双组分共混体系中晶相结晶行为

含结晶组分的双组分共混体系，其中的结晶组分的结晶行为会受到另一组分的影响，进而影响到材料的结构与性能。本文总结了近年来含结晶相的聚合物共混物在改性过程中，共混与添加组分对晶相结晶速率、晶型比例、晶体尺寸等结晶行为的影响。     

双向形状记忆结晶聚合物及其复合材料的研究进展

形状记忆聚合物是一种典型的智能材料,具有质轻、形变量大、可对多种刺激进行响应等优点.根据形状记忆过程的可逆性进行分类,形状记忆效应可以分为2种:单向与双向形状记忆效应.与不可逆的单向形状记忆过程相比,双向形状记忆过程是可逆的,样品不需要使用者进行再次变形,就可以在原始形状与临时形状之间进行可逆转换,因此其具有极高的实用价值与广阔的应用前景,受到各国研究人员的广泛关注,成为当前的研究热点之一.本文总结了近年来所研究的双向形状记忆结晶聚合物及其复合材料,包括恒外力条件下(外力≠0)的准双向形状记忆结晶聚合物,无外力条件下的双向形状记忆结晶聚合物及其复合材料.具体来说,前者包括在恒外力作用下的化学或物理交联的结晶聚合物.后者包括双层或核-壳聚合物复合材料、由分步交联得到的双网络交联结晶聚合物、化学交联的双组分结晶聚合物、具有较宽熔融转变的化学交联结晶聚合物与物理交联的结晶聚合物.重点关注了这些材料的制备方法、影响因素及相应的双向形状记忆机理,并对其研究前景进行了展望.     

超临界CO_2下的聚合物结晶形态和动力学研究现状北大核心CSCD

聚合物结晶一直以来是高分子凝聚态研究的热点,随着超临界流体尤其是超临界CO2(scCO2)在聚合物方面应用日益增加,对超临界条件下的聚合物结晶研究显得更加重要。scCO2在聚合物中溶解度较高,增塑效果好,能显著降低玻璃化温度(Tg)和熔点(Tm),改变聚合物的晶体形态,并对动力学过程产生较大影响。因此,聚合物在scCO2条件下结晶行为的深入研究,在实际应用中起着重要的指导作用。本文对scCO2作用下的链型、晶体形态、共混物特点和结晶动力学过程的研究现状进行综述。     

高氯酸锂对PEO结晶结构和结晶行为的影响

利用配备热台的偏光显微镜(POM)、红外光谱仪(FTIR)和示差扫描量热器(DSC)等实验方法研究了高氯酸锂(LiClO4)与聚氧化乙烯(PEO)之间的络合作用对PEO结晶行为和结晶形态的影响.DSC测试结果表明在LiClO4/PEO二元共混体系中,PEO的熔融温度、结晶温度随着锂盐含量的增加出现先增加后降低的现象;而结晶度则是先不变后降低.FTIR结果表明LiClO4影响聚合物结晶性能的原因是Li+能和PEO中的醚基的络合作用.POM观察结果发现LiClO4/PEO共混体系中存在聚合物的球晶,共混体系中聚合物的球晶生长速率都随着结晶温度的升高而下降,并且球晶生长速率还随着体系中随LiClO4含量的增加而减小.     

聚合物受限结晶的研究进展

随着纳米材料研究的迅速发展,聚合物由于其分子固有的纳米尺度结构,无论作为纳米器件或在模板应用方面都受到广泛瞩目.在微纳领域的应用中,特定受限环境下,结晶聚合物的结晶行为也因此受到广泛关注.本文从均聚物(及无规共聚物)和半晶型嵌段聚合物两方面总结了近年来聚合物受限结晶领域的研究进展.对于均聚物和无规共聚物,人们主要关注其在薄膜、超薄膜条件下的受限结晶性能,关注点为随着膜厚减小而引入的空间效应和界面效应对聚合物结晶性能的影响.而对于半晶型嵌段共聚物受限结晶的研究则多从本体出发,来研究纳米相分离与结晶的竞争过程、纳米相分离区域对于可结晶嵌段结晶生长的几何限制(空间效应)以及嵌段连接点(结晶嵌段的末端)对于结晶嵌段结晶行为的影响.     

