纳米微粒对低温保护剂溶液玻璃化性质的影响

利用差示扫描量热仪(DSC)研究了加入羟基磷灰石(HA)纳米微粒对低温保护剂溶液玻璃化的影响,实验得到了不同粒径和不同质量浓度的HA纳米微粒加入PVP溶液的玻璃化转变温度与反玻璃化温度.实验结果表明加入纳米微粒能显著的影响低温保护剂溶液的玻璃化性质.且随着纳米微粒质量分数的增加,溶液的玻璃化转变温度与反玻璃化温度均显著...     

纳米微粒对低温保护剂溶液结晶性质的影响

为了研究纳米微粒对低温保护剂溶液结晶性质的影响,实验利用差示扫描量热仪(DSC)测量了加入不同粒径、不同质量分数的HA纳米微粒的乙二醇(EG)低温保护剂溶液的成核温度和结晶焓。实验结果表明:纳米微粒加入EG溶液后,成核温度明显升高,并且随着纳米微粒粒径的和质量浓度的增大而升高显著;加入一定质量浓度(>0.2%)的纳米微粒后,同浓度的低温保护剂溶液的结晶焓稳定地升高。成核温度与结晶焓的升高说明,纳米微粒能够促进低温保护剂溶液的结晶。     

纳米微粒对多元醇水溶液过冷度和水合性质的影响

利用差示扫描量热仪(Pyrid-Diamond DSC),研究乙二醇(EG)和丙三醇水溶液加入0.1%、0.5%质量分数,20nm、40nm、60nm粒径的HA纳米微粒后的过冷度、水合性质,分析HA纳米微粒对线性多元醇水溶液这些特性的影响。实验表明,纳米微粒加入后,线性多元醇水溶液过冷度显著降低,并随纳米微粒粒径增大而减小。水合实验的结果表明,HA纳米微粒对多元醇水溶液的水合性质影响显著,与未加入HA纳米微粒的线性多元醇溶液相比,纳米低温保护剂结晶焓降低,结合水含量增大。     

HA纳米微粒对PEG-600低温保护剂反玻璃化结晶的影响

为了研究羟基磷灰石HA纳米微粒对低温保护剂反玻璃化结晶的影响,本文利用DSC和低温显微镜研究了含有不同粒径(20nm、40nm、60nm)和不同质量浓度(0.1%、0.2%、0.4%、0.8%)HA纳米微粒的PEG-600(50%,w/w)溶液反玻璃化过程中的结晶现象.试验结果表明:与未添加纳米微粒的PEG-600溶液相比,加入40nm、0.4%纳米微粒的HA-PEG600溶液的反玻璃化温度升高了7℃;加入20nm、0.4%和40nm、0.8%纳米微粒的HA-PEG600溶液的冰晶生长速率分别降低了35%和提高了50%;纳米低温保护剂溶液的冰晶形貌从大圆形变成了小圆形、枝晶或小圆形中夹带枝晶.     

纳米低温保护剂导热机理分析

纳米低温保护剂溶液比传统的低温保护剂溶液具有更好的导热性能,纳米微粒能够显著提高低温保护剂溶液的降温速率.本文探讨了纳米低温保护剂溶液导热性能的影响因素,提出了纳米低温保护剂导热模型,并通过与实验测得的数据进行了比对分析,结果表明所提出的模型是合理的.     

