SELF-ORGANIZING ASSEMBLY MODELING BASED ON RELATIONAL CONSTRAINTS

On the research of assembly modeling of mechanical products,current CAD systems can only support the design Process of component-to-assembly. It is difficult to realize the design process of assembly-to -component.The theory of self-organizing assembly modeling based on relational constraints is proposed, which implements the product design of assembly-to-component commencing with conceptual design and supporting abstract design and step-nice refinement design.

Layer-by-layer assembly of nanocomposite films with thickness up to hundreds of nanometers

Polyelectrolyte/polyelectrolyte, organic molecule/colloidal CdS and polyelectrolyte/MWCNT films were fabricated via the layer-by-layer assembling technique. The assembled films were characterized by UV-vis spectrophotometer, X-ray diffractometry, nano profilometer and scanning electron microscopy. The results demonstrate that the layer-by-layer assembling technique can be used to make the nanoscaled films from polyelectrolytes and thicker composite films from suitable precursor materials. Both organic molecule/colloidal CdS films and PEI/MWCNT films with thickness of hundreds of nanometers were obtained. For the organic molecule/colloidal CdS films, a reasonable explanation for the result is that both the organic molecules and the CdS particles aggregate in the films. For the PEI/MWCNT films, obviously, it is the MWCNT that makes the great contribution to the film thickness.

Rheological Properties and Self-Assembled Structures of Newly Synthesized Amide Organogelators, Butane 1,2,3,4-Tetracarboxamides, in Isododecane

The objectives of this study were to develop organogelators suitable for industrial use and to probe the viscosity-increasing mechanisms of such organic compounds. Butane 1,2,3,4-tetracar-boxamides, new organogelators that each has four chemical side chains, were synthesized. Two oleyl groups, each with another two side chains that varied from C4 to C18, were introduced to control the solubility and crystallinity of the compounds, and their solubility and rheological properties in isododecane were evaluated. The rheological properties of different amide compounds, N,N’,N’’,N’’’-1,2,4,5-tetra alkyl/alkenyl pyromellitamides with the same four chemical side chains, were also obtained to consider the skeleton’s effect on self-assembled structures due to hydrogen bonding among amide groups. The viscosity-increasing mechanism of the compounds was discussed through linkage of the molecular design, rheological evaluation, and morphological observations in this paper.

装配式装修背景下建材污染物释放特性及其预测研究

装修材料在生产和使用过程中会释放出有害物质,污染空气质量。为此,研究基于装配式装修的建材污染物释放特性,将大容量环境测试舱运用于建材污染物释放能力测试,以分析建材污染物的浓度变化,对其长期释放规律进行预测。研究结果表明,硅酸钙板在第10天的甲醛、苯、VOC浓度值分别为0.14、0.30、0.46 mg/m^(3),低于密度板材的0.29、1.14、1.72 mg/m^(3)。以某住宅为例,装配式装修的综合指数为0.91,在0.50至1.00之间,这表明该住宅室内空气未遭受污染。综上所述,研究提出的建材污染物释放规律预测具有可行性,且装配式装修可以有效降低建材污染物浓度,提升空气质量。

PC-SERS联用技术分析纳米银修饰纸质基底上的混合染料

纸质基底色谱技术与表面增强拉曼光谱技术的结合(PC-SERS)不仅具备纸色谱的分离能力,而且具备SERS技术的指纹式识别性能,在混合物分析检测研究中具有重要意义。本研究采用静电沉积的方法在滤纸表面沉积银纳米颗粒(Ag nanoparticles,Ag NPs),通过调控滤纸表面修饰的银纳米粒子的数量和密度,优化了复合滤纸SERS传感性能,结合比移值、SERS光谱分析可用于日落黄和颜料红57混合染料的分离检测。结果表明,所制备出的浓缩10倍银溶胶复合滤纸基底显示出了较好的灵敏度,最佳展开剂体系为V正丁醇∶V乙醇∶V氨水=3∶1∶1,展开后SERS检测限可低至10^(-6)mol/L,在口红样品检测中取得满意效果。

