A comparison of atomic force microscopy (AFM) and dynamic light scattering (DLS) methods to characterize nanoparticle size distributions

被引:1
|
作者
Christopher M. Hoo
Natasha Starostin
Paul West
Martha L. Mecartney
机构
[1] University of California,Department of Chemical Engineering and Materials Science
[2] Irvine,undefined
[3] Technology Center,undefined
[4] Pacific Nanotechnology,undefined
[5] Inc.,undefined
[6] Rosemount Analytical Inc.,undefined
来源
Journal of Nanoparticle Research | 2008年 / 10卷
关键词
Atomic force microscopy; Dynamic light scattering; Polystyrene nanoparticles; Size analysis; Nanotechnology; Instrumentation;
D O I
暂无
中图分类号
学科分类号
摘要
This paper compares the accuracy of conventional dynamic light scattering (DLS) and atomic force microscopy (AFM) for characterizing size distributions of polystyrene nanoparticles in the size range of 20–100 nm. Average DLS values for monosize dispersed particles are slightly higher than the nominal values whereas AFM values were slightly lower than nominal values. Bimodal distributions were easily identified with AFM, but DLS results were skewed toward larger particles. AFM characterization of nanoparticles using automated analysis software provides an accurate and rapid analysis for nanoparticle characterization and has advantages over DLS for non-monodispersed solutions.
引用
收藏
页码:89 / 96
页数:7
相关论文
共 50 条
  • [41] Comparison of cell mechanical measurements provided by Atomic Force Microscopy (AFM) and Micropipette Aspiration (MPA)
    Daza, Rafael
    Gonzalez-Bermudez, Blanca
    Cruces, Julia
    De la Fuente, Monica
    Plaza, Gustavo R.
    Arroyo-Hernandez, Maria
    Elices, Manuel
    Perez-Rigueiro, Jose
    Guinea, Gustavo V.
    JOURNAL OF THE MECHANICAL BEHAVIOR OF BIOMEDICAL MATERIALS, 2019, 95 : 103 - 115
  • [42] Atomic Force Microscopy (AFM) Tip based Nanoelectrode with Hydrogel Electrolyte and Application to Single-Nanoparticle Electrochemistry
    Park, Kyungsoon
    Dinh, Thanh Duc
    Hwang, Seongpil
    JOURNAL OF ELECTROCHEMICAL SCIENCE AND TECHNOLOGY, 2024, 15 (02) : 261 - 267
  • [43] Dynamic Modeling and Simulation of Rough Cylindrical Micro/Nanoparticle Manipulation with Atomic Force Microscopy
    Korayem, Moharam H.
    Hezaveh, Hedieh Badkoobeh
    Taheri, Moein
    MICROSCOPY AND MICROANALYSIS, 2014, 20 (06) : 1692 - 1707
  • [44] DYNAMIC LASER-LIGHT SCATTERING TO DETERMINE SIZE DISTRIBUTIONS OF VESICLES
    RUF, H
    GEORGALIS, Y
    GRELL, E
    METHODS IN ENZYMOLOGY, 1989, 172 : 364 - 390
  • [45] Dynamic light scattering and particle size distributions in natural waters.
    Ryan, JN
    ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 1997, 214 : 19 - ENVR
  • [46] Application of the methods of dynamic light scattering and light microscopy for determining the particle size of the solid phase during the crystallization of salts
    Pochitalkina, I. A.
    Kekin, P. A.
    Kondakov, D. F.
    Petropavlovskij, I. A.
    Kolesnikov, V. A.
    Petrova, O. B.
    2016 INTERNATIONAL CONFERENCE LASER OPTICS (LO), 2016,
  • [47] Dynamic modeling of submerged nanoparticle pushing based on atomic force microscopy in liquid medium
    M. H. Korayem
    A. Motaghi
    M. Zakeri
    Journal of Nanoparticle Research, 2011, 13
  • [48] Determining amyloid particle size distributions by dynamic light scattering.
    Strangfeld, BR
    Giurleo, JT
    Talaga, DS
    ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2004, 228 : U292 - U292
  • [49] Dynamic modeling of submerged nanoparticle pushing based on atomic force microscopy in liquid medium
    Korayem, M. H.
    Motaghi, A.
    Zakeri, M.
    JOURNAL OF NANOPARTICLE RESEARCH, 2011, 13 (10) : 5009 - 5019
  • [50] Size distribution of nanoparticles by dynamic light scattering. Comparison of Bayesian and Tikhonov inversion methods
    Clementi, Luis A.
    Vega, Jorge R.
    Orlande, Helcio R. B.
    Gugliotta, Luis M.
    INVERSE PROBLEMS IN SCIENCE AND ENGINEERING, 2012, 20 (07) : 973 - 990
12345