Facile synthesis of silicon nitride nanowires with flexible mechanical properties and with diameters controlled by flow rate

Shun Dong,Yuan Cheng,Xinghong Zhang,Cheng Fang,Guiqing Chen,Jianguo Xu,Ping Hu

doi:10.1038/srep45538

Shun Dong, Yuan Cheng + Show 5 more

Open Access

https://doi.org/10.1038/srep45538

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Journal: Scientific Reports	Publication Date: Mar 28, 2017
Citations: 22	License type: open-access

Affiliation: Harbin Institute of Technology

Abstract

Ultralong Si3N4 nanowires (NWs) were successfully synthesized with size controlled in N2 gas by using an efficient method. The diameters of the Si3N4 NWs increased when the flow rate of N2 gas increased, with average diameters of 290 nm from flow rates of 100 ml/min, 343 nm from flow rates of 200 ml/min and 425 nm from flow rates of 400 ml/min. Young’s modulus was found to rely strongly on the diameters of the Si3N4 NWs, decreasing from approximately 526.0 GPa to 321.9 GPa; as the diameters increased from 360 nm to 960 nm. These findings provide a promising method for tailoring these mechanical properties of the NWs in a controlled manner over a wide range of Young’s modulus values. Vapour-liquid-solid (VLS) mechanisms were used to model the growth of Si3N4 NWs on the inner wall of an alumina crucible and on the surface of the powder mixture. Alumina may be an effective mediator of NW growth that plays an important role in controlling the concentrations of Si-containing reactants to support the growth of NWs on the inner wall of the alumina crucible. This approach offers a valuable means for preparing ultralong Si3N4 NWs doped with Al with unique properties.

Highlights

Ultralong Si3N4 nanowires (NWs) were successfully synthesized with size controlled in N2 gas by using an efficient method
It was observed that these droplets were composed of Si, N, C, Fe and O (Au came from the preparation of the samples for improving electrical conductivity), which suggests that the growth of the NWs could be governed by a typical VLS growth mechanism and that Fe could be the catalyst to support the growth of the NWs25–27
The white wool-like products formed on the inner wall of the alumina crucible were ground to powder to confirm their crystalline phase

Summary

Introduction

Ultralong Si3N4 nanowires (NWs) were successfully synthesized with size controlled in N2 gas by using an efficient method. Alumina may be an effective mediator of NW growth that plays an important role in controlling the concentrations of Si-containing reactants to support the growth of NWs on the inner wall of the alumina crucible This approach offers a valuable means for preparing ultralong Si3N4 NWs doped with Al with unique properties. The objective of this paper is to develop a simple and effective method to synthesize ultralong Si3N4 NWs with size controlled and to characterize the mechanical properties of individual NWs by using a hybrid SEM/SPM system with in situ nanoindentation, which is a powerful method for manipulating and characterizing the properties of individual nanostructures[24]. To the best of our knowledge, this is the first time that the mechanical properties of Si3N4 NWs have been measured with a hybrid SEM/SPM system by using in situ nanoindentation

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