispersion of CNTs in the composites.Amorphous PLLA was obtained in all the composites.Largely enhanced hydrolytic degradation resistance was achieved by incorporating PMMA,especially at relatively high PMMA content.Incorporating 10 wt%PMMA led to a dramatic decrease in the hydrolytic degradation rate from 0.19%/h of the PLLA/CNT composite sample to 0.059%/h of the PLLA/PMMA-10/CNT composite sample.The microstructure evolution of the composites was also detected,and the results showed that no crystallization occurred in the PLLA matrix.Further results based on the interfacial tension calculation showed that the enhanced hydrolytic degradation resistance of the PLLA matrix was mainly attributed to the relatively strong interfacial affinity between PMMA and CNTs,which prevented the occurrence of hydrolytic degradation at the interface between PLLA and CNTs.This work provides an alternative method for tailoring the hydrolytic degradation ability of the PLLA-based composites.     

聚乳酸-聚己内酯复合纳米纤维支架的制备和表征

在二氧六环/乙醇溶剂体系中,采用凝胶抽提相分离法制备了聚乳酸-聚己内酯(PLLA-PCL)复合纳米纤维支架,研究了凝胶温度、聚合物比例、聚合物浓度、致孔剂及二氧六环/乙醇(溶剂/非溶剂)比例对复合纳米纤维支架结构与性能的影响.结果表明,当凝胶温度处于-20~-10℃,PCL含量为30%~50%,非溶剂含量不超过15%,致孔剂与溶质质量比不超过20∶1时,均能得到具有类似于天然细胞外基质的纳米纤维(50~500 nm)结构的PLLA-PCL复合纤维支架.随着PCL含量的增加,复合纤维支架的弹性模量减小;PCL含量为30%时,复合支架的相容性和结晶性最好.该复合纤维支架具有良好的生物活性和一定的降解性能.     

Photo-grafting Poly(acrylic acid) onto Poly(lactic acid) Chains in Solution

Poly(lactic acid)(PLA)is one of the most important bio-plastics,and chemical modification of the already-polymerized poly(lactic acid)chains may enable optimization of its material properties and expand its application areas.In this study,we demonstrated that poly(lactic acid)can be readily dissolved in acrylic acid at room temperature,and acrylic acid can be graft-polymerized onto poly(lactic acid)chains in solution with the help of photoinitiator benzophenone under 254 nm ultraviolet(UV)irradiation.Similar photo-grafting polymerization of acrylic acid(PAA)has only been studied before in the surface modification of polymer films.The graft ratio could be controlled by various reaction parameters,including irradiation time,benzophenone content,and monomer/polymer ratios.This photo-grafting reaction resulted in high graft ratio(graft ratio PAA/PLA up to 180%)without formation of homopolymers of acrylic acid.When the PAA/PLA graft ratio was higher than 100%,the resulting PLA-g-PAA polymer was found dispersible in water.The pros and cons of the photo-grafting reaction were also discussed.     

降解可控乳酸类聚合物

聚乳酸作为生物医用材料，其降解性能最为人们关注。根据降解性能的不同，其应用也有不同的用途。本文从共聚和共混两方面综述了聚乳酸在降解可控性方面研究的最新进展，对未来的工作进行了展望。     

静电纺丝法制备胆固醇-g-聚乳酸液晶/ 聚乳酸复合纳米纤维膜

以辛酸亚锡为催化剂, 胆固醇(CHOL)为共引发剂引发D,L-丙交酯开环聚合, 制备了胆固醇-g-聚(D,L-乳酸)(CHOL-g-PDLLA)低聚物, 采用偏光显微镜(POM)和差示扫描量热(DSC)方法考察了其液晶特性. 通过静电纺丝技术制备了CHOL/PDLLA和CHOL-g-PDLLA /PDLLA复合纳米纤维膜, 对其形貌、界面相容性、孔隙率、拉伸性能和细胞相容性进行了研究. 结果表明, CHOL-g-PDLLA为一种热致胆甾型液晶, 液晶温度区间为21.8~74.5 ℃; CHOL-g-PDLLA/PDLLA复合纳米纤维膜的纤维形态良好, 表面均匀光滑, 孔隙率在70%~75%之间, 且其界面相容性优于相应的CHOL/PDLLA. 随着CHOL和CHOL-g-PDLLA含量的增加, 复合纳米纤维膜的拉伸强度逐渐下降, 但CHOL-g-PDLLA/PDLLA复合纳米纤维膜的拉伸强度显著大于CHOL/PDLLA. 体外骨髓间充质干细胞培养结果显示, CHOL-g-PDLLA/PDLLA复合纳米纤维膜具有良好的细胞相容性, 且优于相应的PDLLA和CHOL/PDLLA纳米纤维膜.     

