Enhanced incompressibility in iron doped nano particles of indium sesquioxide under high pressure

Journal of Physics C: Solid State Physics Pub Date : 2013-02-06 DOI:10.1063/1.4790932
N. Garg, K. Pandey, A. Mishra, A. Singhal, Surinder M. Sharma
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Abstract

Angle dispersive x-ray diffraction studies were carried out on nano particles of iron doped indium oxide upto pressures of 52 GPa. Our studies show that it undergoes a reversible phase transition to the rhombohedral corrundum phase at ∼ 30 GPa. However, the diffraction peaks of the released phase are very broad and are overriding on a large background. This indicates that there is some disorder in the indium oxide lattice on release of pressure. The bulk modulus of the initial cubic phase was determined to be 186 GPa. It was observed that beyond 20 GPa the lattice of iron doped indium oxide became very incompressible with an average compressibility of 0.16 % compared to ∼ 0.5 % for the initial phase. This may be attributed to iron doping.
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高压下铁掺杂半氧化铟纳米颗粒的不可压缩性增强
用角色散x射线衍射研究了在52 GPa压力下掺杂铁的氧化铟纳米颗粒。我们的研究表明,在~ 30gpa下,它经历了一个可逆的相变到菱形刚玉相。但是,释放相的衍射峰非常宽,并且在大背景下覆盖。这表明在压力释放时,氧化铟晶格存在一定的无序性。初始立方相的体积模量为186 GPa。结果表明,在20gpa以上,铁掺杂氧化铟的晶格变得非常不可压缩,平均可压缩率为0.16%,而初始相的平均可压缩率为~ 0.5%。这可能是铁掺杂的结果。
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Journal of Physics C: Solid State Physics
Journal of Physics C: Solid State Physics
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