Source: https://www.mawi.tu-darmstadt.de/fm/funktionale_materialien/publications/index_10.en.jsp
Timestamp: 2019-04-19 06:17:12+00:00

Document:
Magnetic and magnetocaloric properties of the Co2-xMn B system by experiment and density functional theory.
Demagnetizing and hardening mechanisms in Nd-Fe-B and Sr-hexaferrite permanent magnets.
Intrinsic magnetic properties of hydrided and non-hydrided Nd 5 Fe 17 single crystals.
Anisotropic local hardening in hot-deformed Nd-Fe-B permanent magnets.
Microstructural origin of hysteresis in Ni-Mn-In based magnetocaloric compounds.
In-situ magnetic force microscopy analysis of magnetization and demagnetization behavior in Al 3+ substituted Sr-hexaferrite.
Origin of field-induced discontinuous phase transitions in Nd2Fe17.
Moment-Volume Coupling in La(Fe1−x Si x )13.
A Comparative Study on the Magnetocaloric Properties of Ni-Mn-X(-Co) Heusler Alloys.
Towards an Alloy Recycling of Nd–Fe–B Permanent Magnets in a Circular Economy.
Millisecond Dynamics of the Magnetocaloric Effect in a First- and Second-Order Phase Transition Material.
A multicaloric cooling cycle that exploits thermal hysteresis.
Manipulation of matter by electric and magnetic fields: Toward novel synthesis and processing routes of inorganic materials.
Determining the vibrational entropy change in the giant magnetocaloric material LaFe11.6Si1.4 by nuclear resonant inelastic x-ray scattering.
A quantitative criterion for determining the order of magnetic phase transitions using the magnetocaloric effect.
Recycling of Nd-Fe-B permanent magnets by hydrogen processes.
The role of Ni in modifying the order of the phase transition of La(Fe,Ni,Si)13.
Prospects of additive manufacturing of rare-earth and non-rare-earth permanent magnets.
Nanoskalige Magnete und Magnetkomposite auf Ferritbasis.
Hysteresis Design of Magnetocaloric Materials-From Basic Mechanisms to Applications.
Heavy rare earth free, free rare earth and rare earth free magnets - Vision and reality.
Plastically deformed Gd-X (X = Y, In, Zr, Ga, B) solid solutions for magnetocaloric regenerator of parallel plate geometry.
Effects of severe plastic deformation on the magnetic properties of terbium.
Magnetocaloric effect in cold rolled foils of Gd 100− x In x ( x = 0, 1, 3).
Magnetocaloric materials for refrigeration near room temperature.
Bulk combinatorial analysis for searching new rare-earth free permanent magnets: Reactive crucible melting applied to the Fe-Sn binary system.
High energy proton induced radiation damage of rare earth permanent magnet quadrupoles.
Influence of magnetic field, chemical pressure and hydrostatic pressure on the structural and magnetocaloric properties of the Mn–Ni–Ge system.
Microwave synthesis and magnetic properties of Laves-type Ti2M3Si (M = Mn, Fe, Co, Ni).
In: physica status solidi (c), 14 (3-4) S. 1700027.
Multiscale Examination of Strain Effects in Nd-Fe-B Permanent Magnets.
Atomic structure and domain wall pinning in samarium-cobalt based permanent magnets.
YCo5±xthin films with perpendicular anisotropy grown by molecular beam epitaxy.
Infrared heating mediated synthesis and characterization of FeCo/C nanocomposites.
Production and properties of metal-bonded La(Fe,Mn,Si) 13 H x composite material.
Low-Temperature Phase c-axis Oriented Manganese Bismuth Thin Films With High Anisotropy Grown From an Alloy Mn55Bi45Target.
Normal and abnormal grain growth in fine-grained Nd-Fe-B sintered magnets prepared from He jet milled powders.
Behaviour of the Young's modulus at the magnetocaloric transition in La(Fe,Co,Si)13.
Magnetic properties of Mo-stabilized bulk Fe3B magnet.
Production and properties of metal-bonded La(Fe,Mn,Si)13Hx composite material.
Properties of magnetically semi-hard (FexCo1−x)3B compounds.
Correlation of microchemistry of cell boundary phase and interface structure to the coercivity of Sm(Co0.784Fe0.100Cu0.088Zr0.028)7.19 sintered magnets.
High-performance solid-state cooling materials: Balancing magnetocaloric and non-magnetic properties in dual phase La-Fe-Si.
Grain boundary diffusion of different rare earth elements in Nd-Fe-B sintered magnets by experiment and FEM simulation.
Experimental and computational analysis of magnetization reversal in (Nd,Dy)-Fe-B core shell sintered magnets.
Synthesis, morphology, thermal stability and magnetic properties of α ″ -Fe 16 N 2 nanoparticles obtained by hydrogen reduction of γ -Fe 2 O 3 and subsequent nitrogenation.
Synthesis, morphology, thermal stability and magnetic properties of α″-Fe16N2 nanoparticles obtained by hydrogen reduction of γ-Fe2O3 and subsequent nitrogenation.
Temperature-dependent first-order reversal curve measurements on unusually hard magnetic low-temperature phase of MnBi.
Enhancement of coercivity and saturation magnetization of Al3+ substituted M-type Sr-hexaferrites.
Phase transitions of borides and phosphides for application in magnetic energy conversion.
Grain Boundary Engineering in Sintered Nd-Fe-B Permanent Magnets for Efficient Utilization of Heavy Rare Earth Elements.
Impact of lattice dynamics on the phase stability of metamagnetic FeRh: Bulk and thin films.
The search for room temperature tetragonal phases of Fe-Mn-Ga: A reactive crucible melting approach.
REE Recovery from End-of-Life NdFeB Permanent Magnet Scrap: A Critical Review.
Grain boundary diffusion in nanocrystalline Nd-Fe-B permanent magnets with low-melting eutectics.
Co@CoSb Core–Shell Nanorods: From Chemical Coating at the Nanoscale to Macroscopic Consolidation.
Micromagnetic simulations on the grain shape effect in Nd-Fe-B magnets.
Direct measurement of the magnetocaloric effect in cementite.
Mastering hysteresis in magnetocaloric materials.
Magnetic, magnetocaloric and structural properties of manganese based monoborides doped with iron and cobalt – A candidate for thermomagnetic generators.
Microstructure and magnetic properties of melt-spun Alnico-5 alloys.
On the magnetocaloric properties of Heusler compounds: Reversible, time- and size-dependent effects of the martensitic phase transition.
Contradictory role of the magnetic contribution in inverse magnetocaloric Heusler materials.
Adiabatic temperature change of micro- and nanocrystalline Y2Fe17 heat-exchangers for magnetic cooling.
Assessment of the magnetocaloric effect in La,Pr(Fe,Si) under cycling.
Rotational Magnetocaloric Effect in the Er2Fe14B Single Crystal.
Multiferroic Clusters: A New Perspective for Relaxor-Type Room-Temperature Multiferroics.
On the S(T) diagram of magnetocaloric materials with first-order transition: Kinetic and cyclic effects of Heusler alloys.
FORC analysis of magnetocaloric Heusler-type alloys.
Giant adiabatic temperature change in FeRh alloys evidenced by direct measurements under cyclic conditions.
Dynamical Effects of the Martensitic Transition in Magnetocaloric Heusler Alloys from DirectΔTadMeasurements under Different Magnetic-Field-Sweep Rates.
A unified approach to describe the thermal and magnetic hysteresis in Heusler alloys.
On the synthesis and microstructure analysis of high performance MnBi.
The Resource Basis of Magnetic Refrigeration.
Magnetic Properties of Nd and Sm Rare-Earth Metals After Severe Plastic Deformation.
Magnetic ordering in magnetic shape memory alloy Ni-Mn-In-Co.
On the preparation of La(Fe,Mn,Si)13Hx polymer-composites with optimized magnetocaloric properties.
Verfahren zum Recycling von seltenerdhaltigen Permanentmagneten.
Polymer-Bonded La(Fe,Mn,Si)13Hx Plates for Heat Exchangers.
Local electronic and magnetic properties of pure and Mn-containing magnetocaloric LaFe13−xSixcompounds inferred from Mössbauer spectroscopy and magnetometry.
Dependence of the inverse magnetocaloric effect on the field-change rate in Mn3GaC and its relationship to the kinetics of the phase transition.
Magnet properties of Mn70Ga30 prepared by cold rolling and magnetic field annealing.
Calculation of remanence and degree of texture from EBSD orientation histograms and XRD rocking curves in Nd–Fe–B sintered magnets.
Preparation, Characterization, and Modeling of Ultrahigh Coercivity Sm-Co Thin Films.
Effect of severe plastic deformation on the specific heat and magnetic properties of cold rolled Gd sheets.
Large entropy change, adiabatic temperature change, and small hysteresis in La(Fe,Mn)11.6Si1.4 strip-cast flakes.
Sorption properties and reversibility of Ti(IV) and Nb(V)-fluoride doped-Ca(BH4)2–MgH2 system.
Microstructure and magnetic properties of Mn–Al–C alloy powders prepared by ball milling.
Mechanism of the texture development in hydrogen-disproportionation–desorption-recombination (HDDR) processed Nd–Fe–B powders.
Element-Resolved Thermodynamics of Magnetocaloric LaFe13−xSix.
The effect of surface grain reversal on the AC losses of sintered Nd–Fe–B permanent magnets.
