基于金纳米棒的生物检测、细胞成像和癌症的光热治疗

由于金纳米棒颗粒独特的可调的表面等离子共振特性,使得金纳米棒颗粒在纳米复合材料和功能化纳米器件的构建、纳米生物技术、生物医学等领域具有广泛而重要的应用前景。本文综述了金纳米棒颗粒的生物检测、细胞成像和癌症的光热治疗方面的最新研究进展,并介绍了金纳米棒颗粒的光学性质和金纳米棒颗粒和几种主要的表面修饰方法,对金纳米棒颗粒在生物应用过程中存在的主要问题进行了讨论。     

金纳米颗粒表面能量转移及巯基化合物的检测

二氧化硅稳定的金纳米颗粒(Au-SiO₂)与罗丹明B之间发生表面能量转移,使罗丹明B荧光猝灭。 金纳米颗粒对罗丹明B的Stern-Volmer猝灭常数为4.3×10³ L/mol。 当荧光猝灭的混合体系中加入巯基化合物时,巯基化合物与金纳米颗粒发生强相互作用阻断罗丹明B-金纳米颗粒之间的能量转移,罗丹明B荧光恢复。 基于罗丹明B-Au-SiO₂体系对巯基化合物的单一响应,建立了一种简单快速检测巯基化合物的方法;并且由于二氧化硅对金纳米颗粒的稳定作用,金纳米颗粒成为一种可以回收利用的检测探针。     

金纳米颗粒在不同包裹介质中的超快等离子体动力学（英文）

为了探究不同包裹介质对金纳米颗粒的超快等离子体动力学的影响,本文我们制备了聚苯乙烯磺酸钠(PSS)、二氧化硅(SiO_2)、二氧化钛(TiO_2)以及氧化亚铜(Cu_2O)四种介质包裹的金纳米颗粒。运用飞秒泵浦探测技术,我们分别获得了PSS、SiO_2、TiO_2以及Cu_2O包裹的金纳米颗粒在不同时间延迟下的飞秒瞬态吸收光谱。我们发现TiO_2包裹的金纳米颗粒的飞秒瞬态吸收光谱特征与PSS和SiO_2包裹的金纳米颗粒的飞秒瞬态吸收光谱特征有很大的不同,但与Cu2O包裹的金纳米颗粒的飞秒瞬态吸收光谱特征相似。全面分析PSS、SiO_2、TiO_2和Cu_2O包裹的金纳米颗粒的超快等离子体动力学行为,我们发现在TiO_2和Cu2O包裹的金纳米颗粒体系中光激发金纳米颗粒的等离子体共振吸收后产生的激发电子可以有效地转移到TiO_2和Cu_2O的导带上。     

单分散球状纳米金颗粒的合成*

综述了近年来单分散球状金纳米颗粒的合成研究进展。分析了球状单分散金纳米颗粒的应用前景,介绍了单分散球状金纳米颗粒的主要合成方法如种子生长、回流熟化、尺寸选择沉淀分级以及电泳法等,评述了各种方法的优缺点。最后提出了单分散球状金纳米颗粒合成的一些问题,并展望了单分散球状金纳米颗粒的研究和发展方向。     

从零维到三维的金范式: 金单质概念的新发展

含有零维金纳米球的胶体金,在古埃及就已经被用于制造彩色玻璃,但直到20世纪,人们才对其进行系统的研究。20世纪下半叶,一维金纳米棒的合成及其奇异的光学性质引起了科学家对金纳米颗粒的关注。随后,二维金纳米片、三维金纳米哑铃等金纳米颗粒的相继出现,丰富和发展了金单质的概念。几种新的金单质的发现,构建了从零维到三维的金范式,从而启发人们对“金单质”及其应用进行更加深入的探究。     