PET分子量对PET/PC共混体系高压结晶行为的影响

以往高压合成的聚合物伸直链晶体尺寸较小且合成时间过长,不能满足单晶应用的要求。加入10wt%PC于不同分子量的PET中,采用自制高压装置,制备共混体系,用WAXD,SEM,DSC等表征手段,研究了PET/PC共混体系在高压下的结晶行为。研究结果表明:通过PET/PC体系在高压下化学反应诱导的自组装,不同分子量PET的PET/PC共混体系均在较短的时间内生成了尺寸较大的聚酯伸直链晶体,对应于三斜晶系,其中PET/PC体系最适于大尺寸伸直链晶体的合成,仅需6hr时间即生成PE需200hr方可合成的40μm厚度的伸直链晶体。同时提出了PET1/PC体系中伸直链晶体高温下缺陷自我修复模型。     

低维度碳纳米填料诱导聚合物结晶

低维度纳米填料(LDCN)具有优异的物理机械性能.研究发现LDCN与聚合物复合,可显著提高复合材料的力学性能或者增加功能,并且LDCN可诱导多种聚合物结晶.LDCN不仅可作为异相成核剂,提高聚合物的结晶温度和结晶速率,而且可诱导聚合物形成特殊的晶体形貌.研究LDCN对聚合物结晶的影响,进而调控聚合物的结晶度和晶体形态,...     

PTT/PET共混体系晶体形态与结晶性能的研究

用差示扫描量热仪(DSC)、广角X射线衍射(WAXD)和正交偏光显微镜研究了聚对苯二甲酸丙二酯(PTT)和聚对苯二甲酸乙二酯(PET)共混体系的晶体形态与结晶性能.结果表明,共混体系结晶性能与PTT的含量有关.PET的加入,使共混体系的球晶尺寸减小.球晶完善性降低.当PTT含量为40wt%～60wt%时,共混物分别出现了双重熔融峰和双重结晶峰.双重熔融峰是加热过程中熔融重结晶造成的,双重结晶峰说明不完善的晶体产生的次级结晶.     

聚丙烯/高密度聚乙烯高取向共混物的附生结晶

<正> 最近,聚合物之间的附生结晶引起人们的极大兴趣和关注。附生结晶是一种结晶物质在另一种结晶物质上的取向生长,二者之间有特殊的作用。这种附生作用对结晶聚合物共混体系的形态结构和性能有极为重要的影响。本工作以电子显微镜方法研究熔体拉伸直接导致等规聚丙烯(iPP)和高密度聚乙烯(HDPE)共混物附生结晶。     

PET/PC共混体系结晶行为研究进展

聚对苯二甲酸乙二醇酯(PET)／聚碳酸酯(PC)合金材料是综合性能优异的工程塑料,对其结晶行为的研究,可为设计,调节及控制材料的性能提供理论基础。评述了近年来PET／PC共混体系结晶行为研究的最新工作和理论进展,包括PET／PC共混体系酯交换、相容性及结晶性的关系,退火对PET／PC共混体系结晶行为的影响,第三组分对PET／PC共混体系结晶行为的影响,PET／PC共混体系结晶动力学以及PET／PC共混体系高压结晶行为的研究。并对今后的深入研究作了展望。     

Crystal Form Transition during Heating of Solvent-induced Crystalline Syndiotactic Polystyrene

Syndiotactic polystyrene (sPS), as one kind of potential engineering plastics, has enjoyed intense academic and industrial interest recently1. There are four different crystalline forms sPS could be formed altogether2, among them γ and δ forms belong to solvent-induced crystal and both have chains in the S(2/1) helical conformation (δ form indicate either different clathrate structure which include molecules of solvent or emptied clathrate form-δe), whereas α and β forms which have chai…     

液晶离聚物

液晶离聚物是一种兼具液晶高分子和离聚物结构特征的新型聚合物。本文根据有关文献就其分类，合成，表征作了简要的综述，并对其研究发展前景进行了必要的讨论。     

Amiloride Conformation: The Effect of Different Crystalline Environments

The crystal structure of (3,5-diamino-6-chloro-pyrazine-2-carbonyl)-guanidine picrate has been determined with the use of X-ray diffraction method. The crystals are triclinic, space group PI with a = 10.2980(4) Å, b = 12.4322(4) Å, c = 14.4310(5) Å, = 66.317(2), = 70.077(2), = 72.462(2), Z = 2. The asymmetric unit consists of one amiloride cation, picrate anion, and three DMSO molecules from the solvent, two of which are disordered. The molecules of amiloride and picrate are almost planar. The guanidine group of amiloride is protonated and makes a kind of a salt bridge with phenolate and forms hydrogen bonds with ortho-nitro oxygen atoms of picrate. The pairs of amiloride cation–picrate anion, transformed by the inversion center and translated by 2 a and c, are mutually parallel and are connected by molecules of DMSO. The conformation of amiloride picrate is compared with those in other crystal structures.     

Structure of Plastic Crystalline Succinonitrile: High‐Resolution in situ Powder Diffraction

The temperature dependent (150–290 K) crystal structure of the low‐temperature α‐phase, and high temperature β‐phase, of succinonitrile has been determined by high resolution in situ powder diffraction. The α‐phase has a monoclinic unit cell that contains four gauche molecules and belongs to the P2₁/a space group. The crystal undergoes a reversible first‐order phase transition at 233 K into the high temperature β‐phase. The lattice parameters increase with temperature and the phase transition leads to an abrupt 6.7 % increase in volume. The β‐phase crystallizes into a bcc‐structure that belongs to the space group. The high temperature phase; however, is a highly disordered plastic crystal at room temperature that contains both gauche and trans molecules. The non‐linearity in the overall isotropic temperature‐factor indicates other possible phase transitions in the temperature range of 233–250 K.     