Temperature dependent low-field measurements of the magnetocaloric ΔT with sub-mK resolution in small volume and thin film samples.
A new type of La(Fe,Si)13-based magnetocaloric composite with amorphous metallic matrix.
Temperature-dependent Dy diffusion processes in Nd–Fe–B permanent magnets.
Large reversible magnetocaloric effect in Ni-Mn-In-Co.
Magnetic properties of(Fe1−xCox)2Balloys and the effect of doping by5delements.
Replacement and Original Magnet Engineering Options (ROMEOs): A European Seventh Framework Project to Develop Advanced Permanent Magnets Without, or with Reduced Use of, Critical Raw Materials.
Asymmetric first-order transition and interlocked particle state in magnetocaloric La(Fe,Si)13.
Magnetic Properties of (Fe,Co)<sub>2</sub>B Alloys With Easy-Axis Anisotropy.
B1-Mobilstor: Materials for Sustainable Energy Storage Techniques - Lithium Containing Compounds for Hydrogen and Electrochemical Energy Storage.
Atomic-scale features of phase boundaries in hot deformed Nd–Fe–Co–B–Ga magnets infiltrated with a Nd–Cu eutectic liquid.
Modeling of Nd-Oxide Grain Boundary Phases in Nd-Fe-B Sintered Magnets.
Interface effects in NaAlH4–carbon nanocomposites for hydrogen storage.
Systematic investigation of Mn substituted La(Fe,Si)13 alloys and their hydrides for room-temperature magnetocaloric application.
On the reversible and fully repeatable increase in coercive field of sintered Nd–Fe–B magnets following post sinter annealing.
The dynamics of spontaneous hydrogen segregation in LaFe13−xSixHy.
Influence of defect thickness on the angular dependence of coercivity in rare-earth permanent magnets.
First-principles calculation of the instability leading to giant inverse magnetocaloric effects.
Pathways for novel magnetocaloric materials: A processing prospect.
Coercivity enhancement in hot-pressed Nd-Fe-B permanent magnets with low melting eutectics.
Net-shape and crack-free production of Nd–Fe–B magnets by hot deformation.
Towards high-performance permanent magnets without rare earths.
Impact of different Nd-rich crystal-phases on the coercivity of Nd–Fe–B grain ensembles.
High energy product in Battenberg structured magnets.
Structural and magnetic properties of heat-treated ultrafine single crystalline Nd2Fe14B particles obtained by ball-milling of dynamic hydrogenation disproportionation desorption and recombination powder.
Heat exchangers made of polymer-bonded La(Fe,Si)13.
Dependence of coercivity on length ratios in sub-micron Nd2Fe14B particles with rectangular prism shape.
Magnetocaloric and magnetic properties of Ni2Mn1−xCuxGa Heusler alloys: An insight from the direct measurements and ab initio and Monte Carlo calculations.
Properties of isolated single crystalline and textured polycrystalline nano/sub-micrometre Nd2Fe14B particles obtained from milling of HDDR powder.
High-coercivity Nd–Fe–B thick films without heavy rare earth additions.
NaAlH4 confined in ordered mesoporous carbon.
Influence of thermal treatment on magnetocaloric properties of Gd cold rolled ribbons.
Giant induced anisotropy ruins the magnetocaloric effect in gadolinium.
Chemical State, Distribution, and Role of Ti- and Nb-Based Additives on the Ca(BH4)2System.
Influence of thermal hysteresis and field cycling on the magnetocaloric effect in LaFe11.6Si1.4.
Ca(BH4)2+ MgH2: Desorption Reaction and Role of Mg on Its Reversibility.
Insight into the decomposition pathway of the complex hydride Al3Li4(BH4)13.
Mechanochemical synthesis of NaBH4 starting from NaH–MgB2 reactive hydride composite system.
Adiabatic Temperature Change in Metamagnetic Ni(Co)-Mn-Al Heusler Alloys.
Ligand field parameters and the ground state of Fe(II) phthalocyanine.
Impact of magnetization state on the corrosion of sintered Nd-Fe-B magnets for e-motor applications.
Effect of milling parameters on SmCo5 nanoflakes prepared by surfactant-assisted high energy ball milling.
The maximal cooling power of magnetic and thermoelectric refrigerators with La(FeCoSi)13 alloys.
High-Field Transitions in ErFe11Ti and HoFe11Ti Single Crystals.
Effect of DyF3on the corrosion behavior of hot-pressed Nd-Fe-B permanent magnets.
Preface to the viewpoint set on: Magnetic materials for energy.
Ultra-fine grained Nd–Fe–B by high pressure reactive milling and desorption.
Exploring La(Fe,Si)13-based magnetic refrigerants towards application.
Evaluation of the reliability of the measurement of key magnetocaloric properties: A round robin study of La(Fe,Si,Mn)Hδ conducted by the SSEEC consortium of European laboratories.
Understanding the microstructure and coercivity of high performance NdFeB-based magnets.
Magnetic Materials for Energy Applications.
The effect of the thermal decomposition reaction on the mechanical and magnetocaloric properties of La(Fe,Si,Co)13.
Magnetostructural transition and adiabatic temperature change in Mn–Co–Ge magnetic refrigerants.
Contributions to the entropy change in melt-spun LaFe11.6Si1.4.
Magnetocaloric materials with first-order phase transition: thermal and magnetic hysteresis in LaFe11.8Si1.2 and Ni2.21Mn0.77Ga1.02 (invited).
Recycling Used Nd-Fe-B Sintered Magnets via a Hydrogen-Based Route to Produce Anisotropic, Resin Bonded Magnets.
Reversible Magnetic Field Induced Strain in Ni2MnGa-Polymer-Composites.
Hysteresis and magnetocaloric effect at the magnetostructural phase transition of Ni-Mn-Ga and Ni-Mn-Co-Sn Heusler alloys.
Reproducibility of martensitic transformation and phase constitution in Ni-Co-Al.
Wireless and passive temperature indicator utilizing the large hysteresis of magnetic shape memory alloys.
Enhanced reversibility of H2 sorption in nanoconfined complex metal hydrides by alkali metal addition.
Reversible solid-state hydrogen-pump driven by magnetostructural transformation in the prototype system La(Fe,Si)13Hy.
Giant magnetocaloric effect driven by structural transitions.
NiMn-Based Alloys and Composites for Magnetically Controlled Dampers and Actuators.
Procedure for numerical integration of the magnetocaloric effect.
Magnetic refrigeration: phase transitions, itinerant magnetism and spin fluctuations.
Effect of carbon on magnetocaloric effect of LaFe11.6Si1.4 compounds and on the thermal stability of its hydrides.
In situ magnetic force microscope studies of magnetization reversal of interaction domains in hot deformed Nd-Fe-B magnets.
Magnetocaloric effect of an Fe-based metallic glass compared to benchmark gadolinium.
This list was generated on Fri Apr 19 01:51:57 2019 CEST.
O. Gutfleisch and K. Sandeman (eds.), Magnetic cooling: from fundamentals to high efficiency refrigeration, John Wiley & Sons, Ltd., 14 chapters, appr. 440 pages, to published July 2014.
O. Gutfleisch and V. Franco (eds.), Magnetic Materials for Energy Applications, View Point Set, Scripta Materialia, September 2012.
J.P. Liu, O. Gutfleisch, E. Fullerton, D. Sellmyer (eds.), Nanoscale magnetic materials and applications, Springer, New York, 732 pages, 2009, ISBN: 978-0-387-85598-1.
Proc. of 4th Joint European Magnetic Symposia (JEMS 08), September 2008 Dublin, J. of Magn. and Magn. Mat. 322 (2010) 1045-1700, ed. by S. Sanvito, R. Sessoli, B. Braun, O. Gutfleisch and R. Chantrell (ISSN 0304-8853).
Proc. of 2nd Joint European Magnetic Symposia (JEMS 04), September 2004 Dresden, J. of Magn. and Magn. Mat. 290-291 (2005) 1660 pages, ed. by O. Gutfleisch, M. Ziese, U. Nowak, T. Schrefl and V. Narozhnyi.
Proc. of 11th Joint MMM-Intermag Conference 2010, Washington DC, IEEE Trans. Magn. vol. 46 (no. 6) June 2010, pp. 1262-2517, ed. by T. Thompson, A. Deac, O. Gutfleisch, C.-H. Lai, J.J.H. Paulides and M. Yamaguchi (ISSN0017-9464).
O. Gutfleisch, “Hard Magnetic Materials, Basic Principles of”, in Encyclopedia of Materials: Science and Technology, ed. K.H.J. Buschow, R.W. Cahn, M.C. Flemings, B. Ilschner, E.J. Kramer, S. Mahajan, publ. Elsevier Science Ltd., pp. 3719-3722 (2001).
O. Gutfleisch, “Rare Earth Magnets: Materials”, in Encyclopedia of Materials: Science and Technology, ed. K.H.J. Buschow, R.W. Cahn, M.C. Flemings, B. Ilschner, E.J. Kramer, S. Mahajan, publ. Elsevier Science Ltd., pp. 8022-8026 (2001).
K.-H. Müller, G. Fuchs and O. Gutfleisch, „Permanent magnetism“, in High Magnetic Fields – Science and Technology, vol. 3, ed. F. Herlach and N. Miura, World Scientific Publ. Co. Pte. Ltd. Singapore, 2006, pp. 149-183.
