Ag/AgCl纳米粒子的制备及其共振散射光谱研究

以AgCl纳米粒子作晶种,在柠檬酸三钠存在条件下,AgCl纳米粒子表面结合的银离子被光化学还原而获得Ag/AgCl复合纳米粒子。研究了Ag/AgCl纳米粒子的光谱特性,在310和590nm处产生二个共振散射峰,在400nm处产生一个吸收峰。     

金属纳米颗粒对水合物的导热影响

使用分子动力学模拟方法,在温度为200－280K的NVT系综下,对纳米粒子－CO2水合物复合体系进行模拟计算,研究了不同种类（Ag, Cu, Fe）、不同粒径 (1.0nm, 1.5nm, 2.0nm) 的球形纳米粒子对水合物导热性能的影响,从体系构型、导热系数、纳米粒子运动速度等方面探究纳米粒子对水合物导热性能的强化机理。 模拟结果表明,纳米粒子的加入,不影响水合物导热率与温度的相关性;与同温度下纯质CO2体系相比,粒径相同时,Ag、Cu、Fe的复合体系导热增长率分别为25.6%－43.8%、19.4%－31.9%、6.9%－17.6%,纳米Ag导热增强效果最好;对于同一粒子,粒径越小,整体的导热能力越强,粒径1.0nm、1.5nm、2.0nm的复合体系导热增长率分别为28.2%－39.8%、19.4%－31.9%和7.5%－17.1%。     

介孔SiO2纳米棒的制备及其表面锚接金纳米粒子

 以正硅酸乙酯为硅源,十六烷基三甲基溴化铵为模板剂,聚乙二醇为分散剂,采用溶胶-凝胶法制备出SiO₂纳米粒子,应用透射电镜、扫描电镜、X射线衍射仪、红外光谱仪和X射线能谱仪研究了粒子的性能。结果表明：所得产物是具有周期性规则介孔的棒状粒子,长径比随着硅源、模板剂和分散剂浓度的降低而减小;向反应体系中引入乙醇,随着乙醇与水的体积比例的增加,粒子由棒状向球状转变,进而形成不规则絮状凝聚体。用硅烷化技术对SiO₂纳米棒表面进行修饰后吸附平均粒径3.7 nm的金种子,再用多轮生长法使种子长大,经过30轮生长,种子平均粒径增大至59 nm,得到了SiO₂-Au复合纳米体系。透射电镜和紫外-可见分光光度计分析结果表明：金纳米粒子锚接在SiO₂纳米棒表面的某些点位,呈分散分布;复合体系表现出强烈的金的表面等离子体共振吸收峰,该峰随着金粒子的粒径增大,在500~700 nm波段内红移。     

光诱导转化法制备片状三角形银纳米粒子的表面增强喇曼散射

采用柠檬酸三钠化学还原法制备球形Ag纳米粒子溶胶,并用高压球形氙灯对球形Ag纳米粒子溶胶进行光诱导实验.利用透射电子显微镜、紫外-可见吸收光谱研究了不同光照时间下的银胶纳米粒子的光谱特性和表面形貌,并以结晶紫为探针分子测量了银胶纳米粒子的表面增强喇曼散射光谱.实验结果表明:随着光照时间的增多,Ag纳米粒子溶胶颜色变化显著;紫外-可见吸收光谱吸收峰从单一峰渐渐显示出多个峰;透射电子显微镜图显示Ag纳米粒子由球形逐渐转变成片状三角形银纳米粒子、截角的片状三角形银纳米粒子;表面增强喇曼散射的增强效应随着光照时间的变化先逐渐增大,然后逐渐减小.     

玻璃基底上不规则银纳米结构的生长及其光学性质的研究

以经过硅烷化后玻璃片为基底，之后吸附金纳米种子，采用柠檬酸钠为还原剂，在荧光灯照射条件下还原硝酸银，制备出基底表面具有银纳米粒子聚集结构的材料。采用透射电镜、扫描电镜和紫外可见分光光度计对产物的形貌和性质进行了表征，并考察银纳米粒子的形貌对其薄膜基底SERS活性的影响。结果表明：随着光照时间增加至16 h，金种子长大为平均粒径110 nm的不规则状多晶银纳米粒子，且出现双层粒子堆积。基底上纳米粒子的吸收光谱上出现了由银粒子的表面等离子体激元偶极子耦合引发的强烈吸收峰：随着光照时间的变化，耦合峰在600～813 nm波段内移动。光照时间为12 h后得到的SERS活性基底具有最强的SERS信号。     

