Your search keyword '"Curro, N.J."' showing total 100 results

51. Temperature dependence of the spin susceptibility of layered cuprates in the pseudogap phase: Comparison with the knight shift data for the Cu(2) site in YBaCuO and BiSrCaCuO.

Author

Andreeva, E., Andreev, A., and Eremin, M.

Abstract

The temperature dependences of the Knight shift at the Cu(2) site in YBaCuO and BiSrCaCuO compounds were analyzed based on the band structure parameter extracted from photoemission data. Different scenarios for the pseudogap state are discussed, and the densities of states of quasiparticle excitations are calculated. [ABSTRACT FROM AUTHOR]

Published

2010

52. Electronic structures and mechanical properties of boron and boron-rich crystals (Part 2).

Author

Shirai, K.

Abstract

The second part of this review treats the phase diagram of boron, because of the importance of the material research. A comparison of the phase stabilities of related crystals has been made and deducing general trends among them has been attempted, from which the reader could get useful insights for future development of superhard materials. The mechanical properties of boron and boron-rich crystals are then discussed as the basis of superhard materials. This area is the primary source, from which many controversies arose regarding the strong intericosahedral bonding. Through working on many examples for deformation, consistent interpretations are given. [ABSTRACT FROM AUTHOR]

Published

2010

53. Electronic structures and mechanical properties of boron and boron-rich crystals (Part I).

Author

Shirai, K.

Abstract

Boron and boron-rich crystals are hard materials, which have unique properties compared with other hard materials, such as diamond. Various ways of the arrangement of icosahedra yield many complicated crystal polymorphs and their derivatives. Although the crystals are basically hard, these are internally flexible for the mechanical and chemical properties. This flexibility is a consequence of conspiracy between the soft part and the hard part of the structure. The soft part is conveyed by the icosahedral unit, and the hard part is by the bonds connecting icosahedra. This article attempts to provide a consistent description for the unique characters of boron and boron-rich solids from the electronic-structure calculations. Recent developments of the first-principles calculation provide significant contributions to our understanding of the unusual properties of this class of materials. In particular, a combination of high-pressure experiment is successful in providing convincing evidence for our understanding, while it gives rise to unforeseen developments, such as discovery of superconductivity. Throughout analyses of many properties of boron solids, care is repeated for the effects of special arrangement of atoms and atom relaxation for those of complicated structures, which otherwise would mislead our intuitive interpretations. Special emphasize is placed on the phase stability and phase transitions at high pressure, because of recent successive discoveries of novel hard materials, such as γ-orthorhombic boron and diamond-like BC5 compound. The first part of this review describes the ground state of boron and boron-rich crystals. The energy gap, native defects, and phonon properties are discussed. [ABSTRACT FROM AUTHOR]

Published

2010

54. Exploratory study of the new B-doped diamond heater at high pressure and temperature and its application to in situ XRD experiments on hydrous Mg-silicate melt.

Author

Yamada, Akihiro, Irifune, Tetsuo, Sumiya, Hitoshi, Higo, Yuji, Inoue, Toru, and Funakoshi, Ken-Ichi

Subjects

GRAPHITE, MATERIALS testing, HEAT resistant materials, HIGH temperatures, INDUSTRIAL chemistry, DIFFRACTION patterns

Abstract

We demonstrate the successful application of a new heating material, B-doped graphite (boron 10 wt%), to 23 GPa and 2000 °C. The heater resistance increases significantly at temperatures greater than 1200-1400 °C, similar to the diamond transition observed for a pure graphite heater. However, we find that the B-doped graphite furnace can be used at temperatures and pressures higher than that of diamond stability region, and that is stable for at least 3 h. Because this new furnace material is X-ray transparent and stable under high-pressure and high-temperature conditions, it is suitable for in situ X-ray synchrotron applications at high pressure and high temperature, including for structural refinement of hydrous silicate melt. High quality diffraction patterns of hydrous Mg-silicate melt were collected at 14.9 GPa using the B-doped diamond heater. Hence, B-doped graphite (diamond) is a promising heater material for high-pressure and high-temperature applications. [ABSTRACT FROM AUTHOR]

Published

2008

55. NMR Spin-Lattice Relaxation Rates in Cuprates.

Author

Meier, P.