磁性金纳米颗粒修饰的毛细管色谱柱制备方法

<正>申请公布号:CN106178597A申请公布日:2016.12.07申请人:苏州环球色谱有限责任公司摘要本发明提供了一种磁性金纳米颗粒修饰的毛细管色谱柱制备方法。首先在毛细管外周围固定永磁铁,为毛细管周围提供一外加磁场,然后将磁性金纳米颗粒分散液从毛细管一端充入毛细管内,保持磁性金纳米颗粒分散液在毛细管内一段时间,之后将磁性金纳米颗粒分散液流出毛细管,即得到磁性金纳米颗粒修饰的毛细管色谱柱。本发明采用磁     

有序纳米金颗粒的多层组装

采用LB技术组装了一种三维有序的由十八胺修饰的纳米金颗粒多层结构.这是一种新的组装纳米颗粒三维有序聚集体的方法.为了扩大这种方法的适用范围,在组装过程中,将有机小分子1-苯基-5-巯基四氮唑引进结构,形成了新的纳米金颗粒多层聚集体.这两种多层膜经透射电子显微镜和小角X射线衍射测量证明构成多层膜的单层膜上的纳米金颗粒是有序的,并且颗粒在层与层之间的排列也是有序的.     

金纳米簇-多金属氧酸盐复合物的制备及催化选择性氧化环已烯性能研究

通过4-N,N二甲基胺基吡啶和多金属氧酸负离子形成的复合载体稳定金纳米颗粒,制得金纳米簇-多金属氧酸盐的复合物.复合物的组成以及金纳米颗粒的分布状态由XPS和TEM表征.利用多金属氧酸和金纳米颗粒的相互协助作用,使得这类复合物是一种优异的低温选择性氧化催化剂.     

未修饰的纳米金结合等位特异性扩增来检测K-ras基因点突变

将等位基因特异性扩增的特异性与纳米金特殊的光学性质相结合, 发展了一种新的基因点突变检测方法. 以肿瘤中常见的K-ras癌基因第12位密码子作为点突变检测对象, 采用突变型引物对待测序列进行等位特异性扩增. 突变型样品扩增产物中大部分是双链DNA; 而野生型样品由于不能被顺利扩增, 产物中大部分是单链DNA. 以纳米金颗粒作为报告基团, 向两种不同基因型扩增产物中依次加入纳米金胶和盐溶液, 野生型基因扩增产物中的单链引物被吸附到纳米金颗粒表面, 使得纳米金在适宜浓度的盐溶液中不发生聚集; 突变型样品扩增产物中的双链DNA由于与纳米金颗粒间存在静电斥力而不能被吸附到纳米金颗粒表面, 纳米金在该浓度的盐溶液中发生聚集, 导致两种基因型的混合液在吸收光谱和颜色方面均存在显著差异, 从而实现了检测基因点突变的目的. 该检测方法直观、快速、简便, 实验成本低, 能够检测到pmol量级的样品, 为点突变检测提供了一种实用的新方法.     

基于金纳米颗粒的比色传感体系用于前列腺特异性膜抗原的检测

发展了一种基于金纳米颗粒的比色传感体系用于检测前列腺特异性膜抗原的新方法.实验中合成了带有正电荷的金纳米颗粒,并设计了一段带有负电荷的前列腺特异性膜抗原的底物肽段.该方法基于金纳米颗粒聚集状态不同导致颜色变化的性质以及酶与底物的特异性识别作用,达到前列腺特异性膜抗原的检测.带正电荷的金纳米颗粒与带负电的肽段产生静电相互作用,引起金纳米颗粒的聚集;当体系中加入前列腺特异性膜抗原后,由于前列腺特异性膜抗原与肽段的特异性识别作用,带负电的肽段水解为谷氨酸碎片分子,导致金纳米颗粒的分散,反应体系颜色变化快速、明显.该方法简单、灵敏,线性范围为2～10 nmol/L,检测限为0.5 nmol/L.此外,该方法可用于标准加入法测定尿液中的PSMA.     

