Abstract
Bi2Se3 nanosheets were successfully synthesized by a microwave-assisted approach in the presence of polyvinylpyrroli done at a temperature of 180 °C for 2 h. The thin film was prepared on a silicon wafer via a self-deposition process in a Bi2Se3 nanosheet ink solution using the evaporation-induced self-assembly method. The structure and morphology of the obtained products were characterized by X-ray diffraction, scanning electron microscopy (SEM), x-ray photoelectron spectroscopy, and Raman spectroscopy. The highly uniform Bi2Se3 particles could be formed by controlling the oxygen plasma treatment time. After the plasma pretreatment from 10 to 20 s, the surface of Bi2Se3 film evolved from the worm-like structure to particles. The highly uniform thin film was formed on further increasing the plasma treatment time, which is consistent with the observed SEM results. Several important processes can result in the morphological evolution of Bi2Se3 nanosheets: (1) formation of Bi2Se3 oxide layer; (2) self-assembly of oxide nanoparticles under the action of high-energy oxygen plasma; and (3) electrostatic interaction and etching mechanism.
Highlights
Bi2Se3 nanosheets were successfully synthesized by a microwave-assisted approach in the presence of polyvinylpyrroli done at a temperature of 180 °C for 2 h
Bi2Se3 has a rhombohedral structure consisting of hexagonal close-packed atomic layers periodically arranged along the c-axis[11]
The present study reported the rapid synthesis of high-quality Bi2Se3 nanosheets by a microwave-assisted technology; these sheets are less toxic, biocompatible, and environmentally friendly
Summary
Bi2Se3 nanosheets were successfully synthesized by a microwave-assisted approach in the presence of polyvinylpyrroli done at a temperature of 180 °C for 2 h. Lin et al report the use of 2D colloidal Bi2Se3 nanoplates as an ink material to obtain high-performance electronic thin films via a solution assembly method[17]. It is an easy and common technology to realize 2D nanoplates as a building block for Bi2Se3 thin films on any substrates for the application in electronic and optoelectronic devices. Precise control of the growth and clear understanding of the mechanism of morphological evolution are the key to obtain a high-quality Bi2Se3 nanostructure by post-treatment technology. Various experimental groups have investigated the morphological evolution of the thin film comprising nanosheets by oxygen plasma treatment[17,20,21,22,23,24]
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