Abstract

An analysis of nuclear spin-lattice relaxation data in the normal state of cuprates that appropriately accounts for the highly anisotropic structures shows no contrasting temperature dependence of the Cu, O, and Y relaxations, which suggests that all nuclei relax by the same mechanism of the spin liquid. To investigate the temperature dependence of this mechanism, the model of fluctuating fields is used in which the rates are expressed in terms of hyperfine interaction energies and an effective correlation time τ eff characterizing the dynamics of the spin fluid. The former contain the effects of the antiferromagnetic static spin correlations, which cause the hyperfine field constants to be added more coherently at low temperature but incoherently at high temperature. At low temperatures, τ eff grows linearly with temperature as in ordinary metals. At high temperatures, however, the nuclear spin-lattice relaxation rates in various cuprates unequivocally reflect local moment features. This behavior is similar to that observed for the magnetic transition metals Fe, Co, and Ni, where also some properties show a cross-over from an itinerant behavior of delocalized electrons at low to that of localized moments at high temperatures. [ABSTRACT FROM AUTHOR]

Published

2008

56. Interplay of magnetism, structure and superconductivity in heavy-fermion systems CeMIn5 and PuMGa5

Author

Thompson, J.D., Nicklas, M., Sidorov, V.A., Bauer, E.D., Movshovich, R., Curro, N.J., and Sarrao, J.L.

Subjects

*PARTICLES (Nuclear physics), *MATHEMATICAL physics, *ELECTRIC conductivity, *SUPERCONDUCTIVITY

Abstract

Abstract: Experiments that probe the normal and superconducting states of the heavy-fermion compounds CeMIn5, Mr, consistently point to the dependence of superconductivity on magnetism and, consequently, to the conclusion that soft magnetic excitations produce Cooper pairing. A more limited number of experiments on the isostructural superconductors PuMGa5, Mlso are consistent with a magnetic pairing mechanism, but in these cases, the relationship between magnetism and superconductivity is less obvious. A connection between the Ce- and Pu-based families of unconventional superconductors is provided through a common dependence of their superconducting transition temperatures on lattice anisotropy and a weak structural distortion that may reflect a hybridization-induced change in magnetic fluctuations. [Copyright &y& Elsevier]

Published

2006

57. Nuclear magnetic resonance study of strongly correlated superconductors.

Author

Asayama, K., Kitaoka, Y., Zheng, G., Ishida, K., Tokunaga, Y., Mukuda, H., and Ohno, T.

Abstract

This paper introduces nuclear magnetic resonance works in the strongly correlated super-conductors: heavy-Fermion, high- T C superconductors and Sr2RuO4. The analyses strongly support the spin-fluctuation-mediated superconductivity model in a high- T C superconductor. [ABSTRACT FROM AUTHOR]

Published

2000

58. Ultrananocrystalline Diamond Nanowires: Fabrication, Characterization, and Sensor Applications.

Author

Zhou, Andrew F., Wang, Xinpeng, Pacheco, Elluz, Feng, Peter X., and Vul, Alexander

Subjects

NANOWIRES, SEMICONDUCTOR nanowires, DETECTORS, DIAMONDS, PIEZORESISTANCE, CORE competencies

Abstract

The aim of this review is to provide a survey of the recent advances and the main remaining challenges related to the ultrananocrystalline diamond (UNCD) nanowires and other nanostructures which exhibit excellent capability as the core components for many diverse novel sensing devices, due to the unique material properties and geometry advantages. The boron or nitrogen doping introduced in the gas phase during deposition promotes p-type or n-type conductivity. With the establishment of the UNCD nanofabrication techniques, more and more nanostructure-based devices are being explored in measuring basic physical and chemical parameters via classic and quantum methods, as exemplified by gas sensors, ultraviolet photodetectors, piezoresistance effect-based devices, biological applications and biosensors, and nitrogen-vacancy color center-based magnetic field quantum sensors. Highlighted finally are some of the remaining challenges and the future outlook in this area. [ABSTRACT FROM AUTHOR]

