水相模拟体系中胆红素钙的合成与表征

以水溶液作为生物模拟体系,在不同反应摩尔比条件下,合成了一系列胆红素钙,利用中、远红外光谱,多晶X射线粉末衍射谱,电感耦合等离子体发射光谱等对合成的胆红素钙进行了表征.结果表明:胆红素钙的组成在Ca(C33H34N4O6)和Ca2.4(C33H32N4O6)(H2O)0.06之间变化,具有非化学计量性质,显示了与生物矿化产物相类似的特征.不同的胆红素钙其配位情况有所不同,并且钙含量较高时形成的胆红素钙有较好的结晶态.     

含不同氨基酸反相微乳体系中胆红素钙的形成与稳定性

在聚乙二醇辛基苯基醚(OP)/正己醇/环己烷/水反相微乳液和甘氨酸、精氨酸、组氨酸3种含不同氨基酸的反相微乳液体系中成功地制备了胆红素钙,考察了氨基酸对胆红素钙的组成、形貌、配位方式及稳定性的影响。采用透射电子显微镜、表面Zeta电位、红外光谱和紫外光谱等测试技术对样品进行了表征。结果表明,此反相微乳体系中所得球形颗粒为中性胆红素钙,平均粒径80nm,在水分散体系中颗粒的稳定性随分散体系pH值的升高而先降低后增加,当pH=4.9时,颗粒表面Zeta电位值为0。3种亲水性氨基酸的加入促进胆红素钙颗粒的成核,最终影响胆红素钙的微结构、颗粒形貌和稳定性。当加入的氨基酸为组氨酸、甘氨酸时,所得胆红素钙球形颗粒形貌无明显变化,但平均粒径依次减小至60和40nm,其水分散体系中的稳定性明显增加;当加入的氨基酸为精氨酸时,所得胆红素钙颗粒形貌不规则,粒径非常小,不稳定,易形成聚集体。     

不同模拟体液中水化硅酸三钙固化体的体外生物活性行为(英文)

研究水了化硅酸三钙(Ca3SiO5,C3S)固化体的体外生物活性行为。结果表明,干C3S固化体中含有23.97wt%的Ca(OH)2,Ca(OH)2的溶解导致模拟体液(Simulated Body Fluids,SBF)的pH值上升;磷灰石颗粒优先诱导沉积于C3S固化体表面,随后碳酸钙和磷灰石颗粒共同沉积于C3S固化体表面;HCO3-是SBF模拟体液内主要的缓冲离子;Ca(OH)2碳化和CaCO3沉积主要导致SBF的pH值下降。由于离子交换作用的减弱,C3S固化体表面最终被磷灰石完全覆盖,磷灰石的沉积促使SBF的pH值进一步降低。因此,对于C3S和其衍生材料的体外生物活性和生物相容性必须考虑到HCO3-在体内的实际含量和行为。     

Pt在多晶Au微盘电极上电沉积成核与晶体生长

于不同H2PtCl6浓度和超电势下,应用Fleischmann的电结晶成核及晶体生长模型和Barradas Bosco的电化学成相吸附成核模型,拟合多晶Au微盘电极( =30μm)上电沉积Pt的恒电势阶跃电流暂态曲线.得出:在稀H2PtCl6溶液中,上述沉积过程初期,发生H2PtCl6吸附并遵循二维瞬时成核与圆柱形生长模型.二维生长速率常数随超电势线性增加.跟随其后的是核的层状生长,其速率常数随超电势呈非线性变化.而在高浓H2PtCl溶液中,沉积机理转变为H2PtCl6的吸附、瞬时成核及三维正圆锥形的生长模式.其晶核的垂直生长速率常数kPERP比水平生长速率常数kPARA大两个数量级以上.况且,logkPERP随超电势线性增加,而logkPARA则随超电势呈反S形变化的关系.相同超电势下,无论kPERP还是kPARA,均比稀H2PtCl6溶液中的二维层状生长速率常数大几个数量级.     

游离胆红素与固体碳酸钙的相互作用

应用红外光谱的方法研究了溶液中游离胆红素与固体碳酸钙的相互作用,探讨了色素型胆结石的形成机理.研究结果表明,溶液中游离的胆红素可以与固体碳酸钙作用,游离胆红素通过与固体碳酸钙表面的钙作用生成难溶性的胆红素钙络合物.牛磺胆酸钠、胆酸钠和脱氧胆酸钠的加入能阻止游离胆红素与碳酸钙的作用,其中加入牛磺胆酸钠后,游离胆红素几乎不与碳酸钙作用.     

