연구동향 분석

Structural properties of β-Fe2O3 nanorods under compression and torsion: Molecular dynamics simulations

Mehmet Emin Kilic Sholeh Alaei 2018년

논문상세정보
    • 저자 Mehmet Emin Kilic Sholeh Alaei
    • 제어번호 105946341
    • 학술지명 Current Applied Physics
    • 권호사항 Vol. 18 No. 11 [ 2018 ]
    • 발행처 한국물리학회
    • 자료유형 학술저널
    • 수록면 1352-1358
    • 언어 English
    • 출판년도 2018
    • 등재정보 KCI등재
    • 판매처
    유사주제 논문( 0)
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' Structural properties of β-Fe2O3 nanorods under compression and torsion: Molecular dynamics simulations' 의 참고문헌

  • ζ-Fe2O3 a new stable polymorph in iron(iii)oxide family
    J. Tucek [2015]
  • β-Fe2O3eine neue eisen(iii)oxyd-struktur
  • β-Fe2O3: preparation of thin films by chemical vapor deposition from organometallic chelates and their characterization
    L. Ben-Dor [1977]
  • α-Fe2O3 versus β-Fe2O3 : controlling the phase of the transformation product of ε-Fe2O3 in the Fe2O3/SiO2 system
    P. Brazda [2014]
  • The general utility lattice program (gulp)
    J. D. Gale [2003]
  • The addition effects of alkaline earth ions in the chemical synthesis of ε-Fe3O4 nanocrystals that exhibit a huge coercive field
  • Synthesis of hematite (α-Fe2O3) nanorods:diameter-size and shape effects on their applications in magnetism, lithium ion battery, and gas sensors
    C. Wu [2006]
  • Synthesis of biocompatible, mesoporous Fe3O4 nano/microspheres with large surface area for magnetic resonance imaging and therapeutic applications
    S. Xuan [2011]
  • Synthesis and surface engineering of iron oxide nanoparticles for biomedical applications
    A.K. Gupta [2005]
  • Structures and properties of Ni nanowires
    H. Y. Zhang [2004]
  • Structure and electronic properties of iron oxide clusters: a first-principles study
    S. López [2009]
  • Structural properties of β-Fe2O3 nanorods under strain: molecular dynamics simulations
    S. Alaei [2014]
  • Structural properties of defected ZnO nanoribbons under uniaxial strain: Molecular dynamics simulations
  • Structural properties of ZnO nanotubes under uniaxial strain:molecular dynamics simulations
    M. E. Kilic [2013]
  • Structural growth in iron oxide clusters:rings, towers, and hollow drums
    N. Jones [2005]
  • Solar water splitting: progress using hematite (α-Fe2O3) photoelectrodes
    K. Sivula [2011]
  • Silica surface features and their role in the adsorption of biomolecules: computational modeling and experiments
    A. Rimola [2013]
  • Ring statistics analysis of topological networks: new approach and application to amorphous GeS2 and SiO2 systems
    S. Le Roux [2010]
  • Phase transformation of β-Fe2O3 hollow nanoparticles
    C.-W. Lee [2008]
  • Pentagonal multi-shell Cu nanowire
    K. J. W [2002]
  • One-dimensional Nanostructures
    W. Zhou [2008]
  • Novel mechanical behavior of ZnO nanorods
    J. Wang [2008]
  • Nanostructured materials: basic concepts and microstructure
    H. Gleiter [2000]
  • Nanoengineering of a magnetically separable hydrogenation catalyst
    A. -H. Lu [2004]
  • Molecular dynamics simulation of a solid platinum nanowire under uniaxial tensile strain: temperature and strain-rate effects
    S. Koh [2005]
  • Molecular Dynamics Simulation: Elementary Methods vol. 1
    J.M. Haile [1992]
  • Molecular Dynamics Program for Cluster Simulations (md-tpc-pbc.F)
  • Mixed hemimicelles solid-phase extraction of chlorophenols in environmental water samples with 1-hexadecyl-3-methylimidazolium bromide-coated Fe3O4 magnetic nanoparticles with high-performance liquid chromatographic analysis
    Q. Cheng [2012]
  • Mechanical properties of magnetite (Fe3O4), hematite (α-Fe2O3) and goethite (α-FeO oh) by instrumented indentation and molecular dynamics analysis
    D. Chicot [2011]
  • Mechanical properties and formation mechanisms of a wire of single gold atoms
  • Magnetic nanoparticles: synthesis, protection, functionalization, and application
    A. -H. Lu [2007]
  • Low-temperature heat transfer in nanowires
    B. Glavin [2001]
  • Iron oxide nanorods as high-performance magnetic resonance imaging contrast agents
  • Iron (iii) oxides from thermal processes synthesis, structural and magnetic properties, mössbauer spectroscopy characterization, and applications
    R. Zboril [2002]
  • Gibbs2: a new version of the quasi-harmonic model code. i. robust treatment of the static data
  • Formation of spherical and rod-shaped ε-Fe3O4nanocrystals with a large coercive field
    J. Jin [2005]
  • Formation mechanism of needle-like α-Fe2O3 particles grown along the c axis and characterization of precursorily formed β-Fe2O3
    M. Ikeda [1986]
  • Folate-conjugated Fe3O4 @SiO2 hollow mesoporous spheres for targeted anticancer drug delivery
    Y. Zhu [2010]
  • Fine β-Fe2O3 particles with cubic structure obtained by spray pyrolysis
  • Ferromagnetism as a universal feature of inorganic nanoparticles
  • Erratum: ring statistics analysis of topological networks: new approach and application to amorphous GeS2 and SiO2 systems
    S. Le Roux [2010]
  • Do dislocations act as atomic autobahns for oxygen in the perovskite oxide SrTiO3?
    V. Metlenko [2014]
  • Defect and Diffusion Forum, vol. 293
    Q.L. Li [2009]
  • Concerning the β phase of iron (iii) oxide
    L. Ben-Dor [1976]
  • Canonical dynamics: equilibrium phase-space distributions
    W.G. Hoover [1985]
  • Atomistic simulation of the structure and segregation to the (0001) and surfaces of Fe2O3
    D. Cooke [2004]
  • Applications of magnetic nanoparticles in biomedicine
  • Analyses of tensile deformation of nanocrystalline α-Fe2O3+fcc-al composites using molecular dynamics simulations
    V. Tomar [2007]
  • A temperature and magnetic field dependence mössbauer study of ε-Fe3O4
  • A novel carbon nanotubes Fe3O4inorganic hybrid material: synthesis, characterization and microwave electromagnetic properties
    Y. Zhan [2011]
  • A new self-consistent empirical interatomic potential model for oxides, silicates, and silica-based glasses
    A. Pedone [2006]
  • A molecular dynamics method for simulations in the canonical ensemble
    S. Nosé [1984]