Spherical Nanostructures(球形纳米结构)研究综述
Spherical Nanostructures 球形纳米结构 - Since the new macromolecules were including the hydrophilic polymeric and curcumin hydrophobic units, they self-assembled into spherical nanostructures, which were characterized by Field emission scanning electron microscopy (FE-SEM) and transmission electron microscopy (TEM) images. [1] SEM micrograph confirmed the presence of spherical nanostructures with a mean size of 20. [2] The tryptophan-cardanol nanoparticles inhibit fibril formation from unstructured protein resulting in spherical nanostructures. [3] The formation of star-fruit-shaped structures along with some polygonal and spherical nanostructures was confirmed by FESEM analysis. [4] Spherical nanostructures of HCu NPs (∼40 nm) were achieved by facile precipitation technique using ascorbic acid as a nucleating agent and subsequently made their NHFs via solution casting method. [5] However, the study of the optical properties of new plasmonic non-spherical nanostructures is less explored. [6] Herein, 3D Au@Pt-Pd hemispherical nanostructures (Au@Pt-Pd H-Ss) are fabricated as highly efficient electrocatalysts for oxidation reaction, which present heterogenous element distribution and anisotropic morphology. [7] It is found that the star-like nanostructures not only have the same inter-particle hot spot system as the spherical nanostructures, but also have a large number of high-intensity single-particle hot spot systems arising from the abundance of branched nanostructures on their own surfaces. [8] In aqueous solution, probe AIE-CDs emerged as spherical nanostructures which can enter the cell easily and located in mitochondria. [9]由于新的大分子包含亲水聚合物和姜黄素疏水单元,它们自组装成球形纳米结构,通过场发射扫描电子显微镜 (FE-SEM) 和透射电子显微镜 (TEM) 图像对其进行表征。 [1] SEM 显微照片证实了平均尺寸为 20 的球形纳米结构的存在。 [2] 色氨酸-腰果酚纳米颗粒抑制非结构化蛋白质形成原纤维,从而产生球形纳米结构。 [3] 杨桃形结构的形成 FESEM分析证实了一些多边形和球形纳米结构。 [4] HCu NPs(~40 nm)的球形纳米结构是通过使用抗坏血酸作为成核剂的简易沉淀技术获得的,随后通过溶液浇铸法制备它们的NHF。 [5] 然而,对新型等离子非球形纳米结构的光学性质的研究较少探索。 [6] 在此,3D Au@Pt-Pd 半球形纳米结构(Au@Pt-Pd H-Ss)被制造为用于氧化反应的高效电催化剂,其呈现出异质元素分布和各向异性形态。 [7] 研究发现,星状纳米结构不仅具有与球形纳米结构相同的粒子间热点系统,而且由于其上大量的支链纳米结构而产生大量的高强度单粒子热点系统。自己的表面。 [8] 在水溶液中,探针AIE-CDs以球形纳米结构出现,可以很容易地进入细胞并位于线粒体中。 [9]
Shell Spherical Nanostructures 壳球形纳米结构
The two solution-based methods for synthesizing the tantalum S and Se sulvanites result in Cu3TaS4 or Cu3TaSe4 nanocrystals (NCs) with prismatic morphology, or, in the case of Cu3TaSe4, could lead to core-shell spherical nanostructures. [1] In this work, the optical properties of Fe 3 O 4 @ Ag core/shell spherical nanostructures embedded in a dielectric host matrix are investigated theoretically. [2] It is observed that the localized surface plasmon resonance (LSPR) peak position in considered core-shell nanostructures is enhanced by changing the cores and shell thickness in the core-shell spherical nanostructures and aspect ratio as well as shell thickness in spheroidal core-shell nanostructures. [3]两种基于溶液的合成钽 S 和 Se 亚硫酸盐的方法会产生具有棱柱形形态的 Cu3TaS4 或 Cu3TaSe4 纳米晶体 (NC),或者在 Cu3TaSe4 的情况下,可能会产生核壳球形纳米结构。 [1] 在这项工作中,从理论上研究了嵌入介电主体基质中的 Fe 3 O 4 @Ag 核/壳球形纳米结构的光学性质。 [2] nan [3]