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Title: | Mechanism of Electronegativity Heterojunction of Nanometer Amorphous-Boron on Crystalline Silicon: An Overview |
Authors: | Sberna, P Fang, PX Fang, C Nihtianov, S |
Keywords: | rectifying junction;photodiode;chemical vapor deposition;first principle molecular dynamics;electronegativity |
Issue Date: | 26-Jan-2021 |
Publisher: | MDPI AG |
Citation: | Sberna, P. et al. (2021) 'Mechanism of Electronegativity Heterojunction of Nanometer Amorphous-Boron on Crystalline Silicon: An Overview', Crystals, 11, 108, pp. 1-16. doi: 10.3390/cryst11020108. |
Abstract: | Copyright © 2021 by the authors. The discovery of the extremely shallow amorphous boron-crystalline silicon heterojunction occurred during the development of highly sensitive, hard and robust detectors for low-penetration-depth ionizing radiation, such as ultraviolet photons and low-energy electrons (below 1 keV). For many years it was believed that the junction created by the chemical vapor deposition of amorphous boron on n-type crystalline silicon was a shallow p-n junction, although experimental results could not provide evidence for such a conclusion. Only recently, quantum-mechanics based modelling revealed the unique nature and the formation mechanism of this new junction. Here, we review the initiation and the history of understanding the a-B/c-Si interface (henceforth called the “boron-silicon junction”), as well as its importance for the microelectronics industry, followed by the scientific perception of the new junctions. Future developments and possible research directions are also discussed. |
URI: | https://bura.brunel.ac.uk/handle/2438/22218 |
DOI: | https://doi.org/10.3390/cryst11020108 |
Appears in Collections: | Brunel Centre for Advanced Solidification Technology (BCAST) Dept of Mechanical and Aerospace Engineering Research Papers |
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