An approach for the surface functionalized gold nanoparticles with pH-responsive polymer by combination of RAFT and click chemistry

In this report, we demonstrated a novel efficient post-modification route for preparation of smart hybrid gold nanoparticles with poly(4-vinylpyridine) (P4VP) based on RAFT and click chemistry. A new azide terminated ligand was first synthesized to modify gold nanoparticles by ligand exchange reaction, and then click reaction was used to graft alkyne terminated P4VP which was prepared by RAFT onto the surface of gold nanoparticles. The functionalized hybrid gold nanoparticles were characterized by TEM, FTIR, and XPS etc. The results indicated that the P4VP was successfully grafted onto the surface of gold nanoparticles by click reaction. The surface grafting density was calculated to be about 6 chains/nm²_. In addition, the hybrid gold nanoparticles showed a pH responsive phenomenon as the pH value changed around 5.     

The in vitro and in vivo toxicity of gold nanoparticles

Gold nanoparticles,owing to their unique physicochemical and optical properties,well-established synthetic methods and easy modifications,have been widely used in biomedical science.Therefore,for their safe and efficient applications,much attention has been given to the toxicological evaluations of gold nanoparticles in biological systems.A large number of studies focusing on this problem have been carried out during the past years.However,the researches on gold nanoparticles toxicity still remain fragmentary and even contradictory with each other.This may be caused by the variety in experimental conditions.In this review,we aim to provide a better understanding about the in vitro and in vivo toxicity of gold nanoparticles by reviewing and describing the up to date literatures related to this problem and we mainly focused on these properties such as the particle size and shape,the surface charge and modification.Besides,we also summarized the adverse effect of gold nanoparticles on immune systems and analyzed the origin of the toxicity.     

Paper surfaces functionalized by nanoparticles

Nanomaterials with unique electronic, optical and catalytic properties have recently been at the forefront of research due to their tremendous range of applications. Taking gold, silver and titania nanoparticles as examples, we have reviewed the current research works on paper functionalized by these nanoparticles. The functionalization of paper with only a very small concentration of nanoparticles is able to produce devices with excellent photocatalytic, antibacterial, anti-counterfeiting, Surface Enhanced Raman Scattering (SERS) and Surface Plasmon Resonance (SPR) performances. This review presents a brief overview of the properties of gold, silver and titania nanoparticles which contribute to the major applications of nanoparticles-functionalized paper. Different preparation methods of the nanoparticles-functionalized paper are reviewed, focusing on their ability to control the morphology and structure of paper as well as the spatial location and adsorption state of nanoparticles which are critical in achieving their optimum applications. In addition, main applications of the nanoparticles-functionalized papers are highlighted and their critical challenges are discussed, followed by perspectives on the future direction in this research field. Whilst a few studies to date have characterized the distribution of nanoparticles on paper substrates, none have yet optimized paper as a nanoparticles' substrate. There remains a strong need to improve understanding on the optimum adsorption state of nanoparticles on paper and the heterogeneity effects of paper on the properties of these nanoparticles.     

基于点击化学和活性自由基聚合方法制备双重响应金纳米粒子

采用点击化学和可逆加成断裂链转移活性自由基聚合方法制备了温度和pH双重响应的金纳米粒子. 通过红外光谱(FTIR)、X射线光电子能谱(XPS)、透射电子显微镜(TEM)及热重分析(TGA)等方法对双重响应性金纳米粒子进行了表征. 该金纳米杂化粒子具有良好的分散性, 其表面接枝聚合物的密度约为0.6 Chain/nm2. 通过改变温度和pH条件, 考察了金纳米杂化粒子的可逆响应行为. 实验结果表明, 点击化学和可逆加成断裂链转移活性自由基聚合方法实现了金纳米粒子修饰的简单化、可控化以及功能化.     