HA纳米微粒对PEG-600低温保护剂玻璃化性质的影响

为了研究羟基磷灰石HA纳米微粒对低温保护剂玻璃化性质的影响,利用DSC测量了含有不同粒径(20nm,40nm,60nm)和不同质量浓度(0.1%,0.2%,0.4%,0.8%)HA纳米微粒的PEG-600(50%,w/w)溶液的玻璃化温度。试验结果表明:加入40nm,0.8%HA的PEG-600溶液的玻璃化转变温度最大,熔融温度最小,稳定性也最高。与未加纳米微粒的PEG-600溶液相比,玻璃化转变温度提高了5℃,熔融温度降低了4.5℃,稳定性提高了近30%。加入60nm,0.8%HA的PEG-600溶液的玻璃化转变温度和反玻璃化温度都是最小,而熔融温度最大,稳定性也最低。与未加纳米微粒的PEG-600溶液相比,反玻璃化温度降低了4.5℃,稳定性降低了14%。     

纳米低温保护剂水合及玻璃化性质的DSC研究

利用差示扫描量热仪（DSC）研究了羟基磷灰石（HA）纳米微粒对丙三醇溶液冻结过程中水合性质及玻璃化性质的影响．实验结果表明在中高浓度HA纳米颗粒对溶液水合性质影响显著．与未加纳米颗粒的溶液相比,溶液结晶量减少,未冻水含量增大．在较低浓度溶液中,加入纳米颗粒后玻璃化温度变化不明显,但反玻璃化温度明显升高;当溶液浓度达到6...     

纳米颗粒在低温保护剂中分散性研究

纳米颗粒加入低温保护剂中改善低温保护剂结晶性是一个新兴的研究方向,但是由于低温保护剂中化学键的作用和小颗粒效应的影响,纳米颗粒的分散性能往往受到抑制。文中以吸光值为指标,研究了不同纳米颗粒在低温保护剂中的分散和沉降性能。结果发现:尽管不同的纳米粒子的分散效果不同,使用超声波分散纳米颗粒时,5分钟左右为最佳分散时间。纳米粒子受pH值、颗粒种类、低温保护剂中含水量的影响,分散效果不同。     

生物材料玻璃化保存液的热分析

在玻璃化超低温保存生物材料的研究中,低温保护剂的热分析对玻璃化溶液的优化和保存方案的选择具有重要的指导意义.本文以渗透性低温保护剂二甲基亚砜和丙二醇以及非渗透性保护剂聚乙烯醇作为研究对象,利用差式扫描量热法对聚乙烯醇/二甲基亚砜/丙二醇体系进行升温和降温实验,考察了体系的结晶特性、玻璃化转变特性、聚乙烯醇的浓度等因素对体系热性能参数的影响.     

金纳米棒状微粒的胶囊模型及吸收光谱

提出了金纳米棒状微粒的胶囊模型,用Waterman发展的T矩阵方法计算了金纳米棒状微粒的吸收光谱.计算谱和实验谱基本符合,520 nm左右处的吸收峰对应于金纳米棒的横向表面等离体子共振（横模）,长波长处的吸收峰对应于金纳米棒的纵向表面等离体子共振（纵模）.随着金纳米棒纵横比的增加,纵模吸收峰表现出显著的红移,横模吸收峰则微弱地蓝移.此外,计算结果表明,金纳米棒状微粒外部介质的介电常数必须随着金纳米棒纵横比的增大非线性地减小.     

Preparation of silver nanoparticles by laser ablation in polyvinylpyrrolidone solutions

We performed laser ablation of a silver plate in polyvinylpyrrolidone (PVP) aqueous solutions to prepare silver nanoparticles. Secondary laser irradiation onto the prepared colloidal solutions was also carried out. It was revealed that the formation efficiency was increased by addition of PVP as well as the stability of nanoparticles. The result of shadowgraph measurements suggested that the increased ablation efficiency by PVP is attributable to increased secondary etching efficiency by the solvent-confined plasma toward the silver plate. On the other hand, the size decrease of the nanoparticles by addition of PVP was more remarkable during the secondary irradiation process than in the laser ablation (nanoparticle preparation) process. This result indicates that emitted materials interact less sufficiently with PVP molecules in the laser ablation process than in the secondary laser irradiation process.     

