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高熵合金FeMnNiAlSiC纳米颗粒的相演变与形态转变:连续皮秒激光烧蚀和纳秒激光退火

Phase evolution and morphological transformation of high-entropy alloy FeMnNiAlSiC nanoparticles sequential picosecond laser ablation and nanosecond laser annealing.

作者信息

Singh Bibek Kumar, Shadangi Yagnesh, Jain Harsh, Prasad Goud R Sai, Mukhopadhyay N K, Pathak A P, Soma Venugopal Rao, Tiwari Archana, Tripathi A

机构信息

Department of Physics, School of Physical Sciences, Sikkim University 6th mile Samdur 737102 Sikkim India

Department of Materials Science and Metallurgical Engineering, Indian Institute of Technology Bhilai, Jevra-Sirsa Road Durg Chhattisgarh 491001 India.

出版信息

RSC Adv. 2025 Aug 11;15(35):28395-28412. doi: 10.1039/d5ra03923a.

DOI:10.1039/d5ra03923a
PMID:40861981
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12376931/
Abstract

This study investigates the morphological evolution and enhanced crystallinity of FeMnNiAlSiC high-entropy alloy (HEA) nanoparticles (NPs) synthesized using a picosecond laser operating in burst mode and subsequently processed with a nanosecond laser in deionized water (DW). The initial synthesis pulsed laser ablation in liquid (PLAL) revealed distinct phases, like B2, γ-brass, FeSi, and body-centered cubic (BCC), as confirmed by high-resolution transmission electron microscopy (HRTEM), selected area electron diffraction (SAED), and X-ray diffraction (XRD) data. Elemental mapping indicated enrichment of B2-type phases (Al-Fe and Al-Ni) in the larger NPs, while smaller NPs exhibited γ-brass and FeSi-type phases. Following nanosecond laser processing, the NPs displayed significant morphological transformations, including the emergence of hollow structures, as well as enhanced crystallinity. Post-processing analysis demonstrated the evolution of B2 and FeSi-type phases, driven by a laser-induced annealing effect, which resembles the traditional furnace annealing. This dual-stage laser approach effectively combines the rapid synthesis of NPs with structural refinement, offering a versatile pathway for tailoring material properties. These findings underscore the potential of laser-based techniques in the controlled synthesis and structural modulation of HEA NPs, paving the way for applications in catalysis, energy conversion, and advanced functional materials.

摘要

本研究调查了使用脉冲模式运行的皮秒激光合成并随后在去离子水中用纳秒激光处理的FeMnNiAlSiC高熵合金(HEA)纳米颗粒(NPs)的形态演变和结晶度增强情况。高分辨率透射电子显微镜(HRTEM)、选区电子衍射(SAED)和X射线衍射(XRD)数据证实,初始合成的液体中脉冲激光烧蚀(PLAL)显示出不同的相,如B2、γ-黄铜、FeSi和体心立方(BCC)。元素映射表明,较大的纳米颗粒中B2型相(Al-Fe和Al-Ni)富集,而较小的纳米颗粒则呈现γ-黄铜和FeSi型相。经过纳秒激光处理后,纳米颗粒表现出显著的形态转变,包括空心结构的出现以及结晶度的提高。后处理分析表明,在激光诱导的退火效应驱动下,B2和FeSi型相发生了演变,这类似于传统的炉内退火。这种双阶段激光方法有效地将纳米颗粒的快速合成与结构细化结合起来,为定制材料性能提供了一条通用途径。这些发现强调了基于激光的技术在高熵合金纳米颗粒的可控合成和结构调制方面的潜力,为催化、能量转换和先进功能材料的应用铺平了道路。

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