聚乳酸/壳聚糖纳米纤维结构形成的影响条件及其生物矿化活性

以二氧六环/冰醋酸为溶剂体系,采用相分离法制备了聚乳酸(PLA)/壳聚糖(CS)复合纳米纤维结构的组织工程支架,探讨了不同CS含量、不同凝胶温度及不同分子量对PLA/CS复合支架纳米纤维结构的影响以及支架的生物活性。结果表明,凝胶温度对PLA/CS复合材料的纳米纤维结构影响较大,且随着温度的降低,结构的微观尺寸也逐渐增大,从纳米级上升到普通的尺寸结构;CS含量对PLA/CS复合支架的基体结构影响不大;实验范围内PLA分子量对PLA/CS复合支架的纳米纤维结构有重要影响:分子量大的样品,较易得到PLA/CS复合纳米纤维结构的材料,而分子量小的样品则不能得到纳米纤维结构。另外,生物矿化实验表明CS的添加有利于PLA/CS复合材料生物活性的提高。     

聚乳酸与聚乳酸-羟基乙酸多孔细胞支架的制备及孔隙的表征

应用溶液烧铸致孔剂浸出技术制备了不同致孔剂用量与不同致孔剂颗粒尺寸条件下的一系列聚乳酸及不同组成的聚乳酸－羟基乙酸多孔细胞支架;用一种改进的方法－重量法测定其孔隙率;在聚乳酸－羟基乙酸多孔支架上进行了软骨细胞培养。研究结果表明,随着制备过程中致孔剂用量的增加,多孔支架的孔隙逐渐增加,而与致孔剂的颗粒大小基本无关;致孔剂的颗粒大小只影响多孔支架的孔径;在致孔剂用量及致孔剂颗粒尺寸都相同的情况下,随着共聚物中乙交酯含量的增加,孔隙率逐渐下降;软骨细胞在支架上繁殖情况良好,三周后已开始分泌细胞外基质。     

聚乳酸成型加工过程中的熔体粘弹特性和结晶行为调控

聚乳酸(PLA)是目前合成生物可降解高分子材料中应用量最大的品种,可望逐渐部分取代聚烯烃而更广泛应用于各个领域。但PLA树脂结构决定的松弛特性导致其加工过程特殊的黏弹特性,使其熔体强度低、成型工艺特性不稳定并进而导致产品尺寸和性能不稳定。此外,PLA极低的结晶速率,使其在挤出和注射成型等较高冷却速率的实际加工条件下呈无定型态,进一步影响了其加工和使用性能。这些问题已成为PLA更大规模商品化应用的瓶颈。本文从通过调控PLA熔体加工过程的黏弹特性而提高其可加工性出发,综述近年来本课题组在PLA成型加工过程中熔体粘弹特性和结晶行为(结晶速率和结晶结构)调控方面的研究进展。     

聚乳酸共混体系的研究进展

聚乳酸是人工合成的可生物降解的热塑性脂肪族聚酯 ,是一种环境友好的材料 ,逐渐成为人们研究的热点。本文根据聚乳酸共混体系中另一组分的生物降解性 ,将聚乳酸共混体系分为完全可生物降解共混体系和部分可生物降解共混体系两类。针对体系的相容性和结晶结构以及在提高PLA的性能和降低成本等方面 .综述了聚乳酸共混体系的最新研究进展 ,并对其发展动态进行了简要介绍     