类装配体的构建方法及应用

背景:近年来,许多研究证实类装配体可弥补类器官无法完全重现细胞与细胞、细胞与基质间的互作关系的缺点,但处于发展初期的类装配体构建方式种类繁多,更无统一标准。目的:综述目前类装配体的构建方法、应用和优缺点,为促进体外细胞模型的发展和完善提供指导。方法:以“assembloids,organoids,tumor microenvironment,organoids AND assemble,organoids AND microenvironment”为英文检索词,以“类装配体、类器官、类组装体、肿瘤微环境、类器官重组、多细胞模型”为中文检索词,检索PubMed、中国知网及万方数据库,在排除无关文章及去重后筛选出94篇文章进行综述。结果与结论:①根据细胞来源的不同,可将类装配体的构建方法分为自体组装、直接组装及混合组装3种;根据细胞培养方式的差异,又可分为悬浮培养法、“基质”培养法、器官芯片培养法和3D生物打印法。②自体组装过程涵盖细胞和组织的发育等早期过程,因此,在器官发育和发育障碍等领域有广阔的前景,而分化成熟细胞的功能相对较完善,由它们直接组装成的类装配体在功能障碍及细胞损伤性疾病的研究中更具潜力;自体组装或在器官移植方面更胜一筹,直接组装将更适用于组织损伤的修复,混合组装综合了前两者的优势,多用于探索微环境中细胞的生理和病理机制以及药物筛选等领域。③虽然不同的类装配体各具优势,但都面临脉管系统不完善的难题;每种类装配体构建方法也存在各自的局限性,如自体组装形成的类装配体中细胞分化程度与体内的差异,直接组装模型的细胞种类固定、无法完全反映复杂的体内微环境等均是亟待解决的难题。④将来随着类装配体培养技术的不断完善,研究者们可以在体外组装出具有更复杂组织结构的仿生类器官,为研究人类组织和器官生理及病理过程提供无限趋近真实的模型。

小鼠卵母细胞减数分裂中心粒蛋白SAS-6的表达和亚细胞分布

目的研究在小鼠卵母细胞减数分裂成熟过程中,中心粒蛋白SAS-6的蛋白表达模式和亚细胞定位分布。方法采用免疫荧光染色方法分析SAS-6在中国仓鼠卵巢细胞系(CHO细胞)有丝分裂过程中和卵母细胞减数分裂过程中的亚细胞分布,及其与微管组织中心(MTOCs)和囊泡之间的相关性;通过Western blot测定SAS-6在小鼠卵母细胞减数分裂各阶段的蛋白质表达水平。结果在体细胞有丝分裂过程中SAS-6始终与中心粒周围蛋白Pericentrin保持共定位;在小鼠卵母细胞内SAS-6恒定表达于减数分裂的各个阶段并特异性聚集在高尔基体基质蛋白GM130阳性的囊泡上,而没有分布在MTOCs上。结论SAS-6可能在卵母细胞减数分裂过程中通过调节囊泡而参与纺锤体的趋皮质区迁移。

磷脂改性镓基金属-有机框架的制备及其抗菌性能研究

抗生素的滥用会加速细菌进化并产生超级耐药菌,因此急需开发新型高效的非抗生素基抗菌剂。以氯化镓(GaCl_(3))和四(4-羧基苯基)卟啉(Tetrakis(4-carboxyphenyl)porphyrin,TCPP)为原料,通过自组装法制备了具有镓离子和光动力双重抗菌活性的Ga-TCPP框架(Frameworks)材料(GaTF)。利用卵磷脂(Phosphatidylcholines,PC)进行表面改性,得到良好生物相容性的GaTF@PC。GaTF@PC在655nm光源照射下可有效产生单线态氧,并在磷酸盐缓冲液中逐渐解离,从而释放出Ga^(3+)。以大肠埃希菌(E.coli)和金黄色葡萄球菌(S.aureus)为实验菌种研究了材料浓度、光照强度对抗菌性能的影响。抗菌实验结果显示,GaTF@PC的抗菌效果与材料浓度和光照强度呈正相关。当材料浓度为30μg·mL^(-1)时,经光强为100mW·cm^(-2)的655nm光源照射10min后,对E.coli和S.aureus的抗菌率均达99%以上,具有良好抗菌效果。