O. Gutfleisch and N. Dempsey, “High performance µ-magnets for micro-electro-mechanical Systems (MEMS)”, in: Magnetic Nanostructures in Modern Technology, ed. by B. Azzerboni, G. Asti, L. Pareti, M. Ghidini, publ. Springer 2008, pp. 167-194.
O. Gutfleisch, “High temperature SmCo permanent magnets”, in: “Nanoscale magnetic materials and applications”, ed. J.P. Liu, O. Gutfleisch, E. Fullerton, D. Sellmyer, Springer, New York, 2009, ISBN: 978-0-387-85598-1, pp. 337-372.
O. Hezcko, N. Scheerbaum and O. Gutfleisch, “Magnetic shape memory phenomena”, in: “Nanoscale magnetic materials and applications”, ed. J.P. Liu, O. Gutfleisch, E. Fullerton, D. Sellmyer, Springer, New York, 2009, ISBN: 978-0-387-85598-1, pp. 399-440.
N. Dempsey, N. Kornilov and O. Gutfleisch, “Permanent magnets for MEMS”, in “Magnetic Microsystems (Mag-Mems)”, ed. G Reyne, J. Delamare, and O. Cugat, Wiley, ISBN-10: 1905209819, Publ. ISTE 2009, 24 pages.
J. Lyubina, B. Rellinghaus, O. Gutfleisch, M. Albrecht, “Structure and magnetic properties of L10-ordered Fe-Pt alloys and nanoparticles”, in: “Handbook of magnetic materials”, vol. 19, chapter 5, ed. K.H.J. Buschow, Elsevier North-Holland, Amsterdam, pp. 291-407.
J. Ćwik, T. Palewski, K. Nenkov, J. Lyubina, O. Gutfleisch, The influence of Er substitution on magnetic and magnetocaloric properties of Dy(1-x)Er(x)Co2 solid solutions, Intermetallics 19 (2011) 1656-1660.
T.G. Woodcock, J. Wright, N. Scheerbaum, J. Liu and O. Gutfleisch, The Texture of Nd Oxide Grains in Nd-Fe-B Sintered Magnets Studied by Synchrotron Radiation, J. Appl. Phys. 110 (2011) 026103.
C. Bonatto Minella, C. Rongeat, R. Domenech-Ferrer, I. Lindemann, N. Sorbie, D. H. Gregory, O. Gutfleisch, Synthesis of LiNH2 + LiH by reactive milling of Li3N, Royal Soc. of Chem., Faraday Disc. 151 (2011) 253-263.
K.H. Gudmundsson, F. Jonsdottir, F. Thorsteinsson, F. and O. Gutfleisch, An Experimental Investigation of Unimodal and Bimodal Magnetorheological Fluids with an Application in Prosthetic Devices, J. of Intelligent Material Systems and Structures 22 (2011) 539-549.
I. Lindemann, R. Domènech Ferrer, L. Dunsch, Y. Filinchuk, H. Hagemann V. D'Anna, R. Černý, L. Schultz and O. Gutfleisch, Novel sodium aluminium borohydride containing the complex anion [Al(BH4,Cl)4]-, Royal Soc. of Chem., Faraday Disc. 151 (2011) 231-242.
R. Domènech–Ferrer, F. Ziegs, S. Klod, I. Lindemann, R. Voigtländer, L. Dunsch, O. Gutfleisch, In-situ Raman cell for high pressure and temperature studies of metal and complex hydrides, Analytical Chemistry 83 (2011) 3199-3204.
V. Basso, C.P. Sasso, M. Küpferling, K.P. Skokov, O. Gutfleisch, Er2Fe14B single crystal as magnetic refrigerant at the spin reorientation transition, J. Appl. Phys. 109 (2011) 083910_1-8.
B. Schwarz, N. Mattern, J.D. Moore, K.P. Skokov, O. Gutfleisch, J. Eckert, Influence of Sample Geometry on Determination of Magnetocaloric Effect for Gd60Co30Al10 Glassy Ribbons Using Direct and Indirect Methods, J. Magn. Mat. Magn. 323 (2011) 1782-1786.
K. Güth, T.G. Woodcock, L. Schultz, O. Gutfleisch, Comparison of local and global texture in HDDR processed Nd-Fe-B magnets, Acta Mat. 59 (2011) 2029–2034.
K. Güth, T.G. Woodcock, J. Thielsch, L. Schultz, O. Gutfleisch, Local Orientation Analysis by EBSD in Highly Textured Sintered, Die-Upset and HDDR Nd-Fe-B Magnets, J. Appl. Phys. 109 (2011) 07A764.
C. Bonatto Minella, G. Barkhordarian, S. Garroni, C. Pistidda, R. Gosalawit-Utke, C. Rongeat, O. Gutfleisch, T.R. Jensen, Y. Cerenius, M. Dolors Baró, R. Bormann, M. Dornheim, Effect of Transition Metal Fluorides on Reversible Formation of Ca(BH4)2, J. Phys. Chem. C 115 (2011) 2497-2504.
T.G. Woodcock and O. Gutfleisch, Multi-Phase EBSD Mapping and Local Texture Analysis in NdFeB Sintered Magnets, Acta Mat. 59 (2011) 1026-1036.
J. Liu, M. Krautz, K.P. Skokov, O. Gutfleisch, Microstructure, entropy change and adiabatic temperature change in optimized La-Fe-Si alloys with a magnetic first-order transition, Acta Mat. 59 (2011) 3602-3611.
C. Bonatto Minella, S. Garroni, D. Olid-Britos, F. Teixidor, C. Pistidda, I. Lindemann, O. Gutfleisch, M. Dolors Baró, R. Bormann, T. Klassen, M. Dornheim, Experimental Evidence of Ca[B12H12] Formation During Decomposition of a Ca(BH4)2 + MgH2 Based Reactive Hydride Composite, J. of Phys. Chem. C 115 (2011) 18010-18014.
D.Y. Cong, Q. Luo, S. Roth, J. Liu, O. Gutfleisch, M. Pötschke, C. Hürrich, L. Schultz, Sequence of structural and magnetic transitions in Ni48Co2Mn39Sn11 shape memory alloy, J. Magn. Magn. Mat. 323 (2011) 2519-2523.
M.D. Kuz’min, K.P. Skokov, D.Yu. Karpenkov, J.D. Moore, M. Richter, O. Gutfleisch, Magnetic field dependence of the maximum adiabatic temperature change, Appl. Phys. Lett. 99 (2011) 012501_1-3.
J. Paillier, C. Rongeat, O. Gutfleisch, A. Gebert, Hydrogen and Zr-based Metallic Glasses: Gas/Solid Absorption Process and Structure Evolution, J. Alloys and Comp. 509 (2011) 1636-1643.
J. Lyubina, M.D. Kuz’min, K. Nenkov, O. Gutfleisch, M. Richter, D.L. Schlagel, T.A. Lograsso, K.A. Gschneidner, Jr., Magnetic field dependence of the maximum magnetic entropy change, Phys. Rev. B 83 (2011) 012403.
C. Rongeat, N. Scheerbaum, L. Schultz and O. Gutfleisch, Catalysis of H2 sorption in NaAlH4: general description and new insights, Acta Mat. 59 (2011) 1725-1733.
C. Rongeat, I. Lindemann, A. Borgschulte, L. Schultz and O. Gutfleisch, Formation and analysis of a solid solution Ca(BH4)2-xClx, Int. J. of Hydrogen Energy 36 (2011) 247-253.
O. Gutfleisch, J.P. Liu, M. Willard, E. Brück, C. Chen, S.G. Shankar, Magnetic Materials and Devices for the 21st Century: Stronger, Lighter, and More Energy Efficient (invited review), Advanced Materials 23 (2011) 821–842.
J. Ćwik, T. Palewski1, K. Nenkov, J. Lyubina, O. Gutfleisch, J. Klamut, Magnetic properties and magnetocaloric effect in Dy1-xScxNi2 solid solutions, J. of Alloys and Comp. 506 (2010) 626-630.
F. Jonsdottir, K.H. Gudmundsson, T.B. Dijkman, F. Thorsteinsson, O. Gutfleisch, Rheology of Perfluorinated Polyether-based MR Fluids with Nanoparticles, J. of Intelligent Material Systems and Structures 21 (2010) 1051-1060.
V. Khovaylo, K.P. Skokov, O. Gutfleisch, H. Miki, R. Kainuma, T. Kanomata, Reversibility and irreversibility of magnetocaloric effect in a metamagnetic shape memory alloy under cyclic action of a magnetic field, Appl. Phys. Lett. 97 (2010) 052503.
J. Thielsch, D. Hinz, L. Schultz, O. Gutfleisch, „Magnetization reversal in textured NdFeB–Fe composites observed by domain imaging“, J. Magn. Magn. Mat. 322 (2010) 3208-3213.
G. Hrkac, T. Woodcock, C. Freeman, A. V Goncharov, J.S. Dean, T. Schrefl, O. Gutfleisch, The role of local anisotropy profiles at grain boundaries on the coercivity of Nd2Fe14B magnets, Appl. Phys. Lett. 97 (2010) 232511.
V.V. Khovaylo, K.P. Skokov, H. Miki, T. Takagi, T. Kanomata, V.V. Koledov, V. G. Shavrov, O. Gutfleisch, G. Wang, E. Palacios, J. Bartolomé, and R. Burriel, Peculiarities of the magnetocaloric properties in Ni-Mn-Sn ferromagnetic shape memory alloy, Phys. Rev. B 81 (2010) 214406_1-6.