光谱法研究pH值对纳米银及其与赖氨酸相互作用的影响

利用化学方法合成纳米银,调节pH值,加入赖氨酸溶液,通过紫外光谱和动态光散射法研究pH对纳米银及纳米银-赖氨酸体系稳定性的影响,利用表面增强拉曼光谱考察赖氨酸与纳米银的相互作用方式。紫外光谱显示纳米银和纳米银-赖氨酸体系在pH值为5~10时,均具有较强的吸收峰;应用动态光散射测定了不同pH的纳米银及其赖氨酸体系的粒径及强度自相关函数,在pH值为5~10时,粒径分布均匀,DLS自相关曲线平滑,说明纳米银和纳米银-赖氨酸体系稳定性良好;SERS研究了pH为4、7、10时,赖氨酸在银粒子表面的吸附作用,体系出现比较明显的赖氨酸特征峰,当pH为4时,为δ(NH3+)的1444cm~(-1)谱峰和δ(COO-)的1576cm~(-1),此时赖氨酸通过氨根和羧酸根共同与银纳米粒子发生相互作用,当pH为10时,NH_3~+发生去质子化,此时赖氨酸只出现COO-的伸缩振动在1576cm~(-1)处,说明此条件下赖氨酸以羧酸根吸附在银粒子表面。     

液相硫化银纳米微粒的界面荧光和共振散射光谱特性

在阴离子表面活性剂十二烷基硫酸钠(SDS)和硫代乙酰胺(TAA)存在下,Ag 和S2-反应生成较稳定的Ag2S纳米微粒。它在470nm处产生1个较强的荧光峰,在470nm处产生1个共振散射峰。TAA和Ag 浓度对体系荧光强度的影响与此两种物质浓度对共振散射强度的影响一致,随着Ag 浓度(0~8·0×10-5mol·L-1)增大荧光和共振散射光强度均线性增大。实验结果表明,荧光与共振散射之间存在相关性。此荧光为液相Ag2S纳米微粒产生的固液界面荧光。     

阳离子表面活性剂对液相银纳米微粒吸收光谱的影响

粒径为20 nm的黄色银纳米微粒在400 nm处有一吸收峰,当加入阳离子表面活性剂(CS)的浓度较低时,A_{400 nm}减小,波长大于400 nm以上的吸收增大且体系的吸收峰发生红;当CS浓度较高时,波长大于400 nm以上的吸收减小,而在400 nm处的吸收增大,体系的吸收峰发生蓝移。研究表明这是由于CS与带负电荷的银纳米存在较强的疏水和静电作用而导致银纳米微粒形貌的改变所致。     

有机溶剂热法合成富勒烯[60]-银核壳结构纳米复合物

把C60、硝酸银、还原剂溶解在混合溶剂中,有机溶剂热法制备了C60-Ag核壳结构纳米复合物。用XRD、TEM/HRTEM、UV-Vis、IR等对产物进行了表征。透射电镜表明产物粒径为80—100nm。紫外-可见光谱分析表明C60的吸收峰出现了红移,而纳米银的吸收峰出现了蓝移,表明纳米银和C60之间发生了电荷从银转移给C60的相互作用。     

Ag-AAO纳米有序阵列复合结构等离子共振吸收特性研究

研究了Ag-AAO纳米有序阵列复合结构的等离子共振吸收特性。结果显示,Ag表面等离子共振吸收峰位于λ=352-377nm范围内,且可通过控制Ag纳米粒子的长径比使其吸收特性发生改变。若长径比增加,吸收峰位蓝移,强度增大,峰形变锐;反之,若长径比减少,吸收峰位红移,强度减弱,峰形逐渐宽化;运用麦克斯韦-加尼特（M-G）理论模拟的计算结果与实验规律基本相符,并较好地阐释了Ag表面等离子共振吸收峰的频移与其纳米粒子长径比之间的一些依赖关系。     

One-pot green fabrication and antibacterial activity of thermally stable corn-like CNC/Ag nanocomposites

Corn-like cellulose nanocrystals/silver (CNC/Ag) nanocomposites were prepared by formic acid/hydrochloric acid hydrolysis of commercial microcrystalline cellulose (MCC), and redox reaction with silver ammonia aqueous solution (Ag(NH₃)₂(OH)) in one-pot green synthesis, in which the preparation and modification of CNCs were performed simultaneously and the resultant modified CNCs could be as reducing, stabilizing and supporting agents for silver nanoparticles. The influences of the Ag⁺ ion concentrations on the morphology, microstructure, and properties of the CNC/Ag nanocomposites were investigated. It is found that corn-like CNC/Ag nanocomposites containing Ag nanoparticles with diameter of about 20–40 nm were obtained. Compared to the MCCs, high crystallinity of 88.5 % and the maximum degradation temperature (T _max) of 364.5 °C can be achieved. Moreover, the CNC/Ag nanocomposites showed strong antibacterial activity against both Gram-negative Escherichia coli and Gram-positive Staphylococcus aureus. Furthermore, such nanocomposites can act as bifunctional nanofillers to improve thermal stability, mechanical property, and antibacterial activity of commercial poly(3-hydroxybutyrate-co-3-hydroxyvalerate) and poly(lactic acid).     