POSS基两亲性嵌段共聚物的合成及自组装行为

用不同结构三乙氧基硅烷为原料,通过水解缩合和环氧化的方法合成了环氧基苯基低聚笼型倍半硅氧烷,再利用胺基和环氧开环反应与聚醚胺反应合成POSS基嵌段共聚物(PEA-POSS),最后将苯基结构羧酸化合成两亲性嵌段共聚物(PEA-POSS-COOH)。利用傅里叶变换红外光谱(FT-IR)和核磁共振氢谱(1H-NMR)表征了PEA-POSS-COOH的化学结构。采用溶剂挥发诱导法促使PEA-POSS-COOH自组装,形成以疏水POSS为核、亲水PEA链为壳的球形胶束。利用扫面电子显微镜(SEM)、能量分散型X射线光谱(EDS)、动态激光光散射(DLS)、小角X射线散射仪(XRD)和差示扫描量热仪(DSC)表征了组装体的形貌与结构性能。结果表明,POSS基两亲性嵌段聚合物可组装成粒径约1.14μm的球形胶束,且POSS结构中的π-π堆叠作用使得球形胶束具有较为稳定结构,熔点提高。

利用生物打印技术“自下而上”地设计生物组织

随着人们对组织和器官需求的不断增长,组织工程领域取得了长足的发展。然而,再造具有功能的组织和器官仍然是一个巨大挑战。近些年,为了构建具有生理功能的组织,不少研究提出了“自下而上”的组织工程策略。该策略主要包括两个关键步骤:模块化组织的构建和组织模块的组装。生物打印技术因其高度自动化、在高精度组织工程方面的卓越能力以及构建多成分组织的潜力,在“自下而上”的组织构建研究中得到广泛应用。在本综述中,我们分别总结了应用于模块化组织制造和组装的技术,特别阐述了“自下而上”生物打印的机制和应用,最后总结了“自下而上”组织工程未来趋势,希望为该领域的研究人员提供有用的参考和灵感。

金属有机框架多面体微颗粒自组装超结构的设计策略

周期性超结构通常具有优异的光学性能,在光子晶体学、催化、传感等领域具有重要意义。在此,采用了声悬浮法和点滴法来探索多维有序金属有机框架(MOF)超结构的组装策略,并建立了组装参数与超结构维度和有序性之间的关系。结果表明:声悬浮法对MOF颗粒分散液浓度和颗粒的单分散性包容性极强,适用于三维超结构的自组装;点滴法对MOF颗粒分散液浓度和颗粒的单分散性有较高的要求,能组装出大面积二维MOF单层膜。该研究为利用各向异性微粒组装多维超结构提供了新的策略。

DNA-有机分子杂化体的合成及应用研究

随着DNA化学修饰技术的发展,疏水分子和DNA通过固相反应合成了两亲性DNA有机杂化物,两亲性有机杂化物可以被视为新的构建块,然后在溶液中自发组装成各种纳米结构,组装体在药物输送、靶向递送及生物传感等领域有着重要的应用。论述了DNA-有机分子杂化体的组装、合成方法以及在生物医药方面的研究进展。

基于建设单位视角的装配式建筑装配方案选择研究

在装配式建筑项目实践过程中,装配方案的选择决定了工程项目的成败。为了实现装配方案的合理选择,从建设单位视角出发,应用扎根理论和层次分析法(AHP)定性定量相结合的方法确定建设单位对装配方案的考量因素。研究表明,政府支持与监管、综合收益、感知风险、自我效能、技术成熟度是影响建设单位选择装配方案的重要因素。基于研究结论,为装配方案的选择提出建议。

