All Stories

  1. Tunable AC Magnetic Hyperthermia Efficiency of Ni Ferrite Nanoparticles
  2. Structure and Magnetic Properties of Boron Doped Fe50+xCu25−xM25(M = Al, Ga) and Fe50+xCo25−xG...
  3. Reducing the inversion degree of MnFe2O4nanoparticles through synthesis to enhance magnetization: evaluation of their1H NMR relaxation and heating efficiency
  4. In vitro application of Mn-ferrite nanoparticles as novel magnetic hyperthermia agents
  5. Structural and Magnetic Properties of Fe Doped Mn-Ga Ribbons
  6. Magnetic Graphene Oxide: Effect of Preparation Route on Reactive Black 5 Adsorption
  7. Impedance spectroscopy analysis of LiZnVO4 and LiMgVO4
  8. Impedance, dielectric and modulus analyses of compounds LiMnVO4and LiCuVO4
  9. Morphology influence on nanoscale magnetism of Co nanoparticles: Experimental and theoretical aspects of exchange bias
  10. Erratum to: Impedance spectroscopy study on the ionic conductivity processes of the novel LiFeVO4 phase
  11. Evolution of Nd2Fe14B nanoparticles magnetism during surfactant-assisted ball-milling
  12. In vitro application of Fe/MgO nanoparticles as magnetically mediated hyperthermia agents for cancer treatment
  13. The Effect of Composition and Structural Ordering on the Magnetism of FePt Nanoparticles
  14. Tuning the Perpendicular Magnetic Anisotropy of Co-Based Layers in Multilayered Systems
  15. Size-Induced Effects in Wet-Chemically Synthesized CoPt3 Nanoparticles
  16. ChemInform Abstract: Structural and Magnetic Properties of Nd3(Fe,Ti)29Cx Carbide.
  17. ChemInform Abstract: Structural and Magnetic Properties of a Novel Compound with Y3(Fe,V)29 Stoichiometry and Disordered CaCu5-Type Structure.
  18. The role of synthetic parameters in the magnetic behavior of relative large hcp Ni nanoparticles
  19. High coercivity cobalt carbide nanoparticles processed via polyol reaction: a new permanent magnet material
  20. Impedance spectroscopy study on the ionic conductivity processes of the novel LiFeVO4 phase
  21. Ionic Conductivity Study on Polycrystalline LiFeVO[sub 4]
  22. Study of LiMgVO4 electrical conductivity mechanism
  23. Identification of corrosion products resulting from accelerated oxidation process
  24. Effects of various chemical synthetic routes on structural and magnetic features of Mn–Pt bimetallic nanoparticles
  25. Tailoring the morphology of CoxPt1−x magnetic nanostructures
  26. Influence of multilayer modulation on structural and magnetic features in the Pt/Sm–Co system
  27. Controlling the crystal structure of Ni nanoparticles by the use of alkylamines
  28. Magnetic anisotropy of Ho–Fe–Co–Cr intermetallic compounds
  29. Effect of humidity on the conduction processes of Li3VO4
  30. The effect of humidity on the ionic conductivity of Mg2+-stabilized K+-β-ferrite
  31. Using magnetic circular dichroism for the study of the magnetization and the magnetic moments of atoms in Nd 3 Fe 27.5 Ti 1.5
  32. Impact of synthesis parameters on structural and magnetic characteristics of Co-based nanoparticles
  33. Thermal treatment effects in the self-assembly of FePt nanoparticle arrays
  34. Synthesis and characterization of inverse spinel LiNiVO4 and LiCoVO4 with impedance spectroscopy
  35. Impedance spectroscopy study of LiCuVO4
  36. Compensation law in stabilized β- and β″-ferrites
  37. Structure and magnetic properties of Sm(Co0.74Fe0.1Cu0.12Zr0.04)8 melt-spun nanostructured alloys
  38. Magnetocrystalline anisotropy of Nd3(Fe1−xCox)27.7Ti1.3Ny compounds
  39. Structural and magnetic features of heterogeneously nucleated Fe-oxide nanoparticles
  40. Existence and properties of Co-rich 3:29-type of compounds synthesized with heavy rare earths
  41. Controlled synthesis and phase characterization of Fe-based nanoparticles obtained by thermal decomposition
  42. On the local coordination of Fe in Fe2O3-glass and Fe2O3-glass ceramic systems containing Pb, Na and Si
  43. OXIDATION PROCESS OF Fe NANOPARTICLES
  44. EFFECT OF AIR EXPOSURE ON STRUCTURAL AND MAGNETIC FEATURES OF FeCo NANOPARTICLES
  45. ANNEALING EFFECT ON THE INDUCED MAGNETISM OF PLATINUM IN FePt NANOPARTICLES
  46. Study on the existence and properties of Y3(Fe1−xCox)29−yCry (x=0.6–1.0; y=5–7) intermetallic compounds
  47. Structural and Magnetic Properties of Sm$_3$(Fe$_1-rm x$Co$_rm x$)$_27.7$Ti$_1.3$
  48. Structure and magnetic properties of Gd4(Co,Ti)41 alloys
  49. Influences of Co on structural and magnetic properties of R3(Fe1−xCox)29−yMy (R=rare earth metal, M=transition metal) intermetallic compounds
  50. On the coordination environment of Fe- and Pb-rich solidified industrial waste: An X-ray absorption and Mössbauer study
