Abstract
Hyphenated techniques, providing comprehensive information in various aspects such as constituent, structure, functional group, and morphology, play an important role in scientific research. Nowadays, coupling characterization of the same position in microscale is in great need in the field of nanomaterial research and exploration. In this article, a new hyphenated technique was developed to facilitate the coupling characterization of atomic force microscope (AFM) and scanning electron microscope (SEM) by designing a universal positioning system. The system consisted of a specimen holder with coordinate grids and a software for converting the coordinate values of the same point to fit SEM, specimen holder, and AFM system. In working condition, the coordinates of the labeled points and target position were firstly extracted from the SEM operation software, then converted into the numerical values adapted to the specimen holder itself, and finally transformed into the coordinates matching the AFM system. The experimental result showed that a retrieving rate of 96% was achieved for a spherical target with a diameter of 1 μm in a 30 μm × 30 μm square. The hyphenated technique is a universal, accurate, efficient, and financially feasible method in microanalysis field and has great application potential.
Highlights
Hyphenated techniques have been widely used in the field of active ingredient analysis and chemical reaction mechanism revelation
Owning to the benefits of coupling characterization of gas chromatography-mass spectrum (GC-MS), liquid chromatography-mass spectrum (LC-MS), liquid chromatography-Fourier transform infrared spectroscopy (LC-FTIR), and so on, researchers can obtain a great deal of useful information about composition, structure, and/or functional groups of the samples to accelerate their research work [1, 2]
The coordinate of O′O equals to the numerical values of point O, which can be delivered from the atomic force microscope (AFM) system according to the previous section
Summary
Received 22 February 2021; Revised 29 June 2021; Accepted 22 July 2021; Published 12 August 2021. Nowadays, coupling characterization of the same position in microscale is in great need in the field of nanomaterial research and exploration. A new hyphenated technique was developed to facilitate the coupling characterization of atomic force microscope (AFM) and scanning electron microscope (SEM) by designing a universal positioning system. The system consisted of a specimen holder with coordinate grids and a software for converting the coordinate values of the same point to fit SEM, specimen holder, and AFM system. The coordinates of the labeled points and target position were firstly extracted from the SEM operation software, converted into the numerical values adapted to the specimen holder itself, and transformed into the coordinates matching the AFM system. The hyphenated technique is a universal, accurate, efficient, and financially feasible method in microanalysis field and has great application potential
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