多组分锆基金属有机骨架研究进展

锆基金属有机骨架(Zr-MOFs)具有丰富的结构类型、出色的热稳定性和化学稳定性以及多样化的功能,被认为是最具应用前景的新型晶态多孔骨架材料之一。通过一锅法及合成后修饰法等多种方法可将具有特定功能化官能团的有机配体引入Zr-MOFs体系,进而实现多组分锆基金属有机骨架(MC-Zr-MOFs)的构筑及对Zr-MOFs孔道环境的有效调控。MC-Zr-MOFs被广泛应用于气体吸附与分离、溶液相客体分子/离子吸附、多相催化、化学传感及光学材料等领域,展现出优异的性能。本文详细梳理了MC-Zr-MOFs的合成策略和应用研究的近期进展,并对其未来发展前景进行了展望。

Photoelectrochemical Studies on High Specific Capacitance-Photoactive Interfaces Based on Poly 3,4- Ethylenedioxythiophene/Metal Oxides Assemblies

Inorganic/organic interfaces (IOI) consist of TiO2/PEDOT (poly 3,4-ethylenedioxythiophene) and [PMo12O40]3- or MoO3/PEDOT were subject to photoelectrochemical studies in both aqueous nanosuspensions and in thin solid films. The effects PEDOT modifier caused on the photoelectrochemical behavior of the IOI were investigated using [Fe(CN)6]4- as the photoactive hydrated electron donor agent. Results show that native PEDOT or PEDOT doped with MoO3 thin films increased charge storage capability evident by the high capacitive current. In the case of nano suspensions composed of TiO2/PEDOT the adsorption process of [Fe(CN)6]3- (photolysis product) control of the photoactivity outcome of the IOI assemblies. TiO2/PEDOT shows a lower heterogeneous photochemical response than native TiO2 in short term photolysis times. At longer photolysis times the IOI shows photoactivity greater than that of native TiO2. The interface activities were explained by analyzing the IOI junction characteristics, such as electron affinity, work function and hole/electrons barrier heights. The aqueous nano-systems retained moderate stability as indicated by the reproducibility of their photocatalytic activities. Both [Fe(CN)6]4-and PEDT contributed to the stability of native TiO2 surfaces.

Stability of M13 Phage in Organic Solvents

The effect of different types of organic solvents on the structural integrity of M13 phages has been directly visualized by transmission and scanning electron microscopy. The exposure of M13 phages to apolar hexane had no effect on the structure of the phages for up to 8 h. In contrast, phages showed ~10-fold contraction into rod-like I-forms and to flattened spheroids with ~12 nm diameter upon exposure to polar organic solvents. We show that this finding can be beneficial for the macromolecular self-assembly and in broader aspects, to enhance the spatial arrangement of desired inorganic nanoparticles in the rapidly developing field of virotronics.

Small Molecule Organic Nanostructures—Fabrication and Properties

Organic materials are of great interest for the development of low cost electronic and optoelectronic devices. Although majority of research on organic materials is concerned with synthesis of novel compounds and organic thin films, organic nanostructures are attracting increasing interest in recent years. We briefly review different growth methods of organic nanostructures, which can be roughly divided into vapor deposition methods and self-assembly techniques in solution. Then we highlight some interesting properties of organic nanostructures, as well as possible applications, includinf field emission, electronic and optoelectronic devices.

锆基金属有机骨架材料/活性碳纤维复合材料的制备及其降解性能

为改善活性碳材料在芥子气防护过程中存在的吸附易饱和、处置不当易造成二次污染等问题,制备了一种以活性碳纤维(ACF)为基材的新型降解材料。首先利用抽滤法将纳米锆溶胶沉积到ACF表面,随后采用层层自组装法,以ZrCl 4为金属簇、对苯二甲酸为有机配体,在纤维表面原位生长锆基金属有机骨架材料(Zr-MOF),最终制备出一种对芥子气模拟剂2-氯乙基乙基硫醚(CEES)有较高降解性能的Zr-MOF/ACF复合材料,综合采用扫描电子显微镜、X射线衍射、比表面积及孔结构分析等手段进行表征,并测试了其对CEES的降解性能和力学性能。结果表明:锆溶胶的引入有效提高了Zr-MOF在ACF表面的负载量,从而提升了所得材料对CEES的降解性能,并且力学性能也获得显著提高;综合考虑样品的降解性能、拉伸强度与制备效率,将经锆溶胶处理后进行15次循环处理的样品定为最佳工艺样品,经过24 h反应后,对CEES的降解率为83.08%,断裂强度为0.40 MPa,相比于酸化处理的活性碳纤维毡,复合材料的拉伸强度提升了80.99%。