D. Pal and K. Mandal and O. Gutfleisch, Large negative magnetoresistance in nickel-rich Ni-Mn-Ga Heusler alloys, J. Appl. Phys. 107 (2010) 09B103_1-3.
J. Lyubina, R. Schäfer, N. Martin, L. Schultz and O. Gutfleisch, Novel design of La(Fe,Si)13 alloys towards high magnetic refrigeration performance, Adv. Mat. 22 (2010) 3735-3739.
I. Lindemann, R. Domènech Ferrer, L. Dunsch, Y. Filinchuk, H. Hagemann V. D'Anna, R. Černý, L. Schultz and O. Gutfleisch, Li4Al3(BH4)13: a complex double-cation borohydride with a new structure, Chem. Eur. J. 16 (2010) 8707-8712.
K. Morrison, J. Lyubina, J.D. Moore, A.D. Caplin, K.G. Sandeman, O. Gutfleisch, L.F. Cohen, Contributions to the Entropy Change in Melt-spun LaFe11.6Si1.4, J. Phys. D: Appl. Phys. 43 (2010) 132001_1-5.
J. Gao, P. Adelhelm, M.H.W. Verkuijlen, C. Rongeat, M. Herrich, P.J.M. van Bentum, O. Gutfleisch, A.P.M. Kentgens, K.P. de Jong, P.E. de Jongh, Confinement of NaAlH4 in nanoporous carbon: impact on H2 release, reversibility and thermodynamics, J. Phys. Chem. C 114 (2010) 4675-4682.
C. Rongeat, V. D’Anna, H. Hagemann, A. Borgschulte, A. Züttel, L. Schultz and O. Gutfleisch, Effect of additives on the synthesis and reversibility of Ca(BH4)2, J. Alloys and Comp. 493 (2010) 281-287.
J. Lyubina, O. Gutfleisch, M.D. Kuz’min, and M. Richter, “La(Fe,Si)13-based magnetic refrigerants obtained by novel processing routes”, J. Magn. Magn. Mat. 321 (2009) 3571-3577.
J. Liu, N. Scheerbaum, S. Weiß, O. Gutfleisch, Ni-Mn-In-Co single-crystalline particles for MSM composites, Appl. Phys. Lett. 95 (2009) 152503_1-3.
J. Liu, S. Aksoy, N. Scheerbaum, M. Acet, O. Gutfleisch, Large magnetostrain in polycrystalline Ni-Mn-In-Co, Appl. Phys. Lett. 95 (2009) 232515_1-3.
J. Liu, T.G. Woodcock, N. Scheerbaum, O. Gutfleisch, Influence of annealing on magnetic field induced structure transformation and magnetocaloric effect in Ni-Mn-In-Co ribbons, Acta Mat. 59 (2009) 4911-4920.
J. Ćwik, T. Palewski, K. Nenkov, J. Lyubina, J. Warchulska, J. Klamut, O. Gutfleisch, Magnetic properties and specific heat of Dy1-xLaxNi2 compounds, J. Magn. Magn. Mat. 321 (2009) 2821-2826.
M.D. Riktor, S. Deledda, M. Herrich, O. Gutfleisch, H. Fjellvåg, B.C. Hauback, Hydride formation in ball-milled and cryomilled Mg–Fe powder mixtures, Materials Science and Engineering: B 158 (2009) 19-25.
P. Kumar, J. Lyubina, O. Gutfleisch, Magnetic and magnetocaloric effect in melt spun La1−xRxFe13−yAlyCz (R=Pr and Nd) compounds, J. Phys.: Appl. Phys. D 42 (2009) 205003_1-6.
C. Rongeat, I. Llamas-Jansa, S. Oswald, L. Schultz, O. Gutfleisch, New insights into the mechano-chemical synthesis and the doping mechanism of sodium alanate, Acta Mat. 57 (2009) 5563-5570.
R. Gopalan, K. Hono, A. Yan, O. Gutfleisch, Direct evidence on Cu-concentration variation and its correlation to coercivity in Sm(Co0.74Fe0.1Cu0.12Zr.04)7.4 ribbons, Scripta Mat. 60 (2009) 764-767.
T.G. Woodcock, K. Khlopkov, A. Walter, N.M. Dempsey, D. Givord, L. Schultz, O. Gutfleisch, Interaction Domains in High Performance NdFeB Thick Films for Application in Micro-Electro-Mechanical Systems (MEMS), Scripta Mat. 60 (2009) 826-829.
K. Mandal, D. Pal, N. Scheerbaum, J. Lyubina, O. Gutfleisch, Effect of Pressure on the Magnetocaloric Properties of Nickel-Rich Ni-Mn-Ga Heusler Alloys, J. Appl. Phys. 105 (2009) 073509_1-6.
J. Lyubina, O. Isnard, O. Gutfleisch, Phase transformations and magnetic structure of nanocrystalline Fe-Pd and Co-Pt alloys studied by in-situ neutron powder diffraction, J. Appl. Phys. 105 (2009) 07A717.
P. Kumar, K.G. Suresh, A.K. Nigam, O. Gutfleisch, “Large reversible magnetocaloric effect in RNi compounds”, J. Phys.: Appl. Phys. D 41 (2008) 245006_1-5.
S. Rivoirard, J. Lyubina, E. Beaugnon, O. Gutfleisch, „Magnetic field effect on the hydrogen desorption and recombination reaction in disproportionated Sm-Co-type alloys”, Appl. Phys. Lett. 93 (2008) 172509_1-3.
J. Liu, N. Scheerbaum, J. Lyubina, O. Gutfleisch, „Reversibility of magnetostructural transition and associated magnetocaloric effect in Ni–Mn–In–Co”, Appl. Phys. Lett. 93 (2008) 102512_1-3.
K. Mandal, D. Pal, N. Scheerbaum, J. Lyubina, O. Gutfleisch, “Magnetocaloric Effect in Ni-Mn-Ga Alloys”, IEEE Trans. Magn. 44 (2008) 2993-2996.
J. Liu, N. Scheerbaum, D. Hinz, O. Gutfleisch, „A high-temperature coupling of martensitic and magnetic transformations and magnetic entropy change in Ni-Fe-Ga-Co alloys”, Scripta Mat. 59 (2008) 1063-1066.
J. Liu, N. Scheerbaum, D. Hinz, O. Gutfleisch, „Comparative Study of Structural and Magnetic Properties of Bulk and Powder Ni52Fe17Ga27Co4 Magnetic Shape Memory Alloy“, IEEE Trans. Magn. 44 (2008) 3025-3027.
J. Lyubina, K. Nenkov, L. Schultz, O. Gutfleisch, “Multiple metamagnetic transitions in a magnetic refrigerant La(Fe,Si)13Hx”, Phys. Rev Lett. 101 (2008) 177203_1-4.
N. Scheerbaum, O. Heczko, J. Liu, D. Hinz, L. Schultz, O. Gutfleisch, “Magnetic field induced twin boundary motion in polycrystalline Ni-Mn-Ga fibers”, New Journal of Physics 10 (2008) 073002_1-8.
J. Liu, N. Scheerbaum, D. Hinz, O. Gutfleisch, „Magnetostructural transformation in Ni-Mn-In-Co ribbons“, Appl. Phys. Lett. 92 (2008) 162509_1-3.
I. Llamas-Jansa, C. Rongeat, S. Doppiu, O. Gutfleisch, L. Schultz, “Characterisation of complex hydrides synthesised or modified by ball milling”, Int. J. Mat. Res. 99 (2008) 5_1-4.
J. Liu, N. Scheerbaum, D. Hinz, O. Gutfleisch, “Martensitic transformation and magnetic properties in Ni-Fe-Ga-Co magnetic shape memory alloys”, Acta Mat. 56 (2008) 3177-3186.
J. Lyubina, O. Gutfleisch, M.D. Kuz’min, and M. Richter, “La(Fe,Si)13-based magnetic refrigerants obtained by novel processing routes”, J. Magn. Magn. Mat. 320 (2008) 2252-2258.
L. Manosa, X. Moya, A. Planes, O. Gutfleisch, J. Lyubina, M. Barrio, J.-L. Tamarit, S. Aksoy, T. Krenke, M. Acet, “Effects of hydrostatic pressure on the magnetism and martensitic transition of Ni-Mn-In magnetic superelastic alloys”, Appl. Phys. Lett. 92 (2008) 012515_1-3.
A. Walter, N.M. Dempsey, D. Givord, K. Khlopkov, and O. Gutfleisch, “Structural, magnetic and mechanical properties of 5 µm thick SmCo films suitable for use in Micro-Electro-Mechanical-Systems”, J. Appl. Phys. 103 (2008) 043911_1-5.
M.D. Kuz´min, Y. Skourski, K.P. Skokov, K.-H. Müller and O. Gutfleisch, “Determining anisotropy constants from a first-order magnetization process in Tb2Fe17”, Phys. Rev. B 77 (2008) 132411_1-4.
A. Yan, K.-H. Müller and O. Gutfleisch, “Magnetocaloric effect in the LaFe11.8-xCoxSi1.2 melt-spun ribbons”, J. Alloys Comp. 450 (2008) 18-21.
C. Rongeat, I. Llamas-Jansa, S. Doppiu, S. Deledda, A. Borgschulte, L. Schultz and O. Gutfleisch, “Determination of the heat of hydride formation/decomposition by high-pressure differential scanning calorimetry (HP-DSC)”, J. Phys. Chemistry. B 111 (2007) 13301-13306.
