共查询到19条相似文献,搜索用时 93 毫秒
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基于离散偶极近似理论,模拟分析了四种不同钴纳米结构的光学性质,具体讨论了钴单质半径、钴金合金材料的组分、钴金核壳结构中的内核大小及壳厚度、钴空心球的尺寸及空球壳厚度等参数对其消光光谱的影响。结果表明,半径50nm的钴颗粒水溶液消光效率最大,且散射强度优于吸收;中空钴球相比实心颗粒消光谱红移,内半径40nm、壳厚5nm的空心钴纳米结构在可见光区域的消光效率最高;半径50nm、钴金原子成分比值为1的合金颗粒在可见光区域具有较宽的散射光谱;随钴金核壳结构中核壳尺寸的增大,消光谱都由显示有两个峰位的波形演化为一个半高宽较大的波形,颗粒特性受核壳金属的共同作用。这些结果可以为其在太阳能领域等应用中的结构参数选择提供参考和借鉴。 相似文献
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采用离散偶极子近似(DDA)方法,研究了单体银纳米粒子和银纳米粒子阵列的光谱特性。研究结果发现,单体银纳米粒子的表面等离子体共振消光峰的位置随着周围介质折射率和粒子尺寸的增大逐渐红移,并且消光光谱的峰宽也越来越大。当银纳米粒子正方阵列的周期接近单体的共振波长时,阵列的消光光谱中会出现尖锐的共振峰,改变粒子尺寸的大小可以发现消光光谱中共振峰的峰值和位置有大幅度地改变,通过改变阵列在平行和垂直于入射光偏振方向上的周期,可以调节二维长方阵列共振峰的峰宽和峰位。该研究为纳米粒子在光学显微镜、生物传感元件、数据存储等领域中的应用提供有效地理论参考。 相似文献
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金纳米粒子光学性质中的尺寸和形状效应 总被引:4,自引:2,他引:4
纳米尺度的金属及半导体呈现出特殊的光学、电学及磁学性质,采用近年发展起来的离散偶极近似(DDA)的方法,我们分析了金纳米粒子的尺寸及形状对其光学性质的影响。粒子周围介质的影响在文中亦作了分析。计算结果显示,金纳米粒子的等离子体吸收带同时受到粒子尺寸和形状的影响,但来自形状的影响更为明显。与米氏理论及扩展的甘氏理论相比较,DDA方法在粒子尺寸不再远小于入射光波长的时候更准确,并能应用于任何形状的纳米粒子。理论计算与实验结果能较好的吻合。 相似文献
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金属光阴极因其超短脉冲发射和运行寿命长的特性从而具有重要应用价值,但是较高的功函数和较强的电子散射使其需要采用高能量紫外光子激发且光电发射量子效率极低.本文利用Mie散射共振效应增强银纳米颗粒中的局域光学态密度,提升光吸收率和电子的输运效率,并利用激活层降低银的功函数,从而增强光阴极在可见光区的量子效率.采用时域有限差分方法分析银纳米球阵列的光学共振特性,采用磁控溅射和退火工艺在银/氧化锡铟复合衬底上制备银纳米球,紧接着在其表面沉积制备铯激活层,最后在高真空腔体中测试光电发射量子效率.实验结果表明平均粒径150 nm的银纳米球光阴极在425 nm波长的量子效率超过0.35%,为相同激活条件下银薄膜光阴极的12倍,峰值波长与理论计算的Mie共振波长相符合. 相似文献
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采用离散偶极子近似方法计算了内嵌圆饼空心方形银纳米结构的消光光谱以及其近场的电场强度分布,并进一步与空心方形纳米结构的消光光谱和表面电场做比较.结果表明,在耦合作用下内嵌圆饼空心方形银纳米结构不仅产生了新的共振模式,而且新的共振模式在传统表面增强拉曼散射的激发波长范围内,进而可以弥补由于实验上运用纳米切片法所制备的空心方形纳米结构尺寸较大导致其共振吸收峰在远红外波长范围的不足.此外,可以通过改变内嵌圆饼空心方形银纳米结构的形貌参数调节其表面等离子体共振峰的共振波长,以满足在表面增强拉曼散射、生物分子或化学分子探测上的应用. 相似文献
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应用耦合偶极方程,描述了纳米尺寸金属颗粒复合物的偶极相互作用,计算在准静态近似下纳米尺寸的金、银及铜的复合物中,偶极相互作用的频率变量和衰变参量的波长相关特征,并对结果进行了分析。 相似文献
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采用漂移法,在玻璃衬底上制备出粒径分别为117,350和500 nm单层、大面积的聚苯乙烯胶体球掩膜板,在已制得的掩膜板上用射频磁控溅射的方法沉积一层氧化锌薄膜,最后用有机溶液四氢呋喃(THF)浸泡去除聚苯乙烯胶体球,获得不同粒径的二维氧化锌纳米团簇。通过扫描电子显微镜和能量色散X射线光谱仪对样品的形貌及成份进行表征,表明所制得样品为有序分布的蜂窝网状氧化锌纳米阵列。在室温下,通过吸收光谱仪测试样品在300~800 nm波长范围内的吸收光谱,结果表明对于具有不同尺寸晶粒的氧化锌纳米团簇样品,随着所采用的聚苯乙烯胶体球粒径的增大,即氧化锌纳米团簇粒径的增加,光吸收峰出现了宽化和红移;随着溅射时间的延长,即氧化锌薄膜膜厚的增加,光吸收率提高。此外,对氧化锌纳米团簇阵列的光吸收特性进行了基于离散偶极子近似的理论计算从而获得任意形状和尺寸粒子的吸收。目前,文献报道中用此理论计算各种形状的纳米金、银等金属的结果与实验结果相符,但是应用离散偶极子的近似理论计算氧化锌纳米颗粒的报道很少。应用此理论计算三角棱台形状的氧化锌光学吸收特性,根据氧化锌薄膜介电常数和膜厚的变化进行光吸收特性的模拟,并解释了实验结果。 相似文献
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Miroslav Kocifaj Gorden Videen 《Journal of Quantitative Spectroscopy & Radiative Transfer》2008,109(8):1404-1416
Atmospheric particles may contain a small amount of black carbon (BC) that may affect their optical properties. These optical properties also depend strongly on the particle morphology and internal topology. The efficiency factors for scattering Qsca, absorption Qabs, extinction Qext, backscattering Qbk, as well as the asymmetry parameter cos, linear polarization P, and scattering phase functions S11 are analyzed in detail as functions of morphology and internal topology. Backscattering quantities (like Qbk and P and S11 at large scattering angles) are affected most significantly. The behavior of these quantities depends strongly on the internal mixing of the constituent materials making up the particle. Effective medium theories (EMTs), which assume that the particle is homogeneous and are applied frequently in radiative transfer studies, can underestimate Qsca and S11 especially when high carbon contents are considered. Contrarily, EMTs also tend to overestimate the values of the asymmetry parameter and Qabs. 相似文献