  51. Structural and magnetic properties of Sm3(Fe1-xCox)27.7Ti1.3.
  52. Modification of the Fe-environment in Fe2O3 glass/glass ceramic systems containing Pb, Na and Si
  53. Structural and magnetic properties of Y3(Fe1−xCox)27.5V1.5 (0≤x≤0.4)
  54. Detection by means of electrical and magnetic measurements of Crn+ (n>3) ions in polycrystalline ZnCr2O4 samples prepared by heating in air
  55. Magnetic properties and structural characteristics of interstitially modified Nd3(Fe1−xCox)27.7Ti1.3Ny nitrides (x=0.1, 0.2, 0.3, 0.4)
  56. 57Fe Mössbauer spectroscopic studies of the magnetic anisotropy and spin reorientations in Nd3(Fe1−xCox)27.7Ti1.3 (0⩽x⩽0.4)
  57. Structural and magnetic properties of rare earth—iron–cobalt–vanadium intermetallic compounds (R: Tb, Dy)
  58. Synthesis and Magnetic Properties of (Ln,Ln′)3(Fe,Ti)29 (Ln: Pr, Nd and Ln′: Sm, Er) Intermetallic Compounds.
  59. Synthesis and magnetic properties of (R,R′)3(Fe,Ti)29 (R=Pr, Nd and R′=Sm, Er) intermetallic compounds
  60. Effects of Co substitution on structural and magnetic properties of R3(Fe1−xCox)29−yVy (R=Tb, Dy)
  61. Structure and magnetic properties of RCo7−xMnx alloys (R=Sm, Gd; x=0.1–1.4)
  62. 57Fe Mössbauer study of novel series of intermetallic compounds R3(Fe1−xCox)29−yTy (R=Nd, Tb, Dy; T=Ti, V)
  63. Magnetic characterisation and hydrogen absorption characteristics of Pr3(Fe,Ti)29Hx
  64. Structural and magnetic properties of Nd3(Fe1−xCox)27.7Ti1.3 (0
  65. Enhancement of Magnetic Properties By Co Substitution in Nd3(Fei1-xCox)27.5Ti1.5 (x= 0,0.1,0.2,0.3,0.4) Intermetallic Compounds
  66. Magnetic properties of interstitial modified Pr3(Fe,Ti)29 hydrocarbide
  67. Phase diagram and magnetic properties of Nd3−xDyx(Fe,Ti)29 (0.1
  68. Magnetocrystalline anisotropy of a novel Y(Fe,V)9.66 intermetallic compound and its nitride with a disordered CaCu5-type structure
  69. Structural and magnetic properties of a novel DyFe9.16V0.50 intermetallic compound with a disordered CaCu5-type structure
  70. Synthesis of melt-spun rare-earth transition-metal intermetallics with Nd3(Fe,Ti)29-type structure
  71. Magnetostrictive properties of amorphous and nanocrystalline TbDyFe films with Nb and Zr additives
  72. Structural and magnetic properties of a novel compound with Y3(Fe, V)29 stoichiometry and disordered CaCu5-type structure
  73. A Systematic Structural Study, Interpretation and Prediciton of Physical Properties for the Hard Magnetic Intermetallic Coumpound RE3T29, Based on Structure-Superstructure Relations ...
  74. Magnetostrictive properties of amorphous and partially crystalline TbDyFe thin films
  75. Synthesis of melt-spun rare-earth transition-metal intermetallics with Nd3(Fe,Ti)29 structure (abstract)
  76. Structural and giant magnetoresistance characterization of AgCo multilayers
  77. Site occupancy and lattice changes on nitrogenation in Nd3Fe29−xTixNy
  78. Structural and magnetic properties of Nd3(Fe,Ti)29Cx carbide
  79. Impedance spectroscopy related to reversible water uptake and loss in polycrystalline Cu2+-stabilized K+-β″-ferrite
  80. Magnetic phase transitions and magnetocrystalline anisotropy in Nd3(Fe,Ti)29 and Nd3(Fe,Ti)29N4
  81. Ab initio crystal structure solution of the novel intermetallic compound Nd3(Fe,Ti)29
  82. Structural and intrinsic magnetic material parameters of Pr3(Fe,Ti)29 and Pr3(Fe,Ti)29Nx
  83. Synthesis and magnetic properties of rare earth–iron–chromium phases and their nitrides
  84. Nitrogen absorption in bulk and thin films of RFe12−xTx-type compounds
  85. Synthesis and magnetic properties of R3(Fe,Ti)29 and R3(Fe,Ti)29Nx (R = Ce,Pr,Gd)
  86. Existence range, structural and magnetic properties of Nd3Fe27.5Ti1.5−yMoy and Nd3Fe27.5Ti1.5−yMoyNx (0.0 ≤ y ≤ 1.5)
  87. Magnetic properties and structural characteristics of a novel Ce/sub 3/(Fe/sub 0.95/Ti/sub 0.05/)/sub 29/N/sub 4/ nitride
  88. Thermal decomposition process of polycrystalline Cd-stabilized mono- and divalent-cation β″- and β-ferrites
  89. Synthesis and magnetic properties of PrFe12−xMoxand PrFe12−xMoxNy(0.5≤x≤1.0,y≊1)
  90. Mössbauer study of a modified M-type Ba(Sr)-ferrite prepared by ion exchange
  91. Preparation and properties of polycrystalline monovalent-cation β″-ferrites
  92. Synthesis and Thermal Stability of Polycrystalline New Divalent β″- and β-Ferrites Prepared by Ion Exchange
  93. Crystal structure and composition of nonstoichiometric M-type hexagonal ferrites prepared by ion exchange
  94. Magnetic properties and composition range of non-stoichiometric m-type hexagonal ferrites prepared by ion exchange
  95. Synthesis and magnetic properties of β″-ferrites stabilized by Co2+ and Ni2+
  96. SYNTHESIS AND MAGNETIC PROPERTIES OF PLATELET SHAPE SPINEL AND M-TYPE HEXAGONAL FERRITES PREPARED FROM β'' ALUMINA-LIKE FERRITES BY ION EXCHANGE