Y.W. Lai, N. Scheerbaum, D. Hinz, O. Gutfleisch, R. Schäfer, L. Schultz and J. McCord “Absence of magnetic domain wall motion during magnetic field induced twin boundary motion in bulk magnetic shape memory alloys", Appl. Phys. Lett. 90 (2007) 192505_1-3.
K. Mandal, D. Pal, O. Gutfleisch, P. Kerschl, A. Handstein and K.–H. Müller, “Magnetocaloric Effect in Reactive-milled LaFe11.57Si1.43Hy Intermetallic Compounds”, J. Appl. Phys. 102 (2007) 053906_1-5.
M. Dornheim, S. Doppiu, G. Barkhordarian, U. Bösenberg, T. Klassen, O. Gutfleisch, R. Bormann, “Hydrogen Storage in Magnesium-Based Hydrides and Hydride Composites”, Scripta Mat. 56 (2007) 841-846.
N.M. Dempsey, A. Walther, F. May, D. Givord, K. Khlopkov and O. Gutfleisch, “High performance hard magnetic NdFeB thick films for integration into MEMS”, Appl. Phys. Lett. 90 (2007) 092509_1-3.
U. Bösenberg, S. Doppiu, L. Mosegaard, A. Borgschulte, N. Eigen, G. Barkhordarian, T.R. Jensen, Y. Cerenius, O. Gutfleisch, T. Klassen, M. Dornheim, R. Bormann, “Hydrogen sorption properties of MgH2-2LiBH4 Composites”, Acta Mat. 55 (2007) 3951-3958.
K. Khlopkov, O. Gutfleisch, D. Hinz, K.-H. Müller and L. Schultz, “Evolution of interaction domains with texture in Nd2Fe14B studied with magnetic force microscopy”, J. Appl. Phys. 102 (2007) 023912_1-10.
N. Scheerbaum, D. Hinz, O. Gutfleisch, W. Skrotzki and L. Schultz “Compression-induced Texture Change in NiMnGa-Polymer-Composites observed by Synchrotron Radiation”, J. Appl. Phys. 101 (2007) 09C501_1-3.
N. Scheerbaum, D. Hinz, O. Gutfleisch, K.-H. Müller and L. Schultz “Textured polymer bonded composites with Ni-Mn-Ga magnetic shape memory particles”, Acta. Mat. 55 (2007) 2707-2713.
A. Walter, K. Khlopkov, O. Gutfleisch, D. Givord and N.M. Dempsey, “Evolution of magnetic and microstructural properties of thick sputtered NdFeB films with processing temperature”, J. Magn. Magn. Mat. 316 (2007) 174-176.
D. Hinz, N. Scheerbaum, O. Gutfleisch, K.-H. Müller and L. Schultz “Polyester bonded textured composites with single crystalline shape memory Ni-Mn-Ga particles”, J. Magn. Magn. Mat. 310 (2007) 2785-2787.
S. Doppiu, L. Schultz, O. Gutfleisch, „In-situ pressure and temperature monitoring during the conversion of Mg into MgH2 by high-pressure reactive milling“, J. Alloys Comp. 427 (2007) 204-208.
P. Kerschl, A. Handstein, K. Khlopkov, O. Gutfleisch, R. Grössinger, K.-H. Müller, L. Schultz, “Relation between high-field magnetization and microstructure in bulk SmCo2.5Cu2.5”, IEEE Trans. Magn. 42 (2006) 2903-2905.
J. Lyubina, I. Opahle, M. Richter, O. Gutfleisch, K.-H. Müller, L. Schultz, O. Isnard, “Influence of composition and order on the magnetism of Fe-Pt alloys: neutron powder diffraction and theory”, Appl. Phys. Lett. 89 (2006) 032506_1-3.
J. Lyubina, O. Isnard, K.-H. Müller, O. Gutfleisch, L. Schultz, “Ordering of nanocrystalline Fe-Pt alloys studied by in-situ neutron powder diffraction”, J. Appl. Phys. 100 (2006) 094308_1-9.
N. Pankratov Yu, S.A. Nikitin, W. Iwasieczko, H. Drulis, K.P. Skokov, Yu.G. Pastushenkov, N. Harutjunjan, J. Lyubina, O. Gutfleisch, A. Handstein, K.-H. Müller, ”Spin-reorientation transitions in Nd2(Fe,Co)14B compounds and their hydrides”, J. Magn. Magn. Mat. 300 (2006) e465-e468.
A. Yan, K. H. Müller, L. Schultz and O. Gutfleisch, “Magnetic entropy changes melt-spun MnFePGe”, J. Appl. Phys. 99 (2006) 08K903_1-4.
J. Lyubina, K. Khlopkov, O. Gutfleisch, K.-H. Müller, L. Schultz, “Intergrain interactions in exchange-coupled nanocomposite FePt powders”, J. Appl. Phys. 99 (2006) 08E903_1-3.
M. Rada, A. Gebert, I. Mazilu, K. Khlopkov, O. Gutfleisch, L. Schultz, W. Rodewald, „Corrosion studies on highly textured Nd–Fe–B sintered magnets“, J. Alloys Comp. 415 (2006) 111-120.
O. Gutfleisch, K.-H. Müller, K. Khlopkov, M. Wolf, A. Yan, R. Schäfer, T. Gemming, L. Schultz, „Evolution of magnetic domain structures and coercivity in high-performance SmCo 2:17 type permanent magnets“, Acta Mat. 54 (2006) 997-1008.
N.Yu. Pankratov, S.A. Nikitin, W. Iwasieczko, H. Drulis, K. Nenkov, K.P. Skokov, O. Gutfleisch, A. Handstein, K.-H. Müller, ”Effect of hydrogen insertion on magnetic properties of Er(Fe,Co)11Ti single crystals”, J. Alloys Comp. 404-406 (2005) 181-184.
W. Sprengel, S. Herth, V. Barbe, H.-E. Schaefer, T. Wejrzanowski, O. Gutfleisch, R. Würschum, “Grain boundary diffusion of 147Nd in nanocrystalline Nd2Fe14B”, J. Appl. Phys. 98 (2005) 074314_1-5.
L. Schultz, K. Dörr, A. Kirchner, K.-H. Müller and O. Gutfleisch, Foreword-JEMS´04, J. of Magn. and Magn. Mat. 290-291, part 1 (2005), xi-xii.
J. Lyubina, I. Opahle, K.-H. Müller, O. Gutfleisch, M. Richter, M. Wolf, L. Schultz, “Magnetocrystalline anisotropy in L10 FePt and exchange coupling in FePt/Fe3Pt nanocomposites”, J. of Phys.: Condensed Matter 17 (2005) 4157-4170.
P. Kerschl, A. Handstein, K. Khlopkov, O. Gutfleisch, D. Eckert, K. Nenkov, J.-C. Téllez-Blanco, R. Grössinger, K.-H. Müller and L. Schultz, „High-field magnetisation of SmCo5−xCux (x≈2.5) determined in pulse fields up to 48 T“, J. Magn. Magn. Mat. 290-291, part 1 (2005) 420-423.
O. Gutfleisch, J. Lyubina, K.-H. Müller and L. Schultz, “FePt hard magnets”, Adv. Eng. Mater. 7 (No.4), (2005) 208-212.
O. Gutfleisch, A. Yan and K.-H. Müller, “Large magnetocaloric effect in melt-spun LaFe13-xSix”, J. Appl. Phys. 97 (2005) 10M305_1-3.
A. Yan, A. Handstein, T. Gemming, K.-H. Müller and O. Gutfleisch, „Coercivity mechanism of 2:17-type SmCo-based magnets prepared by melt-spinning“, J. Magn. Magn. Mat. 290-291, part 2 (2005), pp. 1206-1209.
M. Rada, J. Lyubina, A. Gebert, O. Gutfleisch, L. Schultz, “Corrosion behaviour of NdFeB/-Fe nanocomposite magnets”, J. Magn. Magn. Mat. 290-291, part 2 (2005) 1251-1254.
Y. Honkura, C. Mishima, N. Hamada, O. Gutfleisch, “Texture Memory Effect of Nd-Fe-B during Hydrogen Treatment”, J. Magn. Magn. Mat. 290-291, part 2 (2005) 1282-1285.
J. Lyubina, O. Gutfleisch, K.-H. Müller, L. Schultz, “Structure and hysteresis properties of nanocrystalline FePt powders”, J. Magn. Magn. Mat. 290-291, part 1 (2005) 547-550.
K. Mandal, O. Gutfleisch, A. Yan, A. Handstein, K.-H. Müller, “Effect of reactive milling in hydrogen on the magnetic and magnetocaloric properties of LaFe11.57Si1.43”, J. Magn. Magn. Mat., 290-291, part 1 (2005) 673-675.
S. Kardelky, A. Gebert, O. Gutfleisch, V. Hoffmann and L. Schultz, “Prediction of the oxidation behaviour of Sm-Co-based magnets”, J. Magn. Magn. Mat. 290-291, part 2 (2005) 1226-1229.
J. Lyubina, O. Gutfleisch, R. Skomski, K.-H. Müller, L. Schultz, „Phase transformations and thermodynamic properties of nanocrystaline FePt powders“, Scripta Mat. 53 (2005) 469-474.
O. Gutfleisch, S. Dal Toè, M. Herrich, A. Handstein, A. Pratt, “Hydrogen sorption properties of Mg-1wt%Ni-0.2wt%Pd prepared by reactive milling”, J. Alloys Comp. 404-406 (2005) 413-416.