脂质体中不同种类羧酸钾对草酸钙晶体生长的调控作用

首次研究了狼磷脂-水脂质体中不同种类羧酯钾对草酸钙晶体生长的调控作用 。加入一元DAc只诱导一水草酸钙（COM）生成。二元K_2tart在其浓度大于1. 0mmol/L时可以诱导三水草酸钙（COT）生成。而加入三元的K_3cit和四元的 K_2edta后， 在不同的浓度下，可以分别诱导COM，二水草酸钙（COD）和COT的生 成。在低浓度（—3.3-17mmol/L）范围，， COD含量达到100%；而在较高浓度(＞ 17mmol/L)时，COD减少，COT含量增加。在不同的浓度区间，无论是COM含量减少， 还是COT含量增加，或者是COD含量的先增加后减少，均与该羧酸钾浓度的对数呈线 性关系。不同羧酯钾抑制COM生长并诱导COD形成的能力顺序为：K_3cit＞K_2edta ＞＞K_2tart-KAC,诱导COT生长的能力顺序为：K_2tart＞＞K_3cit＞K_2edta＞＞ KAc.由此推测抑制草酸钙结石形成的潜在效率依次为：K_3cit＞K_2edta＞＞ K_2tart＞＞KAc.     

Mg2+和Fe3+对反相微乳体系中胆红素钙形成的影响

在反相微乳体系中制备了一系列胆红素配合物,采用红外光谱、ICP-AES和Zeta电位进行了相关的测试与表征。结果表明:铁、镁离子与钙离子共同与胆红素发生了配位作用,且促进了体系中胆红素钙的生成;铁、镁离子的加入导致了胆红素配合物颗粒在水分散体系中的稳定性降低,易聚集。     

在胆酸盐介质中用氨羧配位剂溶解胆红素钙的动力学研究

以胆红素及其钙盐为主要成分的色素型胆结石病在国内为常见病,多年来曾研究用钙配位剂溶石的可能性,但效果不明显,主要由于对配位剂溶石机理了解不够。为此本文在模拟胆汁背景条件下,用氨羧配位剂溶解模拟结石的胆红索钙压片进行了动力学研究,其结果有利于阐明胆色素结合配位溶解的机理和决定溶石效果的因素。     

氟化钾团簇的相变、成核和重结晶的分子动力学模拟

我们利用Born-Mayer-Huggins相互作用势函数对(KF)_N(N=108，256，500和864)团簇进行了分子动力学(MD)模拟。为了避免周期性边界条件对相变、成核和重结晶的干扰作用，对体系采用了自由边界。基于MD模拟结果，对团簇的熔化温度、熔化焓、扩散系数、成核速率、固液界面自由能、临界核大小等进行了计算和讨论。在对(KF)₈₆₄双晶团簇的热退火模拟中，观察到了固态的重结晶和晶粒的生长。经典的成核理论成功地解释了(KF)₈₆₄双晶团簇的重结晶MD模拟结果。     

胆红素/HDEHP反相微乳液的制备及应用

磷酸酯;胆红素钙;生物矿化;胆红素/HDEHP反相微乳液的制备及应用     

糖蛋白/胆红素钙水溶性复合物的形成及光谱研究

采用傅立叶变换红外光谱(FT-IR)，结合减法、二阶导、退卷积和曲线拟合等先进光谱技术，紫外可见光谱，ICP-AES分析方法，对不同质量比的α-酸性糖蛋白(AGP)和胆红素钙(CaBR)反应后的滤液进行了研究。结果表明，AGP和CaBR之间存在着较强的相互作用，导致AGP二级结构的有序性增加，CaBR的水溶性增大，两者形成了可溶性的AGP/CaBR复合物。     

1-羟乙基二磷酸二钠(EHDP)对胆红素钙结晶形成的抑制作用

研究了1-羟乙基二磷酸二钠(EHDP)在有,无胆酸钠(CA)存在下,对胆红素(BL)与钙离子反应生成胆红素钙结晶过程的影响。实验结果表明,EHDP对胆红素钙结晶的形成有抑制作用,而胆酸钠的存在加强了这一作用。     

Atomic-Scale Tracking of Dynamic Nucleation and Growth of an Interfacial Lead Nanodroplet

Revealing the evolutional pathway of the nucleation and crystallization of nanostructures at the atomic scale is crucial for understanding the complex growth mechanisms at the early stage of new substances and spices. Real-time discrimination of the atomic mechanism of a nanodroplet transition is still a formidable challenge. Here, taking advantage of the high temporal and spatial resolution of transmission electron microscopy, the detailed growth pathway of Pb nanodroplets at the early stage of nucleation was directly observed by employing electron beams to induce the nucleation, growth, and fusion process of Pb nanodroplets based on PbTiO₃ nanowires. Before the nucleation of Pb nanoparticles, the atoms began to precipitate when they were irradiated by electrons, forming a local crystal structure, and then rapidly and completely crystallized. Small nanodroplets maintain high activity and high density and gradually grow and merge into stable crystals. The whole process was recorded and imaged by HRTEM in real time. The growth of Pb nanodroplets advanced through the classical path and instantaneous droplet coalescence. These results provide an atomic-scale insight on the dynamic process of solid/solid interface, which has implications in thin-film growth and advanced nanomanufacturing.     