Published

2021

59. Superconductivity in β-Tin Germanium.

Author

Zhang, Chao, Chen, Xiao-Jia, and Lin, Hai-Qing

Subjects

SUPERCONDUCTIVITY, GERMANIUM, ELECTRON-phonon interactions, PRESSURE, DENSITY functional theory, MAGNETIC coupling

Abstract

The superconducting properties of the β-tin germanium under pressure have been investigated by the first-principles calculations based on density functional perturbation theory. The electron-phonon coupling strength as a function of pressure was calculated, and it deceases with the application of pressure. Using the calculated electron-phonon coupling strength, the superconducting transition temperature T has been estimated. Assuming a nominal Coulomb repulsion parameter of 0.1, the calculated T is in excellent agreement with experimental data. The T correlates with electron-phonon coupling strength, indicating phonon-mediated superconductivity in β-tin Ge phase. Our findings have great implications to other Group IVa elements. [ABSTRACT FROM AUTHOR]

Published

2013

60. Pseudogap in Boron-Doped Diamond and Cuprates.

Author

Larsson, Sven

Subjects

CHARGE exchange, MATHEMATICAL models, SUPERCONDUCTIVITY, DIAMONDS, CUPRATES

Abstract

The Marcus model, well known as a general model for electron transfer, is applied to electron pair formation and transfer in systems characterized by neighboring superconducting and local phases, particularly boron-doped diamond and cuprates. Hubbard- U is identified with the adiabatic free energy difference between charged and spin-coupled configurations. Typical for the Marcus model is the coupling of electronic and nuclear coordinates due to structural changes with number of electrons during electron transfer or excitation. [ABSTRACT FROM AUTHOR]

Published

2013

61. Possible Fulde–Ferrel–Larkin–Ovchinnikov Inhomogeneous Superconducting State in CeCoIn5: Cd- and Hg-doping Studies.

Author

Movshovich, R., Tokiwa, Y., Kurita, N., Ronning, F., Bauer, E. D., Bianchi, A., Papin, P., and Fisk, Z.

Subjects

SUPERCONDUCTIVITY, LOW temperatures, PHASE transitions, FERMIONS, SEMICONDUCTOR doping, METAL inclusions

Abstract

CeCoIn5 undergoes a phase transition within the superconducting (SC) state. A new superconducting state occupies a high field–low temperature (HFLT) corner of the SC state in the H– T plane, and is a strong candidate for realization of the spatially inhomogeneous Fulde–Ferrell–Larkin–Ovchinnikov (FFLO) superconducting state predicted theoretically in 1960s. We present specific heat data on Cd- and Hg-doped CeCoIn5 that shows that the HFLT phase is suppressed by minute amount of impurities, few hundred parts per million. At this concentration, the average distance between impurities is close to twice the superconducting coherence length ξ, suggesting that ξ is the characteristic length of the HFLT state. We conclude that our investigations support the superconducting, posibly FFLO, origin of the HFLT state. [ABSTRACT FROM AUTHOR]

Published

2009

62. Simulation Study of Surface Transfer Doping of Hydrogenated Diamond by MoO3 and V2O5 Metal Oxides.

Author

McGhee, Joseph and Georgiev, Vihar P.

Subjects

METALLIC oxides, DIAMONDS, DENSITY functional theory, VALENCE bands, CHARGE transfer, CONDUCTION bands, ELECTROPHILES

Abstract

In this work, we investigate the surface transfer doping process that is induced between hydrogen-terminated (100) diamond and the metal oxides, MoO3 and V2O5, through simulation using a semi-empirical Density Functional Theory (DFT) method. DFT was used to calculate the band structure and charge transfer process between these oxide materials and hydrogen terminated diamond. Analysis of the band structures, density of states, Mulliken charges, adsorption energies and position of the Valence Band Minima (VBM) and Conduction Band Minima (CBM) energy levels shows that both oxides act as electron acceptors and inject holes into the diamond structure. Hence, those metal oxides can be described as p-type doping materials for the diamond. Additionally, our work suggests that by depositing appropriate metal oxides in an oxygen rich atmosphere or using metal oxides with high stochiometric ration between oxygen and metal atoms could lead to an increase of the charge transfer between the diamond and oxide, leading to enhanced surface transfer doping. [ABSTRACT FROM AUTHOR]