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采用电化学方法制备出悬浮胶体金纳米棒。在室温下测得其紫外-可见吸收光谱和荧光发射光谱。结合准静电场理论与散射理论对金纳米棒的光学特性进行了数值模拟。计算结果表明,由于金纳米棒形状的各向异性,吸收截面与散射截面均出现两个共振峰,分别对应于横截方向与长轴方向的表面等离子共振。对于几何形状一定的金纳米棒,在外围介质介电常数从1.5增加到2.5的过程中,两个共振吸收峰均增强并非线性红移。然而对于散射光谱,短波方向的共振峰线性红移,强度变化微弱;长波方向的共振峰减弱并非线性红移。 相似文献
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首先控制聚苯乙烯纳米球(PS球)乳液在基片上的干燥温度,采用自组装方法,使用单一粒径的PS球制备出单层的PS球亚稳态正方排列结构模板。然后,在模板上通过磁控溅射法沉积一层银膜。利用纳米球光刻技术,去掉PS球模板得到二维正方点阵排列的准正方形银纳米颗粒阵列结构。 相似文献
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In this paper we overview our recent studies of anisotropic noble metal (e.g. gold and silver) nanoparticles, in which a combination of theory and experiment has been used to elucidate the extinction spectra of the particles, as well as information related to their surface enhanced Raman spectroscopy. We used wet-chemical methods to generate several structurally well-defined nanostructures other than solid spheres, including silver nanodisks and triangular nanoprisms, and gold nanoshells and multipods. When solid spheres are transformed into one of these shapes, the surface plasmon resonances in these particles are strongly affected, typically red-shifting and even splitting into distinctive dipole and quadrupole plasmon modes. In parallel, we have developed computational electrodynamics methods based on the discrete dipole approximation (DDA) method to determine the origins of these intriguing optical features. This has resulted in considerable insight concerning the variation of plasmon wavelength with nanoparticle size, shape and dielectric environment, as well as the use of these particles for optical sensing applications. 相似文献
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Optical properties of nanocrystalline silver halides 总被引:4,自引:0,他引:4
Michal Ilana Freedhoff Alfred P. Marchetti George L. McLendon 《Journal of luminescence》1996,70(1-6):400-413
A review of quantum confinement effects in nanocrystals of silver bromide (AgBr) and silver iodide (AgI) is presented. AgBr is an indirect gap semiconductor while AgI has a direct band-to-band lowest energy transition. An examination of the low-temperature optical properties of quantum confined AgBr grown using a variety of synthetic techniques will be made. The dynamics of some of the involved excitonic processes will be measured and discussed in reference to a possible breakdown in the momentum selection rules as the nanocrystals are made smaller. Other explanations for this behavior such as impurity exclusion and surface effects will also be considered, as will the dynamics associated with the trapping of excitons at intrinsic iodide impurities in AgBr. Absorption measurements on AgI nanocrystals will be discussed and compared with the exciton photophysics in AgBr. Both AgBr and AgI display an increasing blue shift of their luminescence, arising from the recombination of excitons, as the crystallite size decreases. The luminescence intensity arising from this process increases with decreasing size in AgBr but it disappears in small crystals of AgI. This leads to the conclusion that in the latter material nonradiative decay channels are opening up as the size decreases. 相似文献