Electrospinning method for the preparation of silver chloride nanoparticles in PVP nanofiber

It has been successfully developed by the electrospinning technology that AgCl nanoparticles were incorporated into polymer fiber. In this paper, we chose poly(vinyl pyrrolidone) (PVP) because it was not only a good material for electrospinning but also it was excellent capping reagent of various metal nanoparticles. The silver ions interacted with the carbonyl groups in the PVP molecules. The formation of AgCl nanoparticles inside the PVP were carried out via the reaction of silver ions and HCl. TEM proved that most of the AgCl nanoparticles were uniformly dispersed in the PVP fibers.     

A simple method for selective immobilization of silver nanoparticles

Size-adjustable silver nanoparticles were selectively in situ produced and immobilized on glass surface by simply UV exposing poly(vinylpyrrolidone) (PVP) film containing silver nitrate and 4,4′-diazostilbene-2,2′-disulfonic acid disodium salt (DAS) with the presence of a photomask, during which the crosslink between PVP and DAS completed and the silver nitrate was reduced to silver nanoparticles under the assistance of UV. Because the reduction speed of silver nitrate is much slower than the crosslink reaction of PVP, and a mount of unreduced silver nitrate still existed in the formed PVP micro-scale patterns after removing unexposed PVP by water, we can easily adjust the size of silver nanoparticles through further controlling the reduction of unreduced silver nitrate in the formed PVP micro-scale patterns. Optical microscope, UV–vis-spectroscopy, AFM and SEM-EDX were used to characterize the morphology and distribution of those silver nanoparticles immobilized on glass surface. The results indicate that it is an effective way to immobilize silver nanoparticles with high selectivity.     

PVP/洛美沙星-铽纳米粒子微波合成及其荧光特性研究

以PVP为表面修饰剂,用微波合成法制备了粒径分布均匀性能稳定的洛美沙星-铽(LELX-Tb3 )纳米粒子,用扫描电镜、红外光谱和荧光光谱进行了表征.重点分析了PVP的引入对洛美沙星-铽纳米粒子的粒径分布、粒子形貌、红外光谱和荧光光谱的影响,发现PVP修饰后的洛美沙星-铽纳米粒子具有更均匀的尺寸分布,荧光发射峰强度增强;确证了PVP的用量是制备洛美沙星-铽纳米粒子的一个重要因素;探讨了PVP对LFLX-Tb3 荧光的增敏机理.     

Polymer-assisted crystallization of low-dimensional lead sulfide particles

PbS micro- and nanoparticles were synthesized by a simple precipitation reaction of lead nitrate with thioacetamide in hydrosoluble polymer water solutions. The effects of four water soluble polymers: polyacrylamide (PAM), polyvinyl alcohol (PVA), polyethylene glycol (PEG) and poly-N-vinyl pyrrolidone (PVP) on the PbS crystallites morphology and structural properties were investigated by scanning electron microscopy (SEM) and X-ray diffraction (XRD). It was found that for the PbS particles obtained in the PVA, PEG and PVP, the (2 0 0) diffraction peak of the nanocrystals becomes dominant. The highest texture in the [2 0 0] direction was observed for the crystallites obtained in the presence of PVP. Polydisperse PbS particles with cubic morphology and size ranging from 100 nm to several microns are obtained in the case of PAM and PEG. Monodisperse cubic PbS crystallites with an average size of 200 nm are formed in the presence of PVA and PVP.     

Synthesis and characterization of Rh(PVP) nanoparticles studied by XPS and NEXAFS

Rhodium nanoparticles were synthesized by the reduction of Rh³⁺ ion in ethanol solvent with use of the polyvinylpyrrolidone (PVP) of various molecular weights and the solvent of different volume ratios of water to ethanol. The formed Rh(PVP) nanoparticles have been characterized by transmission electron microscopy (TEM), atomic force microscopy (AFM), X-ray photoelectron spectroscopy (XPS) and near edge X-ray absorption fine structure (NEXAFS) techniques. The TEM and AFM results show that the Rh(PVP) nanoparticles are monodispersed and do not agglomerate with each other. The particle size can be controlled by the molecular weight of PVP and/or the water/ethanol ratio of the solvent. The XPS and NEXAFS results indicate that the chlorine derived from RhCl₃(3H₂O) remains in the obtained nanoparticles but can be removed by heating.     