长期施有机肥对设施番茄土壤稀有和丰富细菌亚群落的影响

【目的】将稀有和丰富细菌亚群落从整体群落中加以区分并探索两者分别对长期施肥的响应特征,为解析农业活动对微生物多样性与土壤功能稳定性之间的关系提供新视角。【方法】基于设施番茄长期定位试验,采集4个不同处理土壤样品:不施肥(M0)、低量有机肥5.68 t·hm^(-2)(M1)、中量有机肥8.52 t·hm^(-2)(M2)和高量有机肥11.36 t·hm^(-2)(M3),利用Illumina MiSeq高通量测序技术,分析稀有和丰富细菌亚群落多样性、群落组成、共现网络和潜在功能差异,阐明两者对长期施肥的响应规律,并探讨驱动稀有和丰富细菌亚群落多样性和施肥响应差异的关键环境因素。【结果】稀有细菌亚群落α和β多样性均显著高于丰富细菌亚群落,且物种组成和潜在功能也与丰富细菌差异明显。功能预测结果显示丰富细菌负责设施农田主要生态系统功能,如养分和能量代谢,而稀有细菌更多体现在辅助功能上(例如辅酶代谢),为微生物群落功能冗余做出贡献。不同细菌亚群落多样性和组成对长期施肥响应差异较大,其中,与不施肥相比,长期施用有机肥和化肥使稀有细菌亚群落丰富度显著提高19.8%—53.8%、多样性显著提高5.8%—8.0%,总相对丰度显著提高1.1—1.2倍,改变稀有细菌亚群落组成和结构,并且随着有机肥施用量增加,稀有细菌丰富度显著提升,亚群落组成和结构也发生显著变化;与之相比,长期施肥并未显著改变丰富细菌亚群落多样性,仅群落组成受到影响。同时,细菌共现性网络复杂度随有机肥施用显著增加,且稀有细菌更敏感。非度量多维度分析(NMDS)和Mantel检验结果均显示,影响稀有和丰富细菌亚群落的关键环境因子不同,其中,土壤有机质、全量氮磷有效磷、速效钾、pH、大中团聚体等多种与确定性过程相关的土壤因子显著影响丰富细菌亚群落,结构方程模型(SEM)进一步显示土壤有机质和全磷直接驱动丰富细菌多样性变化;而稀有细菌亚群落受环境过滤的影响程度明显下降,且群落分散性更强,暗示两种亚群落构建机制可能存在差异。【结论】与丰富细菌和整体群落相比,稀有细菌亚群落呈现更高的多样性和独特的群落组成,提高微生物群落功能冗余;长期施肥主要通过影响稀有细菌(即提高多样性、改变群落组成、增加网络复杂度)而非丰富细菌,从而改变细菌整体群落,并且介导稀有和丰富细菌亚群落构建的环境因素也不相同。

An Overview of Molecular Packing Mode in Two-Dimensional Organic Nanomaterials via Supramolecular Assembly

Two-dimensional(2D)organic nanomaterials are attracting increasing research interest and expected to be the ideal candidate for futureproofed flexible electronics and biotechnologies.Owing to the complex molecular structures and multiple intermolecular interactions in organic systems,deeper understanding of rational molecular design and assembly principles is urgently required.In this review,a collection of molecular packing mode in the 2D organic nanomaterials via supramolecular assembly is presented,so as to help explicit the relationship among molecular structures,supramolecular interactions and molecular packing motifs in 2D assembly systems.We also provide a rational and accessible schematic model to demonstrate several typical kinds of molecular packing motifs for the prediction of the 2D morphology.