A. Gebert, M. Rada, A. Kirchner, J. Lyubina, O. Gutfleisch, L. Schultz, „Corrosion behavior of NdFeB-based nanocrystalline permanent magnets“, J. Metastable and Nanocrystalline Materials 24-25 (2005) 631-634.
R. Schäfer, S. Fähler, A. Gebert, O. Gutfleisch, B. Holzapfel, K.-H. Müller, V. Neu, L. Schultz, „Nanostructured magnetic materials: Research activities at IFW-Dresden“, Zeitschrift für Metallkunde, accepted.
A. Yan, K.-H. Müller and O. Gutfleisch, „Structure and magnetic entropy change of melt-spun LaFe11.57Si1.43 ribbons“, J. Appl. Phys. 97 (2005) 036102_1-3.
K. Mandal, A. Yan, P. Kerschl, A. Handstein, O. Gutfleisch, K.-H. Müller, “The study of magnetocaloric effect in R2Fe17 (R=Y, Pr) alloys“, J. Phys. D: Appl. Phys. 37 (2004) 2628-2631.
S. Herth, F. Ye, M. Eggersmann, H. Rösner, O. Gutfleisch, R. Würschum, ”Self-diffusion behaviour and microstructure of ultrafine grained Nd2Fe14B with intergranular melting transition“, Zeitschrift für Metallkunde 95 (2004) 895-903.
A. Yan, A. Bollero, O. Gutfleisch, K.-H. Müller, L. Schultz, “Melt-spun precipitation hardened Sm(Co,Fe,Cu,Zr)z magnets”, Materials Science and Engineering A375-377 (2004) 1169-1172.
S. Herth, F. Ye, M. Eggersmann, O. Gutfleisch, R. Würschum, ”Self-diffusion in liquid interfaces“, Physical Review Letters 92 (2004) 095901_1-4.
A. Yan, A. Handstein, P. Kerschl, K. Nenkov, K.-H. Müller and O. Gutfleisch, „Effect of composition and cooling rate on the structure and magnetic entropy change in Gd5SixGe4-x“, J. Appl. Phys. 95 (2004) 7064-7066.
J. Lyubina, O. Gutfleisch, N.M. Dempsey, K.-H. Müller, L. Schultz, “Nanocrystalline hard magnetic FePt powders”, J. Appl. Phys. 95 (2004) 7474-7476.
S. Kardelky, A. Gebert, O. Gutfleisch, A. Handstein, U. Wyss, L. Schultz, „Corrosion behavior of Sm-Co based permanent magnets in oxidizing environments“, IEEE Trans. on Magn. 40 (2004) 2931-2933.
M. Rada, S. Kardelky, I. Mazilu, A. Gebert, A. Kirchner, O. Gutfleisch, L. Schultz, „Corrosion behavior of polymer-bonded NdFeB-based nanocrystalline magnets“, IEEE Trans. on Magn. 40 (2004) 2864-2866.
D. Lebiedz, H. Züchner and O. Gutfleisch, „Hydrogen-induced effects in alloys of type Nd2(Fe/Co)14B studied by X-ray photoelectron spectroscopy“, Chemistry of Materials 16 (2004) 3098-3105.
D. Hinz, J. Lyubina, G. Fuchs, D.N. Brown, B.M. Ma, O. Gutfleisch, K.-H. Müller, „Hot deformed (Nd,Pr)(Fe,Co)B magnets for low temperature applications“, J. Magn. Magn. Mat. 272-276 (2004) e321-e322.
O. Gutfleisch, N.M. Dempsey, A. Yan, K.-H. Müller and D. Givord, „Coercivity analysis of melt-spun Sm2(Co,Fe,Cu,Zr)17“, J. Magn. Magn. Mat. 272-276 (2004) 647-649.
M. Herrich, N. Ismail, J. Lyubina, A. Handstein, A. Pratt, O. Gutfleisch, „Synthesis and decomposition of Mg2FeH6 prepared by reactive milling”, Material Science and Engineering B 108 (2004) 28-32.
K. Khlopkov, O. Gutfleisch, R. Schäfer, D. Hinz, K.-H. Müller and L. Schultz, „Interaction domains in die-upset NdFeB magnets in dependence on the degree of deformation“, J. Magn. Magn. Mat. 272-276 (2004) e1937-e1939.
K. Khlopkov, O. Gutfleisch, D. Eckert, D. Hinz, B. Wall, W. Rodewald, K.-H. Müller, L. Schultz, „Local texture in Nd-Fe-B sintered magnets with maximised energy density“, J. Alloys Comp. 365 (2004) 259-265.
A. Kirchner, J. Thomas, O. Gutfleisch, D. Hinz, K.-H. Müller, L. Schultz, „HRTEM studies of grain boundaries in die-upset Nd-Fe-Co-Ga-B magnets“, J. Alloys Comp. 365 (2004) 286-290.
A. Yan, O. Gutfleisch, T. Gemming, K.-H. Müller, „Microchemistry and magnetization reversal mechanism in melt-spun 2:17-type Sm-Co magnets“, Appl. Phys. Lett. 83 (2003) 2208-2210.
O. Gutfleisch, „Peg legs and bionic limbs: the development of lower extremity prosthetics”, Interdisciplinary Science Reviews 28 (2003) 139-148.
D. Lebiedz, H. Züchner and O. Gutfleisch, „A secondary ion mass spectroscopy study of hydrogen interaction with Nd2(Fe/Co)14B“, J. Alloys Comp. 356-357 (2003) 679-682.
A. Handstein, A. Yan, G. Martinek, O. Gutfleisch, K.H. Müller and L. Schultz, “Stability of magnetic properties of Sm2Co17-type magnets at operating temperatures larger than 400ºC”, IEEE Trans. Magn. 39 (2003) 2923-2925.
A. Bollero, A. Yan, O. Gutfleisch, K.H. Müller, and L. Schultz, “Intergrain interactions in nanocrystalline isotropic PrFeB-based magnets”, IEEE Trans. Magn. 39 (2003) 2944-2946.
O. Gutfleisch, K. Khlopkov, A. Teresiak, K.H. Müller, G. Drazic, C. Mishima and Y. Honkura, “Memory of texture during HDDR processing of NdFeB”, (invited) IEEE Trans. Magn. 39 (2003) 2926-2931.
N. Mattern, M. Zinkevitch, A. Handstein, W. Gruner, S. Roth and O. Gutfleisch, „Influence of Zr addition on phase formation and magnetic properties of the Fe17Gd2 phase ”, J. Alloys Comp. 358 (2003) 1-6.
D. Hinz, A. Kirchner, D.N. Brown, B.-M. Ma and O. Gutfleisch, „Near net shape production of radially oriented NdFeB ring magnets by backward extrusion”, J. Mater. Process. Techn. 135 (2003) 358-365.
A. Yan, O. Gutfleisch, T. Gemming and K.H. Müller, „Microstructure, microchemistry and magnetic properties of melt-spun Sm(Co,Fe,Cu,Zr)z magnets”, J. Appl. Phys. 93 (2003) 7975-7977.
O. Gutfleisch, N. Schlorke-deBoer, A.S. Pratt, A. Walton, J. Speight, I.R. Harris, A. Züttel, “Hydrogenation properties of nanocrystalline Mg- and Mg2Ni-based compounds modified with platinum group metals (PGMs)”, J. Alloys Comp. 356-357 (2003) 598-602.
V.N. Narozhnyi, G. Fuchs, A. Handstein, A. Gümbel, J. Eckert, K. Nenkov, D. Hinz, O. Gutfleisch, A. Waelte, L.N. Bocharova, I.E. Kostyleva, K.H. Müller, L. Schultz, „Comparitive study of dense bulk MgB2 materials prepared by different methods“, J. of Superconductivity: Incorporating Novel Magnetism 15 (2002) 599-601.
F.D. Saccone, C.E. Rodriguez Torres, F.H. Sanchez and O. Gutfleisch, “Observation of hydrogen induced intermediate borides in PrFeB based alloys by Mössbauer effect spectroscopy”, Physica B 320 (2002) 312-315.
A. Gebert, A.A. El-Moneim and O. Gutfleisch, „Corrosion behaviour of textured and isotropic nanocrystalline NdFeB-based magnets“, IEEE Trans. Magn. 38 (2002) 2979-2981.
A. Yan, K.H. Müller and O. Gutfleisch, „Highly coercive melt-spun Sm(Co, Fe, Cu, Zr)z magnets prepared by simple processing“, IEEE Trans. Magn. 38 (2002) 2937-2939.
O. Gutfleisch, G. Drazic, C. Mishima and Y. Honkura, „Texture inducement during HDDR processing of NdFeB“, IEEE Trans. on Magn. 38 (2002) 2958-2960.
A. Teresiak, O. Gutfleisch, N. Mattern, B. Gebel and. K.H. Müller „Phase formation and crystal structure of Sm2Fe17-yGay compounds during hydrogenation disproportionation desorption and recombination (HDDR process)”, J. Alloys Comp. 346 (2002) 235-243.
D. Hinz, A. Handstein, G. Fuchs, K.H. Müller, K. Nenkov, O. Gutfleisch, V.N. Narozhnyi, L. Schultz, „Observation of texture for fully dense MgB2 superconductor processed by hot deformation“, Physica C 372-376 (2002) 1248-1250.
