Please use this identifier to cite or link to this item: http://hdl.handle.net/123456789/3752
Title: Nanostructured metal borides: synthesis and their applications
Authors: Yadav, Krishna Kumar
Keywords: Nanostructured
Metal borides
Issue Date: 28-Jul-2021
Publisher: IISERM
Abstract: Nanostructured metal borides have attracted lots of researcher attention due to their wide application such as field emitters, scratchless/ultrahard coating, superconductivity, catalysis, anticorrosive coatings and ceramics materials. These exciting properties of metal borides generally arise due to the complex metal borides structure. In general, metal borides are generally synthesized via a solid-state borothermal reduction route. Based on a detailed literature survey, it has been observed that metal boride nanostructures have been synthesized in very adverse condition (either high temperature or under high vacuum). Therefore, in the present thesis, we focused on the new strategies to obtain binary as well as ternary nanostructured metal borides using chemical routes and investigate their properties at the nanoscale. Metal boride comprises boron with the less electronegative atom. Metal borides are classified into two main types: (a) boron rich borides (B: M>= to 4:1) and (b) metal-rich boride (B: M< to 4:1). Among the wide variety of metal boride, here we have attempted to stabilize metal borides of type AB 2 (A=3d-transition metals) and AB 6 (A=Rare earth metals). Further, we have explored the corrosion and field emission properties of these metal borides. The main aim of the present thesis is to design a new low-temperature synthesis process for the stabilization of metal diboride and metal hexaboride at ambient pressure. In the present thesis, metal hexaborides such as NdB 6 , GdB 6 , La x Nd 1-x B 6 and La x Gd 1-x B 6 (x=0.1, 0.2, 0.3, 0.4, and 0.5) has been synthesised. For the synthesis of these metal hexaboride, first their metal hydroxide has been synthesised using hydrothermal route. The as synthesised metal hydroxide precursors have been heated with sodium borohydride to obtained various composition of rare earth hexaboride. Further, the synthesised rare earth hexaboride has been coated over a silicon substrate and their field emission and air oxidation study properties have been explored. Further, an important material of metal-rich boride i.e. ZrB 2 has been synthesised. Here, for the synthesis ZrB 2 , first nanostructured zirconia of size 10-15 nm has been synthesised using the hydrothermal route. Further, zirconia nanoparticles heated with elemental boron to obtained pure ZrB 2 . The synthesised ZrB 2 has been coated over stainless steel substrate and their anticorrosive properties have been done studied.
URI: http://hdl.handle.net/123456789/3752
Appears in Collections:PhD-2015

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