基于富勒烯C_(60)结构体系的金纳米粒子合成物光学非线性研究

使用 5 32nm ,8ns激光脉冲研究了两种新型的基于富勒烯C6 0 结构体系的金纳米粒子合成物的光学非线性 .Z scan实验结果和理论分析的比较表明 ,材料的非线性吸收强烈地依赖于材料中的配合体 ,而非线性折射主要来自金纳米粒子的贡献 .而且与熟知的C6 0 甲苯溶液光限幅特性作了比较 ,分析了光限幅机理 .     

碱石灰玻璃表面长方形银纳米颗粒的制备与表征

采用离子交换结合热处理的方法在碱石灰玻璃表面制备了银纳米颗粒。通过紫外-可见分光光度计、X射线衍射仪、扫描电子显微镜对样品进行了表征。结果表明:热处理时,银离子在玻璃表面成核并生长成近似长方形的纳米颗粒。吸收光谱在416nm附近出现明显的银纳米颗粒表面等离子体共振吸收特征峰。     

石墨烯/银纳米复合材料的制备及其影响因素研究

以硝酸银、鳞片石墨为原料, 在强碱环境下, 制备得到石墨烯/银纳米复合材料, 采用X射线衍射、红外吸收光谱、透射电子显微镜、紫外可见分光光度计对所制备的石墨 烯/银纳米复合材料进行了表征.结果表明: 氧化石墨烯和银离子在强碱NaOH的作用下, 氧化石墨烯失去部分含氧官能团, 被部分还原为石墨烯(rGO), 银离子被还原为纳米银颗粒, 均匀分布在氧化石墨烯片层表面, 颗粒大小和分布受硝酸银用量、反应温度、NaOH的加入顺序及前驱物混合方式等因素影响, 在GO与Ag粒子质量比为 1:1.08时, 负载在石墨烯片层上的银纳米颗粒集中在12 nm左右. 关键词： 石墨烯/银纳米复合材料 强碱溶液     

Synthesis of silver nanocomposites by SCF impregnation of matrices of synthetic opal and Vycor glass by the Ag(hfac)COD precursor

Silver-containing nanocomposites were prepared by impregnating Vycor glass (a pore diameter of 4 nm) and synthesized opal matrices (an interstitial void size of 40 nm) with cyclooctadiene complex of silver hexafluoroacetylacetonate (Ag(hfac)COD), a silver precursor, dissolved in supercritical carbon dioxide and were examined by optical absorption spectroscopy, atomic force microscopy, and electron spin-resonance spectroscopy. It was demonstrated that the absorption spectra of Vycor glass and opal matrices impregnated with Ag(hfac)COD molecules and subjected to thermal treatment in air at temperatures above 50°C exhibit plasmon resonances characteristic of Ag nanoparticles at 420–430 nm. The peculiarities of the plasmon resonance band for both types of samples were attributed to the morphology of the pore space in which silver particles are formed. Paramagnetic Cu(hfac)₂ molecules (copper hexafluoroacetylacetonate) were used as a spectroscopic probe for estimating the distribution of the precursor in the pores of Vycor glass and opal matrices during supercritical fluid impregnation.     

Investigation of halloysite nanotubes with deposited silver nanoparticles by methods of optical spectroscopy

Halloysite nanotube composites covered by silver nanoparticles with the average diameters of 5 nm and 9 nm have been studied by methods of optical spectroscopy of reflectance/transmittance and Raman spectroscopy. It has been established that silver significantly increases the light absorption by nanocomposites in the range of 300 to 700 nm with a maximum near 400 nm, especially for the samples with the nanoparticle size of 9 nm, which is explained by plasmonic effects. The optical absorption increases also in the long-wavelength spectral range, which seems to be due to the localized electronic states in an alumosilicate halloysite matrix after deposition of nanoparticles. Raman spectra of nanocomposites reveal intense scattering peaks at the local phonons, whose intensities are maxima for the samples with the silver nanoparticle sizes of 9 nm, which can be caused by plasmonic enhancement of the light scattering efficiency. The results show the ability to use halloysite nanotube nanocomposites in photonics and biomedicine.     