蔗糖/精氨酸体系中碳酸钙结晶的仿生合成

该文以更加接近生物矿化的方法研究了蔗糖/精氨酸体系对碳酸钙晶体取向、形貌和晶型的控制作用.XRD 分析表明,在蔗糖/L-精氨酸混合体系中合成的晶体主要为碳酸钙的球霰石晶型及少量的方解石型,在单独的蔗糖或L-精氨酸溶液中基本是球霰石晶型.SEM分析表明,蔗糖和L-精氨酸均可诱导形成特殊形貌的碳酸钙.实验结果表明,蔗糖/精...     

温度对PbO2电沉积形核生长过程的影响研究

为了探讨温度对PbO₂电沉积形核生长过程的影响,在25℃、35℃、45℃、55℃、65℃使用电化学工作站测试了PbO₂在玻碳电极上沉积过程的循环伏安曲线、计时电位曲线及计时电流曲线,并对不同温度下电沉积的PbO₂镀层进行了SEM和XRD分析. 结果表明,在不同温度下PbO₂都经历了成核和核生长过程. 温度的升高没有改变PbO₂电沉积三维连续成核的模式,降低了沉积过程溶液阻力,对成核和晶体生长速率均有促进作用,在晶核密度达到饱和晶核密度以前,是以促进成核速率为主,减小PbO₂颗粒尺寸. 达到饱和晶核密度后,电沉积后期以促进晶体生长速率为主,不利于形成细小PbO₂颗粒.高温使得析氧速率提高,能耗增大.由实验结果得出,在55℃时得到的PbO₂镀层粒径最小.     

Liquid Metastable Precursors of Ibuprofen as Aqueous Nucleation Intermediates

The nucleation mechanism of crystals of small organic molecules, postulated based on computer simulations, still lacks experimental evidence. In this study we designed an experimental approach to monitor the early stages of the crystallization of ibuprofen as a model system for small organic molecules. Ibuprofen undergoes liquid–liquid phase separation prior to nucleation. The binodal and spinodal limits of the corresponding liquid–liquid miscibility gap were analyzed and confirmed. An increase in viscosity sustains the kinetic stability of the dense liquid intermediate. Since the distances between ibuprofen molecules within the dense liquid phase are similar to those in the crystal forms, this dense liquid phase is identified as a precursor phase in the nucleation of ibuprofen, in which densification is followed by generation of structural order. This discovery may make it possible to enrich poorly soluble pharmaceuticals beyond classical solubility limitations in aqueous environments.     

Ultrasound Stimulated Nucleation and Growth of a Dye Assembly into Extended Gel Nanostructures

A squaraine dye functionalized with a bulky trialkoxy phenyl moiety through a flexible diamide linkage ( GA‐SQ ) capable of undergoing self‐assembly has been synthesized and fully characterized. Rapid cooling of a hot solution of GA‐SQ to 0 °C results in self‐assembled precipitates consisting of two types of nanostructures, rings and ill‐defined short fibers. The application of ultrasound modifies the conditions for the supersaturation‐mediated nucleation, generating only one kind of nuclei and prompting the formation of crystalline fibrous structures, inducing gelation of solvent molecules. The unique self‐assembling behavior of GA‐SQ under ultrasound stimulus has been investigated in detail by using absorption, emission, FT‐IR, XRD, SEM, AFM and TEM techniques. These studies reveal a nucleation growth mechanism of the self‐assembled material, an aspect rarely scrutinized in the area of sonication‐induced gelation. Furthermore, in order to probe the effects of nanoscale substrates on the sonication‐induced self‐assembly, a minuscule amount of single‐walled carbon nanotubes was added, which leads to acceleration of the self‐assembly through a heterogeneous nucleation process that ultimately affords a supramolecular gel with nanotape‐like morphology. This study demonstrates that self‐assembly of functional dyes can be judiciously manipulated by an external stimulus and can be further controlled by the addition of carbon nanotubes.     

High-pressure Nucleation of Low-Density Polymorphs**

New polymorphs β and γ of bis-3-nitrophenyl disulphide, crystallized above 0.3 GPa, are less dense than the ambient-pressure polymorph α. This counterintuitive density relation results from the high-entropy nucleation and subsequent kinetic crystallization. The work performed by pressure compensates the high entropy and temperature product, substantiated in varied conformers and increased chemical potential. Pressure-increased viscosity promotes the kinetic polymorphs, in accordance with empirical Ostwald's rule of stages. It contrasts to mechanochemical techniques, favouring high-density polymorphs.