Raman spectra of benzoic acid enhanced by the silver nanoparticles of various sizes

Using sodium borohydride as the reducing agent and polyvinyl pyrrolidone (PVP, MW = 10 000) as the stabilizer, we obtained silver nanoparticles of various diameters (8–78 nm) from silver nitrate aqueous solutions in the concentration range from 0.001 to 0.1 M. The surface‐enhanced Raman scattering (SERS) from benzoic acid's ring‐breathing mode at 1003 cm⁻¹ was detected from its dilute solutions (∼10⁻² M) doped with these silver nanoparticles under 488‐nm laser excitation. The observed size dependences of SERS intensities fit quite well with those calculated by Schatz's theoretical model for spherical silver nanoparticles. The only exception occurred with the smallest particles (8 nm), possibly due to the failure of Maxwell's electromagnetic theory used in this model. Copyright © 2009 John Wiley & Sons, Ltd.     

Preparation and characterization of polymer-capped CdS nanocrystals

Poly(vinyl pyrrolidone) (PVP)-capped CdS nanoparticles were prepared with CS₂ as the sulfur source through the hydrothermal process. The obtained nanoparticles were characterized by X-ray diffraction, transmission electron microscopic, ultraviolet–visible and fluorescence spectroscopy. The capped CdS nanoparticles showed remarkable stability and significantly enhanced luminescence property compared with that of the noncapped ones. We attributed this observation to the surface passivation of the CdS nanoparticles by the PVP molecules.     

Photochemical synthesis of copper nanoparticles incorporated in poly(vinyl pyrrolidone)

The effect of the presence of poly(vinyl pyrrolidone) (PVP) on the copper nanoparticle formation, obtained by UV irradiation of ethanol solution of Cu(acac)₂ (acac = 2,4-pentanedionato), was investigated. At 254 nm, in conditions of light completely absorbed by complex, the PVP exhibited protective and stabilizing effects, as shown by the formation of a colloidal copper solution and by a block of the heterogeneous process, which leads to thin film formation on the quartz walls. The colloidal solution was tested for several months by plasmon position and it was found that it remained unaltered in inert atmosphere, but returned to the starting complex on contact with air. The PVP ability to control the particle size was investigated by carrying out photoreduction sensitized by Hacac at 254 and 300 nm, in the presence of PVP concentration varying from 0 to 0.2 M. In this range it was possible to obtain copper nanoparticles of dimensions decreasing from 30 to 4 nm. Besides this, the PVP (0.005–0.05 M) role as sensitizer was investigated by irradiating solutions of Cu(acac)₂ at 300 nm which is an inactive wavelength for copper reduction by direct light absorption. It was found that the PVP was an efficient sensitizer of the copper photoreduction. The nanoparticles were characterized by plasmon band, Trasmission Electron Microscope (TEM) as well as Dynamic Light Scattering (DSL) analysis. The overall results evidence the advantages of the PVP use in the nanoparticle copper formation through the photochemical technique such as the exclusive formation of colloidal copper, their size control, stable colloidal solution and complete return to the starting complex.     

Influence of PVP in magnetic properties of NiSn nanoparticles prepared by polyol method

The influence of PVP on the magnetic properties of NiSn nanoparticles prepared by polyol method has been studied. NiSn nanoparticles exhibit superparamagnetic behavior although there is a ferromagnetic contribution due to particles agglomerated below the blocking temperature. The particle size is controlled by the addiction of PVP in varying amounts. The addition of PVP also favours the particles isolation, narrow the particle size distribution and decrease the interparticle interaction strength increasing the superparamagnetic contribution.