Single Crystalline,Non-stoichiometric Cocrystals of Hydrogen-Bonded Organic Frameworks

Porous frameworks composed of non-stoichiometrically mixed multicomponent molecules attract much attention from a functional viewpoint. However, their designed preparation and precise structural characterization remain challenging. Herein, we demonstrate that cocrystallization of tetrakis(4-carboxyphenyl)hexahydropyrene and pyrene derivatives ( CP-Hp and CP-Py , respectively) yields non-stoichiometric mixed frameworks through networking via hydrogen bonding. The composition ratio of CP-Hp and CP-Py in the framework was determined by single crystalline X-ray crystallographic analysis, indicating that the mixed frameworks were formed over a wide range of composition ratios. Furthermore, microscopic Raman spectroscopy on the single crystal indicates that the components are not uniformly distributed such as ideal solid solution, but are done gradationally or inhomogeneously.     

Single Crystalline,Non-stoichiometric Cocrystals of Hydrogen-Bonded Organic Frameworks

Porous frameworks composed of non-stoichiometrically mixed multicomponent molecules attract much attention from a functional viewpoint. However, their designed preparation and precise structural characterization remain challenging. Herein, we demonstrate that cocrystallization of tetrakis(4-carboxyphenyl)hexahydropyrene and pyrene derivatives ( CP-Hp and CP-Py , respectively) yields non-stoichiometric mixed frameworks through networking via hydrogen bonding. The composition ratio of CP-Hp and CP-Py in the framework was determined by single crystalline X-ray crystallographic analysis, indicating that the mixed frameworks were formed over a wide range of composition ratios. Furthermore, microscopic Raman spectroscopy on the single crystal indicates that the components are not uniformly distributed such as ideal solid solution, but are done gradationally or inhomogeneously.     

Correspondence on “Crystalline Porous Organic Salt for Ultrarapid Adsorption/Desorption-Based Atmospheric Water Harvesting by Dual Hydrogen Bond System”

In a recent Research Article, Ben and co-workers reported a hydrogen-bonded framework prepared from a 4⁺ tetra-amidinium component and a 4⁻ tetra-sulfonate component, termed CPOS-6. They showed that CPOS-6 could reversibly adsorb and desorb water over a narrow humidity window, and that this material offered potential for applications in atmospheric water harvesting. This conclusion was supported by experiments that showed the material was stable over 50 adsorption/desorption cycles and that the kinetics of these cycles were very rapid. In this Correspondence we present additional structural data regarding this framework in both its hydrated and dehydrated states and thus discern the mechanism of water binding. These data do not disagree with Ben and co-workers’ findings: rather they emphasise how remarkable the cyclability and rapid kinetics of adsorption/desorption are, as these processes involve a complete crystal-to-crystal rearrangement of the framework.     

纳米结构MnO2的水热合成、晶型及形貌演化

以水热合成方法制备了具有不同微观形貌的纳米结构MnO2, 并以X射线衍射(XRD), 扫描电镜(SEM)和X射线光电子能谱(XPS)等方法对其进行了表征. 跟踪考察了二氧化锰的晶型及微观形貌随水热反应时间的演变过程, 在Ostwald ripening机理作用下, MnO2晶型转化过程为γ-MnO2, α-MnO2和β-MnO2, 同时形貌由微米球转变为海胆结构、空心海胆结构和纳米线.     

ABA／PET液晶共聚酯酰胺的结构与性能

研究了对象基苯甲酸（ＡＢＡ）／聚对苯二甲酸乙二酯（ＰＥＴ）液晶共聚酯酰胺的晶体结构，以及热性能、流变学和力学性质。广角Ｘ射线衍射研究结果表明ＡＢＡ链节的引入使ＰＥＴ的晶态结构发生畸变，但大部分结晶衍射峰仍然存在。随着ＡＢＡ含量的增加，各晶面间距基本不变，微晶尺寸显著增大，结晶度急剧降低。差示扫描量热分析和热失重结果表明共聚酯胺具有优良的热稳定性，并且随着ＡＢＡ含量的增加，共聚物的热稳定性提高，共聚     

热致液晶共聚酯的熔融行为及结晶结构研究

采用ＤＳＣ及ＷＡＸＤ手段对含对羟基苯甲酸热致液晶共聚酯的相变行为及结晶结构进行了初步研究。结果表明，聚合物中存在两种同属于正交晶系的不同堆积形态结晶结构，在相变上表现为双重熔融峰。