生物基超韧聚乳酸复合材料的制备与性能

采用来源于可再生资源的聚醚酰胺弹性体（PEBA）增韧聚乳酸（PLA）制备超韧聚乳酸（PLA/PEBA-GMA）复合材料.为了提高PEBA与PLA之间的相容性,选择极性单体甲基丙烯酸缩水甘油酯（GMA）、共接枝单体乙烯基吡咯烷酮（NVP）及引发剂过氧化二异丙苯（DCP）对PEBA进行接枝改性制备PEBA-GMA.研究了接枝单体组分的用量（m/g）对PLA/PEBA-GMA复合材料性能的影响.研究发现,随着接枝单体组分用量的提高,复合材料的缺口冲击强度逐渐增大,当接枝单体组分GMA,NVP和DCP的用量分别为2.5,2.5和0.25 g时,复合材料的冲击强度高达88.6 kJ/m²,断裂伸长率为164.1%.研究表明,在熔融共混过程中,聚乳酸的端基（—OH和—COOH）与PEBA-GMA上环氧基团发生反应,有效改善两相间的界面相容性,随着接枝单体组分比例的提高,分散相PEBA-GMA的粒子尺寸逐渐减小且分布均匀.     

Non-Isothermal Crystallization of Poly (vinylidene fluoride)/Poly (methyl methacrylate)/Cellulose Nanocrystal Nanocomposites

Poly (vinylidiene fluoride) (PVDF)/poly (methyl methacrylate) (PMMA)/cellulose nanocrystal (CNC) nanocomposites were prepared by solution blending. Non-isothermal crystallization of PVDF/PMMA (70/30) blend and its composites was investigated using differential scanning calorimetry. It was found that the addition of CNCs played a positive role in both the crystallization rate and crystallization percentage. The addition of CNCs increased the initial crystallization temperature, peak crystallization temperature, and crystalline enthalpy. The Avrami index indicated that CNCs did not change the crystallization mechanism; while other parameters derived from Jeziorny theory and Mo's method, including Z _c , F(t), and α, further verified the positive role played by CNCs.     

Tensile and Thermal Properties of Poly(lactic acid)/Eggshell Powder Composite Films

Biodegradable composite films of poly(lactic acid) (PLA)/eggshell powder (ESP) were prepared by the composite film casting method using chloroform as the solvent. ESP was loaded in PLA in 1 to 5 wt.%. The films were subjected to tensile, FT-IR spectral, thermogravimetric, X-ray, and microscopic analyses. The tensile strength and modulus of the composite films were found to be higher than those of PLA and increased with ESP content up to 4 wt.% and then decreased. A reverse trend was observed in the case of percentage elongation at break. The X-ray diffractograms of the composite films indicated an increase in crystallinity with ESP content. The optical micrographs indicated uniform distribution of ESP particles in the composite films. However, the fractographs indicated agglomeration of ESP particles at 5 wt.% loading. The FT-IR spectra revealed no specific interactions between PLA and ESP. The thermal stability of the composite films increased with ESP content.     

Poly(lactic acid)/poly(butylene succinate)/calcium sulfate whiskers biodegradable blends prepared by vane extruder: Analysis of mechanical properties,morphology, and crystallization behavior

Ternary blends of PLA/PBS/CSW with different weight fractions were prepared using a vane extruder. The mechanical properties, morphology, crystallization behavior and thermal stability of the blends were investigated. For the PLA/CSW blend, the tensile strength decreased, the flexural strength and modulus increased compared with pure PLA. For PBS, the addition of CSW had little influence on the mechanical properties. For the ternary blends PLA/PBS/CSW, the tensile strength, flexural strength and modulus decreased compared with pure PLA, while the elongation at break and the impact strength increased significantly. The brittle-ductile transition of the blends took place when the PBS weight fraction reaching 30 wt%. As a soft component in the blends, PBS was beneficial to improve the tensile ductility and the toughness of PLA. SEM measurements reveal that PLA/PBS/CSW blends were immiscible. When the weight fraction of PBS was 50 wt%, significant phase separation was observed, and CSW had preferential location in the PBS phase of the blend. DSC measurement and POM observation reveal that CSW had a heterogeneous nucleation effect on PLA and PBS matrix. The addition of PBS improved the crystallization of PLA and the thermal resistance of the PLA/PBS/CSW blends significantly.