Published

2020

63. New Tetragonal ReGa5(M) (M = Sn, Pb, Bi) Single Crystals Grown from Delicate Electrons Changing.

Author

Marshall, Madalynn, Górnicka, Karolina, Mudiyanselage, Ranuri S. Dissanayaka, Klimczuk, Tomasz, and Xie, Weiwei

Subjects

SINGLE crystals, FERMI level, CALORIMETRY, ELECTRONIC structure, TRANSITION temperature

Abstract

Single crystals of the new Ga-rich phases ReGa~5(Sn), ReGa~5(Pb) and ReGa~5(Bi) were successfully obtained from the flux method. The new tetragonal phases crystallize in the space group P4/mnc (No. 128) with vertex-sharing capped Re2@Ga14 oblong chains. Vacancies were discovered on the Ga4 and Ga5 sites, which can be understood as the direct inclusion of elemental Sn, Pb and Bi into the structure. Heat capacity measurements were performed on all three compounds resulting in a small anomaly which resembles the superconductivity transition temperature from the impurity ReGa5 phase. The three compounds were not superconducting above 1.85 K. Subsequently, electronic structure calculations revealed a high density of states around the Fermi level, as well as non-bonding interactions that likely indicate the stability of these new phases. [ABSTRACT FROM AUTHOR]

Published

2019

64. Ligand-Modified Boron-Doped Diamond Surface: DFT Insights into the Electronic Properties of Biofunctionalization.

Author

Dec, Bartłomiej, Sobaszek, Michał, Jaramillo-Botero, Andrés, Goddard III, William Andrew, and Bogdanowicz, Robert

Subjects

DIAMOND surfaces, CHEMICAL structure, CONDUCTION electrons, DENSITY functional theory, ELECTROCHEMICAL sensors

Abstract

With the increasing power of computation systems, theoretical calculations provide a means for quick determination of material properties, laying out a research plan, and lowering material development costs. One of the most common is Density Functional Theory (DFT), which allows us to simulate the structure of chemical molecules or crystals and their interaction. In developing a new generation of biosensors, understanding the nature of functional linkers, antibodies, and ligands become essential. In this study, we used DFT to model a bulk boron-doped diamond slab, modified by a functional linker and a surrogate proteins ligand. DTF calculations enable the prediction of electronic transport properties in an electrochemical sensor setup, composed of a boron-doped diamond electrode functionalized by 4-amino benzoic acids and a target surrogated protein-ligand for influenza. Electron conduction pathways and other signatures associated with the detection and measurement of the target analyte are revealed. [ABSTRACT FROM AUTHOR]

Published

2019

65. Ohmic Contact of Pt/Au on Hydrogen-Terminated Single Crystal Diamond.

Author

Zhang, Minghui, Lin, Fang, Wang, Wei, Li, Fengnan, Wang, Yan-Feng, Abbasi, Haris Naeem, Zhao, Dan, Chen, Genqiang, Wen, Feng, Zhang, Jingwen, Bu, Renan, and Wang, Hongxing

Subjects

OHMIC contacts, DIAMOND crystals, SINGLE crystals, X-ray photoelectron spectroscopy, ELECTRON beams, THERMAL stability

Abstract

In this study, contact properties of platinum/gold (Pt/Au) on the surface of hydrogen-terminated single crystal diamond (H-SCD) were studied with several treatment conditions. The electrodes of Pt (20 nm)/Au (100 nm) were deposited on H-SCD surface by electron beam evaporation technique. Then, the specific contact resistance (ρc) of the as-fabricated sample was measured by the circular transmission line model, which showed good ohmic properties with the value of 5.65 × 10−4 Ω·cm2. To identify the thermal stability of Pt/Au/H-SCD, the sample was annealed in hydrogen ambient from 200 to 700 °C for 20 min at each temperature. As the temperature increased, ρc demonstrated better thermal stability. In addition, the barrier height was evaluated to be −0.67 ± 0.12 eV by X-ray photoelectron spectroscopy (XPS) technique. [ABSTRACT FROM AUTHOR]

