纳米氧化锌的机械力化学表面改性

采用机械力化学表面改性工艺,以硬脂酸为改性剂,在气流粉碎机中对纳米氧化锌进行解团聚和表面改性,并借助SEM、XRD、FF—IR和XPS对改性前后的氧化锌粉体进行结构表征．结果表明：硬脂酸分子化学键合在氧化锌表面．改性前后氧化锌的晶体结构相同,其颗粒的团聚性降低,二次粒径明显减小．通过测定改性样品的活化指数和亲油化度,选择最佳的改性剂用量为氧化锌质量的10％,氧化锌表面亲油疏水,在有机溶剂中有较好的分散性．     

无机纳米粒子的生物合成

无机纳米粒子的生物合成是指利用自然界中细菌、放线菌和真菌等微生物或一些高等植物在常温、常压下合成无机纳米粒子,不需使用有毒化学原料或不产生有毒副产品。该方法不仅是一种绿色的、环境友好的新型纳米材料合成策略,而且对深入了解生物矿化机理以及从理论上指导先进功能材料的设计和合成具有重要意义,因此近年来受到了化学、材料、生物科学等领域研究者的广泛关注。本文根据纳米粒子组成,分别综述了国内外利用生物体合成金属、硫化物和氧化物等无机纳米粒子的研究进展,重点讨论了生物合成的机理。结果表明:生物合成的无机纳米粒子具有尺寸分布窄、稳定性高、生物相容性好、产率高和成本低等优点; 为了适应高金属离子浓度的外界环境,生物体往往通过吸附、还原或沉淀、累积或排出等一系列生化过程改变金属离子的溶解性和毒性,从而导致无机纳米粒子的形成; 合成无机纳米粒子后,微生物通常仍具有繁殖能力,表明这些微生物可以被用于生产无机纳米粒子的生物工厂。然而,生物合成无机纳米粒子涉及到的生理过程非常复杂,微生物种类繁多,不同种类之间的差异也非常大。因此,在阐释生物合成机理、拓展纳米材料的种类和形貌、纳米粒子的后处理和应用等问题上仍需进一步深入研究。     

Ultrasound-responsive Homopolymer Nanoparticles

Nonin vasive ultraso und is a more effective strategy for on-demand drug delivery of polymeric nano particles than many other stimuli.However,the preparation of ultrasound-responsive homopolymer nanoparticles is still very challenging.In this study,we disclose the regulating factors of ultrasound responsiveness of homopolymer nanoparticles and the disaggregation behavior of homopolymer nanoparticle aggregates.Homopolymer nanoparticles such as vesicles and large compound micelles(LCMs)are self-assembled from poly(methoxyethyl methacrylate)(PMEMA)and poly(amic acid)(PAA),respectively.The ultrasound responsiveness of PAA vesicles at metastable state could be regulated by tuning the self-assembly temperature(7^),and was optimized when Ts is around the glass transition temperature(7g)of PAA.However,the PMEMA LCMs did not respond to ultrasound as they are at stable state.On the other hand,poly(2-(2-ethoxyethoxy)ethyl acrylate)(PEEA)could self-assemble into vesicle aggregates or complex micelle aggregates,which were dissociated upon sonication.Overall,the above findings provide us with a fresh in sight for designing ultrasound-responsive polymeric nanoparticles.     

纳米铂颗粒的控制生长

Different size platinum nanoparticles, ranging in size from 1.8-14.1 nm, were prepared by multi-step reduction of H2PtCl6 by hydrogen adsorbed on platinum atoms. Transmission electronic microscopy and X-ray diffraction were used to characterize the nanoparticles. After thirty-two iterations of the reaction, the diameter of platinum nanoparticles increased from 1.8 nm to 14.1 nm. The average iterative increase was approximately 0.4 nm. The size distribution of the nanoparticles was narrow. Synthesis procedures which allow for control of platinum nanoparticle size offer the possibility for the further research into how the sizes of nano-catalysts effect catalytic activity.     

核壳结构纳米粒子

纳米粒子由于具有大量的潜在应用,近年来已引起人们极大的关注。通过表面改性(如制备核壳结构的纳米粒子)可以使其获得更多特殊的性质。本文就最近几年制备壳核结构纳米粒子的方法进行了总结,根据其核、壳的不同材料进行了分类,并对其中某些方法进行了比较。     

Nanoparticles from Chitosan

Novel biodegradable nanoparticles were synthesized by chemical modification of the chitosan linear chain. A natural dicarboxylic acid (malic acid) was used as a crosslinking agent for intramolecular covalent condensation reaction to obtain hydrophilic nanoparticles based on chitosan. A variety of methods including, solubility studies, laser light scattering (DLS), transmission electron microscopy (TEM) and nuclear magnetic resonance (NMR) was used to characterize the crosslinked macromolecules. The prepared biodegradable chitosan nanoparticles, soluble in aqueous media, might be useful for various biomedical applications, like injectable drug- or gene-delivery systems.     