A. Yan, A. Bollero, K.H. Müller and O. Gutfleisch, „Microstructure and magnetization reversal of two-phase exchange-coupled SmCo5/Sm2(Co,M)17 (M=Fe, Zr, Cu) nanocomposites“, J. Phys. D: Appl. Phys. 35 (2002) 835-838.
M. Ritschel, M. Uhlemann, O. Gutfleisch, A. Leonhardt, A. Graff, Ch. Täschner and J. Fink, „Hydrogen storage in different carbon nanostructures“, Appl. Phys. Lett. 80 (2002) 2985-2987.
A. Yan, A. Bollero, K.H. Müller and O. Gutfleisch, „Fast development of coercivity in melt-spun Sm(Co, Fe, Cu, Zr)z magnets “, Appl. Phys. Lett. 80 (2002) 1243-1245.
A.A. El-Moneim, O. Gutfleisch and A. Gebert, „The corrosion behaviour of die-upset and hot pressed nanocrystalline NdFeB-based magnets“,. J. Magn. Magn. Mat. 248 (2002) 121-133.
M. Zinkevitch, N. Mattern, A. Handstein and O. Gutfleisch, „Thermodynamics of Fe-Sm, Fe-H and H-Sm systems and its application to the hydrogenation disproportionation desorption and recombination (HDDR) process for the system Sm2Fe17-H2 ”, J. Alloys Comp. 339 (2002) 118-139.
O. Gutfleisch, A Bollero, A. Handstein, D. Hinz, A. Kirchner, A. Yan, K.H. Müller, L. Schultz, „Nanocrystalline high performance magnets” (Invited), J. Magn. Magn. Mat. 242-245 (2002) 1277-1283.
D. Schobinger, O. Gutfleisch, D. Hinz, K.H. Müller, L. Schultz and G. Martinek, „High temperature magnetic properties of 2:17 Sm-Co magnets”, J. Magn. Magn. Mat. 242-245 (2002) 1347-1349.
A. Bollero, O. Gutfleisch, G. Drazic, K.H. Müller and L. Schultz, „High performance nanocrystalline PrFeB-based magnets produced by intensive milling”, J. Appl. Phys. 91 (2002) 8159-8161.
A. Yan, A. Bollero, K.H. Müller and O. Gutfleisch, „Influence of Fe, Zr and Cu on microstructure and crystallographic texture of melt-spun 2:17 SmCo ribbons”, J. Appl. Phys. 91 (2002) 8825-8827.
A. Yan, A. Bollero, O. Gutfleisch and K.H. Müller, „Microstructure and magnetization reversal in nanocomposite SmCo5/Sm2Co17 magnets”, J. Appl. Phys. 91 (2002) 2192-2196.
A.A. El-Moneim, A. Gebert, M. Uhlemann, O. Gutfleisch and L. Schultz, „The influence of Co and Ga additions on the corrosion behavior of nanocrystalline NdFeB magnets“, Corrosion Science 44 (2002) 1857-1874.
A.A. El-Moneim, A. Gebert, F. Schneider, O. Gutfleisch and L. Schultz, „Grain growth effect on the corrosion behavior of nanocrystalline NdFeB magnets“, Corrosion Science 44 (2002) 1097-1112.
M. Eggersmann, F. Ye, S. Herth, O. Gutfleisch, R. Würschum, „Study of intergranular melting of nanocrystalline Fe14Nd2B by means of radiotracer diffusion”, Interface Science 9 (2001) 337-341.
P.J. McGuiness, S. Kobe, I. Skulj, A. Bollero, O. Gutfleisch, E. J. Devlin and D. Niarchos, „Coercivity variations with Pr- and Zr-substituted NdDyFeB-based HDDR powders“, J. Magn. Magn. Mat. 237 (2001) 267-275.
A. Handstein, D. Hinz, G. Fuchs, K.-H. Müller, K. Nenkov, O. Gutfleisch, V.N. Narozhnyi, L. Schultz, „Fully dense MgB2 superconductor textured by hot deformation“, J. Alloys Comp. 329 (2001) 285-289.
F.D. Saccone, F.H. Sanchez, C. Rodriguez, B. Gebel and O. Gutfleisch, “Determination of the fraction of t-Fe3B in hydrogen disproportionated Nd-Fe-B materials by Mössbauer effect spectroscopy”, J. Magn. Magn. Mat. 226 (2001) 1461-1463.
A. Bollero, A. Kirchner, O. Gutfleisch, K.-H. Müller and L. Schultz, “Highly coercive (Pr,Nd)FeB-type magnet powders produced by intensive milling and melt-spinning and their hot workability”, IEEE Trans. Magn. 37 (2001) 2483-2485.
O. Gutfleisch, A. Teresiak, B. Gebel, K.-H. Müller, N.B. Cannesan, D.N. Brown and I.R. Harris, “Metastable borides and the inducement of texture in Pr2Fe14B-type magnets produced by HDDR”, IEEE Trans. Magn. 37 (2001) 2471-2473.
Y. Yang, A. Handstein, A. Kirchner, O. Gutfleisch, and K.-H. Müller, “Magnetic properties of melt-spun (Nd,Dy)2-Fe14-(C,B)”, J. Alloys Comp. 316 (2001) 290-295.
Y. Yang, A. Kirchner O. Gutfleisch, A. Handstein, D. Eckert and K.-H. Müller, “Hard magnetic properties of melt-spun R-Fe carbides”, J. Magn. Magn. Mat. 231 (2001) L4-L8.
A. Bollero, B. Gebel, O. Gutfleisch, K.-H. Müller, L. Schultz, P.J. McGuiness, G. Drazic, S. Kobe, “NdDyFeBZr high-coercivity powders prepared by intensive milling and the HDDR process”, J. Alloys Comp. 315 (2001) 243-250.
O. Gutfleisch and A. Handstein, “Neue dauermagnetische Materialien”, Wissenschaftliche Zeitschrift Techn. Univers. Dresden 49 (2000) Heft 1, 33-36, Germany.
M. Kubis, A. Handstein, B. Gebel, O. Gutfleisch, K.-H. Müller and L. Schultz, “Hydrogen-induced amorphisation of SmFe3”, J. Metastable and Nanocrystalline Materials 8 (part 2) (2000) 557-561.
O. Gutfleisch, A. Bollero, M. Kubis, K.-H. Müller and L. Schultz, “Hydrogen disproportionation by reactive milling and recombination of Nd2Fe14B and Nd2Co14B alloys”, J. Metastable and Nanocrystalline Materials 8 (2000) part 1, 405-410.
A.M. El-Aziz, A. Kirchner, O. Gutfleisch, A. Gebert and L. Schultz, “Investigations of the corrosion behaviour of nanocrystalline Nd-Fe-B hot pressed magnets”, J. Alloys Comp. 311 (2000) 299-304.
A. Kirchner, D. Hinz, V. Panchanathan, O. Gutfleisch, K.-H. Müller and L. Schultz, “Improved hot workability and magnetic properties in NdFeCoGaB hot deformed magnets”, IEEE Trans. Magn. 36 (2000) 3288-3290.
M. Kubis, D. Brown, O. Gutfleisch, B. Gebel K.-H. Müller, L. Schultz and I.R. Harris, “Effect of small Zr additions on the microstructure of Sm2Fe17”, IEEE Trans. Magn. 36 (2000) 3303-3305.
O. Gutfleisch, “Controlling the properties of high density permanent magnetic materials” (Topical Review), J. Phys. D: Appl. Phys. 33 (2000) pp. R157-R172.
A. Bollero, O. Gutfleisch, M. Kubis, K.-H. Müller and L. Schultz, “Hydrogen disproportionation by reactive milling and recombination of Nd2(Fe,Co)14B alloys”, Acta Mat. 48 (2000) 4929-4934.
Y. Yang, O. Gutfleisch, A. Handstein, D. Eckert and K.-H. Müller, “High coercivity of Nd-Dy-Fe-(C,B) ribbons prepared by melt spinning”, Appl. Phys. Lett. 76 (2000) 3627-3629.
M. Kubis, A. Handstein, B. Gebel, O. Gutfleisch, K.-H. Müller and L. Schultz, “Thermodynamics of the (Sm2Fe17-xGax + H2)-system”, J. Alloys Comp. 308 (2000) 275-279.
K.-H. Müller, M. Kubis, A. Handstein, B. Gebel, O. Gutfleisch, “Solid-state amorphisation of SmFe3 by hydrogenation”, Scripta Mat. 42 (2000) 1013-1016.
J. Jakubowicz, M. Jurczyk, A. Handstein, D. Hinz, O. Gutfleisch and K.-H. Müller, “Temperature dependence of magnetic properties for nanocrystalline Nd2(Fe,Co,M)14B/-Fe magnets”, J. Magn. Magn. Mat. 208 (2000) 163-168.
O. Gutfleisch, B. Gebel and N. Mattern, “Texture in a ternary Nd16.2Fe78.2B5.6 powder using a modified hydrogenation-disproportionation-desorption-recombination process”, J. Magn. Magn. Mat. 210 (2000) 5-9.
O. Gutfleisch, D. Eckert, R. Schäfer, V. Panchanathan and K.H. Müller, “Magnetization processes in two different types of anisotropic, fully dense NdFeB HDDR magnets”, J. Appl. Phys. 87 (2000) 6119-6121.
M. Jurczyk, J. Jakubowicz, A. Handstein, B. Gebel, O. Gutfleisch and K.-H. Müller, “Nd2(Fe,Co,M)14B-type magnet powders produced by the HDDR process”, J. Alloys Comp. 292 (1999) 296-300.