Published

2019

66. High Pressure Physics : A Treatise

Author

Surinder M. Sharma, Rajagopala Chidambaram, Surinder M. Sharma, and Rajagopala Chidambaram

Subjects

Condensed matter

Abstract

This advanced textbook provides an exhaustive review of topics of immense importance to the fundamental understanding of physics of materials at high pressures. The book presents the current status of experimental and theoretical techniques used to understand the behaviour of materials under high compression. Various topics covered in this book are high pressure studies of materials, equation of state of materials, phase transitions under high pressures, behaviour of hydrogen and hydrides under pressure, and hydrogen bond in solids under high pressure. This book is highly useful reference for the scientists working in the field of condensed matter in general and its behaviour under static and dynamic compression, in particular.

Published

2024

67. Controlling Collective Electronic States in Cuprates and Nickelates : A Resonant X-ray Scattering Study

Author

Martin Bluschke and Martin Bluschke

Subjects

Condensed matter, Superconductors—Chemistry, Crystallography, Surfaces (Technology), Thin films

Abstract

In this thesis chemical and epitaxial degrees of freedom are used to manipulate charge and spin ordering phenomena in two families of transition metal oxides, while taking advantage of state-of-the-art resonant x-ray scattering (RXS) methods to characterize their microscopic origin in a comprehensive manner. First, the relationship of charge density wave order to both magnetism and the'pseudogap'phenomenon is systematically examined as a function of charge-carrier doping and isovalent chemical substitution in single crystals of a copper oxide high-temperature superconductor. Then, in copper oxide thin films, an unusual three-dimensionally long-range-ordered charge density wave state is discovered, which persists to much higher temperatures than charge-ordered states in other high-temperature superconductors. By combining crystallographic and spectroscopic measurements, the origin of this phenomenon is traced to the epitaxial relationship with the underlying substrate. This discoveryopens new perspectives for the investigation of charge order and its influence on the electronic properties of the cuprates. In a separate set of RXS experiments on superlattices with alternating nickel and dysprosium oxides, several temperature- and magnetic-field-induced magnetic phase transitions are discovered. These observations are explained in a model based on transfer of magnetic order and magneto-crystalline anisotropy between the Ni and Dy subsystems, thus establishing a novel model system for the interplay between transition-metal and rare-earth magnetism.

Published

2020

68. Technical Proceedings of the 2007 Cleantech Conference and Trade Show

Author

NanoScience & Technology Inst and NanoScience & Technology Inst

Subjects

TD5

Abstract

The Cleantech conference, which runs parallel with NSTI's Nanotech, is designed to promote advancements in traditional technologies, emerging technologies, and clean business practices, covering important developments in renewable energy, clean technologies, business and policy, bio-energy, and novel technologies, as well as environme

Published

2019

69. Bibliography

Author

Pierre Villars, Karin Cenzual, Marinella Penzo, Pierre Villars, Karin Cenzual, and Marinella Penzo

Subjects

Inorganic compounds--Bibliography

Abstract

The aim of this Bibliography is to provide researchers with a comprehensive compilation of all up to now published scientific publications on inorganic. Therefore 200 000 publications were selected from about 10 000 000 scientific articles. The extracted data covers crystal structures (S), phase diagrams (C) and intrinsic physical properties (P).

Published

2017

70. Handbook on the Physics and Chemistry of Rare Earths : Including Actinides

Author

Jean-Claude G. Bunzli, Vitalij K. Pecharsky, Jean-Claude G. Bunzli, and Vitalij K. Pecharsky

Subjects

Rare earths

Abstract

Handbook on the Physics and Chemistry of Rare Earths is a continuous series of books covering all aspects of rare earth science, including chemistry, life sciences, materials science, and physics. The book's main emphasis is on rare earth elements [Sc, Y, and the lanthanides (La through Lu], but whenever relevant, information is also included on the closely related actinide elements. Individual chapters are comprehensive, broad, up-to-date critical reviews written by highly experienced, invited experts. The series, which was started in 1978 by Professor Karl A. Gschneidner Jr., combines and integrates both the fundamentals and applications of these elements and publishes two volumes a year. - Presents up-to-date overviews of new developments in the field of rare earths, covering both their physics and chemistry - Contains Individual chapters that are comprehensive and broad, with critical reviews - Provides contributions from highly experienced, invited experts