Ultrafast Relaxation Processes of Conjugated Polymer Nanoparticles in the Presence of Au Nanoparticles

Considering the importance of conjugated polymer nanoparticles, major emphasis has been given for designing and understanding the energy transfer and charge transfer processes of organic‐inorganic hybrids for light harvesting applications. In the present study, we have designed an aqueous solution‐based light harvesting system using conjugated polymer nanoparticles (poly[2‐methoxy‐5‐(2‐ethylhexyloxy)‐1,4‐phenylenevinylene], MEH‐PPV) and Au nanoparticles. The change in photo‐induced processes in the presence of metal nanoparticles are studied by steady‐state absorption, time‐resolved emission, time‐resolved fluorescence up‐conversion, ultrafast anisotropy and femtosecond transient absorption spectroscopy. Global and target analysis of transient absorption data validate the creation of a collective delocalized state in polymer nanoparticles, and the time scale for excitation energy funnelling from S₁ state to low lying collective delocalized state (CL_s) is 18 ps. Then, the electron transfer from the CL_s state to Au NP occurs with a time constant of 150 ps. The 815 ps long lived charge transfer (CT) state signifies the charge transfer from the CL_s state of polymer nanoparticles to Au NP. Such basic understanding of relaxation processes in hybrid systems is very important for designing inorganic‐organic hybrid light‐harvesting systems.     

溶液体系中的纳米金属粒子形状控制合成*

纳米尺度的金属粒子由于量子尺寸效应等原因而表现出不同于宏观金属块体的电学、磁学、光学和热学等性质.纳米金属粒子的性质不仅受到尺寸的影响,还与粒子的形状密切相关.不同形状的纳米金属粒子通常具有不同的表面结构和性质.近年来,纳米金属粒子的形状控制合成正受到越来越多的关注;其中,Ⅷ族和IB族金属的研究已取得一定进展.本文评述了纳米金属粒子的合成以及尺寸和形状控制的方法,分别介绍了铂、钯、镍、金、银、铜以及钴等金属的形状控制合成的近期研究进展.     

Applications of Nanoparticles in Elemental Speciation

Nanoparticles, notable for their small size, high surface area to volume ratios, and strong adsorption capacity, have been the subject of great interest in analytical chemistry. Over the past decade, nanoparticles have been widely used as adsorbents for elemental speciation. Elemental ions or chelates may interact with nanoparticles by van der Waals forces, hydrogen bonds, and hydrophobic interactions. Various types of nanoparticles used for elemental speciation, including magnetic nanoparticles, carbon nanotubes, metallic oxide nanoparticles, nanostructured mixed oxides, and ion imprinted polymer nanoparticles, are reviewed. Future trends and development in this research area are discussed.     

亲油性ZnS纳米微粒的合成

纳米微粒具有小尺寸效应、表面效应、量子效应和宏观量子隧道效应等一系列普通材料所不具备的特性 ,因而引起科技工作者的广泛重视 ,成为材料科学研究的热点 .制备纳米微粒的方法很多 [1～ 7] ,但由于纳米微粒的小尺寸效应及表面效应 ,通常制备的无机纳米微粒极易团聚 ,而且无机纳米微粒的非油溶性使其在摩擦学领域的应用受到很大限制 .本文采用表面修饰 [8～ 11] 方法 ,通过共沉淀的竞争反应 ,制备了表面为有机修饰剂双十六烷基二硫代磷酸 (DDP)修饰的无机 Zn S纳米微粒 ,并用红外光谱、 X射线光电子能谱和透射电子显微镜等分析手段对表…     

Size-Controlled Synthesis of Palladium Nanoparticles

Palladium nanoparticles protected by PVP were obtained first by reducing PdCl₂ with NaBH₄ solution. Then different size palladium nanoparticles with a large size range (1.49 nm ～ 23.26 nm) were prepared by the multi-step reduction of PdCl₂ by hydrogen adsorbed on the surface of palladium nanoparticles. Transmission electron microscopy (TEM) and x-ray diffraction (XRD) were used to characterize the nanoparticles. The increasing value of average diameter from the first to the eighth reduction reaction is about 0.58 nm, from the ninth to the fifteenth reduction reaction the value is about 2.44 nm.     

硫化镉钠米微粒在聚合物网络中的组装

硫化镉钠米微粒在聚合物网络中的组装黄金满，杨毅，杨柏，刘式墉，沈家骢（吉林大学分子光谱与分子结构重点实验室、集成光电子国家重点实验室，长春，１３００２３）关键词组装，纳米微粒，离子交换，透射电子显微镜，电子衍射由于纳米半导体微粒的物理和化学性质介于分...     

