Synthesis and characterization of graphite-encapsulated iron nanoparticles from ball milling-assisted low-pressure chemical vapor deposition

Duygu Ağaoğulları*, Steven J. Madsen, Burcu Ögüt, Ai Leen Koh, Robert Sinclair

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

26 Citations (Scopus)

Abstract

Graphite-encapsulated Fe nanoparticles were synthesized using a combined method of high-energy ball milling and low-pressure chemical vapor deposition (LPCVD). Fe2O3 and graphite powders were milled to increase their surface areas and obtain a more homogeneous distribution. LPCVD was performed at a pressure of ∼0.57 Torr in a tube furnace under a CH4/H2 atmosphere at 1050 °C for 1 and 3 h. As-synthesized samples were purified in a 2 M HF solution. Characterization was performed using X-ray diffractometry (XRD), scanning and transmission electron microscopy (SEM and TEM) and alternating gradient magnetometry (AGM). XRD revealed the presence of body centered cubic (BCC) and face centered cubic (FCC) Fe phases without residual iron oxides. SEM confirmed the powders were better mixed and smaller after ball milling compared to mortar and pestle milled powders. High resolution TEM showed all nanoparticles had at least four and on average 16 graphitic layers, around an Fe core ranging from 20 to 300 nm. Magnetic measurements indicated that nanoparticles exhibit soft ferromagnetic behavior with low saturation magnetization (17–21 emu/g) and coercivity (110 Oe). A chemical stability test performed in a 2 M HCl solution showed that graphitic shells did not degrade, nor was there evidence of core dissolution or shell discontinuity.

Original languageEnglish
Pages (from-to)170-179
Number of pages10
JournalCarbon
Volume124
DOIs
Publication statusPublished - Nov 2017

Bibliographical note

Publisher Copyright:
© 2017 Elsevier Ltd

Funding

Dr. Duygu Ağaoğulları would like to express her appreciation to The Scientific and Technological Research Council of Turkey (TUBITAK) for financial support from the 2219 International Post Doctoral Research Fellowship Programme during her stay in the Department of Materials Science and Engineering at Stanford University. Part of this work was performed at the Stanford Nano Shared Facilities (SNSF). This research was supported by the Center for Cancer Nanotechnology Excellence and Translation (CCNE-T) grants funded by NCI-NIH to Stanford University U54CA151459 and U54CA199075 . We appreciate the support and encouragement of Professor Sanjiv (Sam) Gambhir. We also thank Professors William Chueh and Shan Wang for access to their equipment for ball milling and magnetic measurements respectively, and Will Gent and Amal El-Ghazaly for their assistance.

FundersFunder number
Center for Cancer Nanotechnology Excellence and Translation
Department of Materials Science and Engineering
NCI-NIHU54CA151459, U54CA199075
TUBITAK
Stanford University
Türkiye Bilimsel ve Teknolojik Araştirma Kurumu

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