Fabrication and optical study of Ag@SnO<Subscript>2</Subscript> core-shell structure nanoparticle thin films

Ag@SnO₂ core-shell nanoparticles dispersed in poly-(vinyl) alcohol films were fabricated on glass substrate by employing a dip-coating technique. Synthesis of Ag@SnO₂ nanoparticles with core-shell morphology is carried out by a soft-chemical technique in aqueous phase at 60°C. Formation of core-shell structure is monitored by the red-shift of the surface plasmon band of Ag nanoparticles (from 390 to 410 nm) in the UV-visible spectrum. These nanoparticles are deposited on the glass substrate. The structure and morphology of these films were investigated by X-ray diffraction technique and field-emission transmission electron microscopy, respectively. Optical properties of these pseudo-solids were studied by UV-visible spectroscopy. Surface plasmon spectrum of the core-shell nanoparticles film remained unaltered with increase in the number of layers. However, silver nanoparticles films have shown peak broadening and development of additional peaks with increase in the number of layers. Our investigations showed that the surface plasmon band of the silver nanoparticles could be preserved by controlled deposition of the tin dioxide shell.     

Raman light scattering and electron microscopy of nanocomposites with the metal core-carbon shell structure

The structural state of carbon in nanocomposites that are based on metals (Fe, Ni, Co, and Ag) encapsulated in carbon and produced by the gas-phase synthesis has been investigated using Raman spectroscopy and high-resolution transmission electron microscopy. The average diameter of particles of the initial nanocomposites after the gas-phase synthesis, including the carbon shell, is less than 15 nm and can vary as a function of the conditions and regimes used for their preparation. The shell of the initial nanocomposites, irrespectively of the metal core type, consists of carbon fragments in the form of curved layers with sizes of less than 10 nm in the lateral direction. In the initial nanocomposites, there is no periodicity in the packing of carbon layers in the radial and lateral directions. The structure of the coating is assumed to be similar to the glassy carbon structure characterized by a curvature of carbon layers in different directions, which requires that, in addition to conventional hexagonal cells, the layers should contain pentagonal and heptagonal cells. Heat treatment of the initial nanocomposites Fe@C and Ni@C in butane (700°C, 60 min) not only significantly increases the thickness of the carbon coating but also increases the degree of ordering of curved carbon fragments in the lateral and radial directions. In the composites with Fe, Ni, and Co, along with this form of carbon, semiconducting nanotubes with a diameter of 1.3–1.5 nm are also formed. The composites with silver nanoparticles exhibit the effect of time-fluctuating giant enhancement of the Raman scattering intensity.     

(Au)_核(Ag)_壳纳米微粒-火焰原子吸收光谱法测定过氧化氢

在90 ℃水浴条件下,以粒径为10 nm的纳米金做晶种,用柠檬酸三钠还原硝酸银,制备了平均粒径为30 nm的（Au）核（Ag）壳纳米微粒,用高速离心纯化除去过量的柠檬酸三钠获得了较纯的（Au）核（Ag）壳纳米微粒。在pH 3.8的HAc-NaAc缓冲溶液中,Fe2＋催化H2O2反应产生的羟基自由基可氧化（Au）核（Ag）壳纳米微粒生成银离子。离心后,离心液中的银离子可用火焰原子吸收光谱法在328.1 nm波长处测量。随着H2O2浓度增大,离心液中银离子浓度增加,其吸光度值增加。H2O2浓度在2.64～42.24 μmol&#183;L-1范围内与上清液中银离子的原子吸收值ΔA呈良好的线性关系,回归方程为ΔA=0.014c-0.013 1, 相关系数为0.998 4,检出限为0.81 μmol&#183;L-1 H2O2。当用于水样中H2O2的测定,获得了满意的结果。     

基于富勒烯C60结构体系的金纳米粒子合成物光学非线性研究

使用532nm,8ns激光脉冲研究了两种新型的基于富勒烯C₆₀结构体系的金纳米粒子合成物的光学非线性.Z-scan实验结果和理论分析的比较表明,材料的非线性吸收强烈地依赖于材料中的配合体,而非线性折射主要来自金纳米粒子的贡献.而且与熟知的C₆₀甲苯溶液光限幅特性作了比较,分析了光限幅机理. 关键词： 60结构体系')" href="#">基于富勒烯C₆₀结构体系 金纳米粒子 等离子体 光限幅