P. Thompson, O. Gutfleisch, J.N. Chapman and I.R. Harris, “A comparison of the micromagnetic and microstructural properties of four NdFeB-type materials processed by the HDDR route”, J. Magn. Magn. Mat. 202 (1999) 53-61.
P. Oleinek, A. Handstein, O. Gutfleisch, K.-H. Müller, L. Schultz and I.R. Harris, “High pressure gas-solid interstitial modification of Nd(Fe,M)12 (M=Ti,V,Mo) with H and N atoms”, IEEE Trans. Magn. 35 (1999) 3247-3249.
O. Gutfleisch, B. Gebel, M. Kubis, K.-H. Müller and L. Schultz, “Modified HDDR procedures applied to NdFeB Alloys”, IEEE Trans. Magn. 35 (1999) 3250-3252.
M. Kubis, A. Handstein, B. Gebel, O. Gutfleisch, K.-H. Müller and L. Schultz, “Highly coercive SmCo5 magnets prepared by a modified hydrogenation disproportionation desorption recombination process”, J. Appl. Phys. 85 (1999) 5666-5668.
A. Handstein, M. Kubis, O. Gutfleisch, B. Gebel and K.-H. Müller, “HDDR of Sm-Co alloys using high hydrogen pressures”, J. Magn. Magn. Mat. 192 (1999) 73-76.
M. Kubis, O. Gutfleisch, K.-H. Müller, I.R. Harris and L. Schultz, “Microstructure and HDDR processing of as-cast Sm10.5Fe88.5Zr1.0“, J. Magn. Magn. Mat. 196-197 (1999) 297-298.
V.A. Yartys, R.V. Denys, O. Gutfleisch, I.I. Bulyk, I.R. Harris and Yu.B. Kuz’ma, “Studies of hydrogen absorption-desorption properties and HDDR behaviour of a Nd5Co2B6 -boride”, Intl. J. Hydrogen Energy 24 (1999) 189-194.
M. Kubis, O. Gutfleisch, B. Gebel, K.-H. Müller, L. Schultz and I.R. Harris, “Influence of M = Al, Ga and Si on microstructure and HDDR-processing of Sm2(Fe,M)17 and magnetic properties of their nitrides and carbides”, J. Alloys Comp. 283 (1999) 296-303.
O. Gutfleisch, M. Kubis, A. Handstein, K.-H. Müller and L. Schultz, “Hydrogenation disproportionation desorption recombination in Sm-Co alloys by means of reactive milling”, Appl. Phys. Lett. 73 (1998) 3001-3003.
O. Gutfleisch, A. Kirchner, W. Grünberger, D. Hinz, H. Nagel, P. Thompson, J.N. Chapman, K.H. Müller, I.R. Harris and L. Schultz, “Textured NdFeB HDDR magnets produced by die-upsetting and backward extrusion”, J. Phys. D: Appl. Phys. 31 (1998) 807-811.
M. Kubis, O. Gutfleisch, K.H. Müller, L. Schultz and I.R. Harris, “Hydrogenation and Disproportionation of Sm2Fe17-xGax at high hydrogen pressures”, J. Appl. Phys. 83 (1998) 6905-6907.
O. Gutfleisch, A. Kirchner, W. Grünberger, D. Hinz, R. Schäfer, L. Schultz, I.R. Harris and K.H. Müller, “Backward extruded NdFeB HDDR ring magnets”, J. Magn. Magn. Mat. 183 (1998) 359-364.
P. Thompson, O. Gutfleisch, J.N. Chapman, I.R. Harris and W.A.P. Nicholson, “A magnetic and compositional study of the disproportionated state of the solid-HDDR process in Nd-Fe-B-type materials”, J. Alloys Comp. 281 (1998) 12-16.
P. Thompson, O. Gutfleisch, J.N. Chapman and I.R. Harris, “Domain studies in thin sections of HDDR processed Nd-Fe-B-type magnets by TEM”, J. Magn. Magn. Mat. 177-181 (1998) 978-979.
P. Thompson, O. Gutfleisch, J.N. Chapman and I.R. Harris, “The relation between the micromagnetic and microstructural properties of HDDR processed Nd-Fe-B-type materials”, J. Phys. D: Appl. Phys. 30 (1997) 1854-1860.
S. Sugimoto, O. Gutfleisch and I.R. Harris, “Resistivity measurements on HDDR phenomena in Nd-Fe-B alloys with Co, Ga, Zr additions”, J. Alloys Comp. 260 (1997) 284-291.
V.A. Yartys, O. Gutfleisch and I.R. Harris, ”Further studies of hydrogenation disproportionation desorption and recombination processes in a Nd5Fe2B6 boride“, J. Alloys Comp. 253-254 (1997) 134-139.
V.A. Yartys, O. Gutfleisch, V.V. Panasyuk and I.R. Harris, ”Desorption characteristics of rare earth (R) hydrides (R=Y, Ce, Pr, Nd, Sm, Gd and Tb) in relation to the HDDR behaviour of R-Fe-based-compounds", J. Alloys Comp. 253-254 (1997) 128-133.
C.L. Short, P. Guegan, O. Gutfleisch, O.M. Ragg and I.R. Harris, “HDDR processes in Nd16Fe76-xZrxB8 alloys and the production of anisotropic magnets”, IEEE Trans. Magn. 32 (1996) 4368-4370.
O. Gutfleisch and I.R. Harris, “Fundamental and Practical Aspects of the HDDR process”, J. Phys. D: Appl. Phys. 29 (1996) 2255-2265.
O. Gutfleisch, L. Ruiz de Angulo, P.J. McGuiness and I.R. Harris, “Solidification of Nd-rich grain boundary phase during HDDR-processing of Nd-Fe-B-type alloys”, Zeitschrift für Metallkunde 87 (1996) 963-966.
A.J. Williams, O. Gutfleisch and I.R. Harris, “S-HDDR induced cavitation in NdFeB”, J. of Alloys and Comp. 233 (1996) L22-L26.
O. Gutfleisch, J.C. Clarke, A.C. Neiva, S.A. Sinan and I.R. Harris, “HDDR-processes in Sm2Fe17-xNbx alloys”, J. of Alloys and Comp. 233 (1996) 216-224.
J.C. Clarke, O. Gutfleisch, S.A. Sinan and I.R. Harris, “Disproportionation in a Sm2Fe17 alloy characterised by high resolution scanning electron microscopy”, J. Alloys Comp. 232 (1996) L12-L15.
V.A. Yartys, O. Gutfleisch and I.R. Harris, “Hydrogen-induced phase and magnetic transformations in a Nd1+Fe4B4 boride”, J. Magn. Mag. Mat. 157/158 (1996) 119-120.
M. Matzinger, J. Fidler, O. Gutfleisch and I.R. Harris, “Detailed TEM analysis of solid-HDDR Nd16Fe76B8 materials”, IEEE Trans. Magn. 31 (1995) 3635-3637.
O. Gutfleisch, M. Matzinger, J. Fidler and I.R. Harris, “Characterisation of a solid-HDDR processed Nd16Fe76B8 alloy by means of electron microscopy”, J. of Magn. and Magn. Mat. 147 (1995) 320-330.
O. Gutfleisch and I.R. Harris, “In-situ electrical resistivity measurements: Study of magnetic and phase transition and solid-HDDR processes in Nd-Fe-B-type alloys”, J. of Materials Science 30 (1995) 1397-1404.
N. Martinez, D.G.R. Jones, O. Gutfleisch, D. Lavielle, D. Pere and I.R. Harris, “Evolution of recombination in a solid-HDDR processed Nd14Fe79B7 alloy”, J. Appl. Phys. 76 (1994) 6825-6827.
O. Gutfleisch, M. Verdier and I.R. Harris, “Kinetic studies on solid-HDDR-processes in Nd-Fe-B-type alloys”, J. Appl. Phys. 76 (1994) 6256-6258.
O. Gutfleisch, N. Martinez, M. Verdier and I.R. Harris, “Phase transformations during the disproportionation stage of the Solid-HDDR-process in a Nd16Fe76B8 alloy”, J. Alloys Comp. 215 (1994) 227-233.
O. Gutfleisch, N. Martinez, M. Verdier and I.R. Harris, “Development of microstructure of the disproportionated material during HDDR-process in a Nd16Fe76B8 alloy”, J. Alloys Comp. 204 (1994) L21-L23.
F.M. Ahmed, D.S. Edgley, O. Gutfleisch and I.R. Harris, “Homogenisation behaviour of Nd2(Fe0.98Nb0.02)14B alloy”, IEEE Trans. Magn. 30 (1994) 616-618.
O. Gutfleisch, C. Short, M. Verdier and I.R. Harris, “The effect of hydrogen pressure on the kinetics of the HDDR-process of bulk Nd-Fe-B-type alloys”, IEEE Trans. Magn. 30 (1994) 642-644.
O. Gutfleisch, M. Verdier and I.R. Harris, “Magnetic and phase transitions and HDDR-processes in NdFeB-type alloys by means of electrical resistivity measurements”, J. of Alloys and Comp. 196 (1993) L19-L21.
O. Gutfleisch, M. Verdier, A.E. Ray and I.R. Harris, “Characterisation of rare earth-transition metal alloys with resistivity measurements”, IEEE Trans. Magn. 29 (1993) 2872-2874.

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