Magnetic Nanoparticles and Biosciences

Summary.  Magnetic nanoparticles represent an interesting material both present in various living organisms and usable for a variety of bioapplications. This review paper will summarize the information about biogenic magnetic nanoparticles, the ways to synthesize biocompatible magnetic nano- particles and complexes containing them, and the applications of magnetic nanoparticles in various areas of biosciences and biotechnologies. Received October 4, 2001. Accepted November 19, 2001     

纳米粒子的不对称修饰与可控组装

控制纳米构筑单元的组装是发展纳米材料和器件的关键问题之一,近年来发展了一系列针对纳米粒子的不对称修饰方法,为可控组装纳米粒子提供了一种新颖而有效的策略。这些方法可以将本身各向同性的纳米粒子修饰成各向异性,使得常见的功能性纳米粒子成为所需的构筑单元。本文旨在结合最近一些创新性的研究成果,介绍并总结纳米粒子不对称修饰的方法以及基于此的可控组装,讨论了当前研究中的主要发展方向和仍需要解决的问题,并对其应用前景做了展望。     

铂胶体粒子的形貌控制研究

在含有草酸根稳定剂的水溶液中,以氢气还原K_2[Pt(C_2O_4)_2], K_2PtCl_6以及K_2PtCl_4制备形状不同的Pt胶体粒子,其平均尺寸分别为6.5, 3. 5和7.9nm。UV-vis和电镜研究结果表明,还原速度,Pt纳米粒子的尺寸和形状分布 均与所用前体有关。以K_2[Pt(C_2O_4)_2]为前体制备的Pt胶体粒子具有很窄的尺 寸和形状分布,立方形粒子所占比例为93%。以K_2PtCl_4或K_2PtCl_6为前体制备 的Pt胶体粒子的形状分布较宽。草酸根稳定的Pt胶体在空气中放置时,Pt胶体粒子 催化草酸根氧化分解,使得胶体溶液中草酸根浓度降低,Pt胶体粒子形成线状聚集 体,氢气处理后,线状聚集体转化为Pt金属纳米线。     

生化分析用荧光纳米粒子研究进展

荧光纳米粒子在生化分析领域的应用研究近十年来取得了令人瞩目的进展,引起了研究者的广泛关注,如何制备强荧光发光、高生物亲和的荧光纳米粒子是其在生化分析领域应用的前提和基础。本文评述了近年来在生化分析领域应用较多的几种荧光纳米粒子的研究进展与状况。引用文献103篇。     

基于上转换荧光纳米粒子和金纳米粒子间荧光共振能量转移的高灵敏赭曲霉毒素A检测方法研究

制备了水溶性的上转换荧光纳米材料,在其表面修饰赭曲霉毒素A(OTA)适配体作为能量供体探针;在金纳米粒子表面修饰OTA适配体互补链作为能量受体探针,构建了OTA适配体传感器。在最优条件下,OTA的检测范围为0.001~10 ng/mL,检出限可达0.001 ng/mL。将其应用于啤酒样品中OTA的检测,当加标水平为0.01、0.1、1.0 ng/mL时,回收率为100%~119%,相对标准偏差为4.3%~4.9%,表明该方法可用于实际样品检测。该方法具有灵敏度高、特异性好、操作简单、成本较低等优点。     

纳米四氧化三铁表面酸碱性质研究

制备了纳米Fe3O4, 并对其进行了表征和表面酸碱行为研究. 实验结果表明, Fe3O4表面在水溶液中有非常明显的酸碱性质. 随着纳米Fe3O4加入量的增多, 溶液pH缓冲能力增强, 二者之间成正比, 据此可定量地测定H+在纳米氧化铁表面的吸附量. 运用MEDUSA和WINSGW计算软件计算了表面组分在溶液中的分布， 并讨论了表面电荷对表面组分分布的影响.     

Study of Aggregation of Gold Nanoparticles in Chitosan

In this work it is reported the synthesis of gold nanoparticles supported in situ in chitosan by solvated metal atom dispersion technique in order to study the inclusion of Au nanoparticles in the biopolymer matrix. To study their aggregation along time and compare with the synthesis of Au/2-propanol colloid by chemical liquid deposition technique. Studies of Au nanoparticles aggregation along time, supported nanoparticles and colloidal nanoparticles morphology were also carried out. The characterization of Au nanoparticles was performed by transmission electron microscopy, field-emission and scanning electron microscopy, infrared spectroscopy, X-ray diffraction, light scattering and ultraviolet–visible spectroscopy. Metal colloid showed fractal agglomeration type and delay time after the synthesis, the agglomeration size increased to flocculate. Au nanoparticles supported in chitosan showed the same shape as colloids and fractal aggregation was mostly distributed on the matrix.     

沉淀法高效制备聚多巴胺纳米粒子

为得到分散性和稳定性较好的聚多巴胺纳米粒子,利用“沉淀-再分散法”高效制备了聚多巴胺纳米粒子水分散液。 首先利用溶液氧化法制备了分散在水/乙醇中的聚多巴胺纳米粒子,然后向分散液中加入丙酮使聚多巴胺纳米粒子絮凝。 收集沉降物,用丙酮冲洗并干燥后,加水重新分散得到纯化的聚多巴胺纳米粒子水分散液。 丙酮沉淀法得到的聚多巴胺纳米粒子形貌规整,分散性好,粒径分布在250 nm左右,在水中具有良好的储存稳定性和光热性能,与传统的超速离心提纯法相比,产率可提高57.4%。 此方法为其之后在药物载体及光热治疗等方面的应用研究提供了便利。