Synthesis and mechanistic approach to investigate crystallite size of NbSe2 nanoparticles

IF 1.7 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Advances in Natural Sciences: Nanoscience and Nanotechnology Pub Date : 2024-01-16 DOI:10.1088/2043-6262/ad1a9c
Shivani R Bharucha, Mehul S Dave, Ranjan Kr Giri, Sunil H Chaki, Tushar A Limbani
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Abstract

Niobium diselenide (NbSe2) belongs to the class of transition metal dichalcogenides (TMDCs) and exhibits peculiar features such as charge density waves, superconductivity, and periodic crystal lattice distortion. The main focus of the article is the synthesis and characterisation of NbSe2 NPs utilising the wet chemical precursor solution route at room temperature, followed by in-depth x-ray diffraction (XRD) characterisation and analysis using the aforementioned techniques. The EDS result demonstrated that the NbSe2 NPs are devoid of impurities and close to stoichiometry. The sample has a crystalline hexagonal structure with the lattice constants a = b = 3.443Å, c = 12.576 Å, and α = β = 90°, γ = 120°, according to the XRD results. The work emphasises the need of comprehending how lattice strain and crystallite size affect physical attributes. x-ray peak broadening was used to study the epitaxial crystallisation of NbSe2 NPs. Various methods for determining crystallite size, such as the Williamson–Hall (W-H) method, Debye–Scherrer plots, uniform deformation model (UDM), uniform stress deformation model (USDM), uniform deformation energy density model (UDEDM), size strain plot (SSP) method, and Halder-Wagner (H-W) method, are employed to comprehensively analyse the nanoparticle characteristics, and additionally, high-resolution transmission electron microscopy (HRTEM) is employed to visualise the morphology and particle size distribution of the synthesised NbSe2 NPs. Physical parameters, including lattice stress, strain, and energy density, are also evaluated more precisely from the XRD pattern reflection peaks. The outcomes shed light on the interplay between crystallite size, lattice strain, and their effects on the material’s properties and showed excellent intercorrelation of the average crystallite sizes as estimated by employing various methods.
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研究 NbSe2 纳米粒子晶粒尺寸的合成和机理方法
二硒化铌(NbSe2)属于过渡金属二硒化物(TMDCs),具有电荷密度波、超导性和周期性晶格畸变等奇特特征。文章的重点是利用湿化学前驱体溶液路线在室温下合成 NbSe2 NPs 并对其进行表征,然后利用上述技术对其进行深入的 X 射线衍射(XRD)表征和分析。EDS 结果表明,NbSe2 NPs 不含杂质,接近化学计量。根据 XRD 结果,该样品具有晶格常数 a = b = 3.443 Å、c = 12.576 Å 和 α = β = 90°、γ = 120°的结晶六边形结构。这项工作强调了理解晶格应变和晶粒大小如何影响物理属性的必要性。X 射线峰展宽用于研究 NbSe2 NPs 的外延结晶。确定晶体尺寸的方法有多种,如威廉森-霍尔(W-H)法、德拜-舍勒图、均匀变形模型(UDM)、均匀应力变形模型(USDM)、均匀变形能量密度模型(UDEDM)、尺寸应变图(SSP)法、此外,还采用了高分辨率透射电子显微镜(HRTEM)来观察合成 NbSe2 NPs 的形貌和粒度分布。物理参数,包括晶格应力、应变和能量密度,也通过 XRD 图谱反射峰得到了更精确的评估。研究结果揭示了晶粒尺寸、晶格应变之间的相互作用及其对材料特性的影响,并显示了通过各种方法估算出的平均晶粒尺寸之间的良好相互关系。
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Advances in Natural Sciences: Nanoscience and Nanotechnology
Advances in Natural Sciences: Nanoscience and Nanotechnology NANOSCIENCE & NANOTECHNOLOGYMATERIALS SCIE-MATERIALS SCIENCE, MULTIDISCIPLINARY
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