Au nanoparticles prepared by physical method on Si and sapphire substrates for biosensor applications

Gold nanoparticles heavily functionalized with oligonucleotides have been used in a variety of DNA detection methods. The optical properties of three-dimensional aggregates of Au nanoparticles in solution or deposited onto suitable surfaces have been analyzed to detect hybridization processes of specific DNA sequences as possible alternatives to fluorescent labeling methods. This paper reports on the preparation of gold nanoparticles directly deposited onto the surface of silicon (Si) and sapphire (Al2O3) substrates by a physical methodology, consisting in the thermal evaporation of a thin Au film and its successive annealing. The method guarantees the preparation of monodispersed single-crystal Au nanoparticles with a strong surface plasmon resonance (SPR) peak centered at about 540 nm. We show that the changes of SPR excitation before and after DNA functionalization and subsequent hybridization of Au nanoparticles immobilized onto Si and Al2O3 substrates can be exploited to fabricate specific biosensors devices in solid phase.     

Gold Nanoparticles for Cancer Theranostics

Gold nanoparticles have seen unprecedented development in the biomedical field, particularly for cancer therapy. They have received extensive attention because of their easy preparation, functionalization, biocompatibility, non‐cytotoxicity, and detectability. Functionalized gold nanoparticles can be applied in the fields of drug and gene delivery, photothermal therapy, and bioimaging. This review introduces methods for preparing various shapes of gold nanoparticles and describes their current applications in the field of cancer treatment. Moreover, the review presents the development routes and current issues of gold nanoparticles in clinical theranostics.     

Photofragmentation of phase-transferred gold nanoparticles by intense pulsed laser light

Gold nanoparticles with an average diameter of approximately 20 nm were prepared in an aqueous solution by a wet chemistry method. The parent gold nanoparticles were then capped with a 4-aminothiophenol protecting layer and transferred into toluene by tuning the surface charge of the modified nanoparticles. Gold nanoparticles before and after phase transfer were subjected to photofragmentation by a pulsed 532 nm laser. The effects of solvent properties and surface chemistry on the photofragmentation of the gold nanoparticles have been investigated. Fast photofragmentation has been observed in the organic solvent in which the dielectric constant, heat capacity, and thermal conductivity are lower. The results suggest new approaches for the preparation of very small gold clusters from gold nanoparticles.     

Carbon nanoparticles as chromophores for photon harvesting and photoconversion

Carbon nanomaterials have generated a tremendous amount of attention in the scientific community. While most of the research and development efforts have been on fullerenes, carbon nanotubes, and graphene sheets, carbon nanoparticles (which are often considered as impurities or unwanted complications in the other carbon nanomaterials) have recently emerged as a unique class of highly fluorescent nano-dots. However, little or no attention has been paid to potential uses of carbon nanoparticles as chromophores in photochemical reactions or for photon harvesting and photoconversion in general. In the study reported herein we demonstrate the chromophore-equivalent functions of aqueous-suspended small carbon nanoparticles in harvesting visible photons for the reductive coating of the nanoparticles with silver and gold and, as a result, the preparation of unique carbon-noble-metal core-shell nanostructures.     

各向异性金纳米粒子的制备及其在催化中的应用

尽管有关金纳米粒子催化的研究工作很多,但其中大多数都是采用传统的浸渍法将金盐负载到载体上、共沉淀或沉积-沉淀法制得负载的纳米粒子,但这些方法并未吸收最新的纳米技术。最近,金催化剂的研究者开发了在胶态悬浮液中制取金属纳米粒子,然后进行固载,从而使得单金属和双金属催化剂的催化活性和形貌控制取得较大进展。另一方面,最近十年出现了金纳米粒子合成的高级控制技术,得到了许多各向异性的金纳米粒子,且很容易制得新的形貌,可以控制纳米粒子的表面原子配位数和光学特性(可调的等离子体带),这些都与催化密切相关。这些形貌包括纳米棒、纳米星、纳米花、树枝状纳米结构或多面体纳米粒子等。除了高度关注各向异性金纳米粒子的最新开发的制备方法和性质,本综述也清楚地总结了这些纳米粒子独特的催化性能,以及通过提供更高催化性能的金催化剂、控制暴露的活性位,以及热、电和光催化的鲁棒性和可调性,从而给多相催化领域带来令人惊奇的潜在变革。