Published

2016

71. Bibliography

Author

Pierre Villars, Karin Cenzual, Marinella Penzo, Pierre Villars, Karin Cenzual, and Marinella Penzo

Subjects

Inorganic compounds--Bibliography

Abstract

By browsing about 10 000 000 scientific articles of over 200 major journals some 200 000 publications were selected. The extracted data is part of the following material research fields: crystal structures (S), phase diagrams (C) and intrinsic physical properties (P). These research field codes as well as the chemical systems investigated in each publication were included in the present work. The aim of this Bibliography is to provide researchers with a comprehensive compilation of all up to now published scientific publications on inorganic systems in only three handy volumes.

Published

2016

72. 1789O and 1789Y NMR Shift and Relaxation and the Temperature-Independent Pseudogap of the Cuprates

Author

Avramovska, Marija, Nachtigal, Jakob, and Haase, Juergen

Published

2022

73. Electrochemistry of Carbon Electrodes

Author

Richard C. Alkire, Philip N. Bartlett, Jacek Lipkowski, Richard C. Alkire, Philip N. Bartlett, and Jacek Lipkowski

Subjects

Electrodes, Carbon, Electrochemistry

Abstract

The book sets the standard on carbon materials for electrode design. For the first time, the leading experts in this field summarize the preparation techniques and specific characteristics together with established and potential applications of the different types of carbon-based electrodes. An introductory chapter on the properties of carbon together with chapters on the electrochemical characteristics and properties of the different modifications of carbon such as carbon nanotubes, graphene, carbon fiber, diamond or highly ordered pyrolytic graphite provide the reader with the basics on this fascinating and ubiquitous electrode material. Cutting-edge technologies such as carbon electrodes in efficient supercapacitors, Li-ion batteries and fuel cells, or electrodes prepared by screen-printing are discussed, giving a complete but concise overview about the topic. The clearly structured book helps newcomers to grasp easily the principles of carbon-based electrodes, while researchers in fundamental and applied electrochemistry will find new ideas for further research on related key technologies.

Published

2015

74. BIbliography

Author

Pierre Villars, Karin Cenzual, Marinella Penzo, Pierre Villars, Karin Cenzual, and Marinella Penzo

Abstract

By browsing about 10 000 000 scientific articles of over 200 major journals some 200 000 publications were selected. The extracted data is part of the following material research fields: crystal structures (S), phase diagrams (C) and intrinsic physical properties (P). These research field codes as well as the chemical systems investigated in each publication were included in the present work. The aim of this Bibliography is to provide researchers with a comprehensive compilation of all up to now published scientific publications on inorganic systems in only three handy volumes.

Published

2014

75. Handbook on the Physics and Chemistry of Rare Earths

Author

J.-C. G. Bünzli, Vitalij K. Pecharsky, J.-C. G. Bünzli, and Vitalij K. Pecharsky

Subjects

Rare earths

Abstract

This continuing authoritative series deals with the chemistry, materials science, physics and technology of the rare earth elements in an integrated manner. Each chapter is a comprehensive, up-to-date, critical review of a particular segment of the field. The work offers the researcher and graduate student a complete and thorough coverage of this fascinating field. - Authoritative - Comprehensive - Up-to-date - Critical

Published

2012

76. High-Tc Superconductors and Related Materials : Material Science, Fundamental Properties, and Some Future Electronic Applications

Author

S.-L. Drechsler, T. Mishonov, S.-L. Drechsler, and T. Mishonov

Subjects

Low temperatures, Electrodynamics, Condensed matter, Physical chemistry, Magnetism, Materials—Analysis

Abstract

A broad introduction to high Tc superconductors, their parent compounds and related novel materials, covering both fundamental questions of modern solid state physics (such as correlation effects, fluctuations, unconventional symmetry of superconducting order parameter) and applied problems related to short coherence length, grain boundaries and thin films. The information that can be derived from electron spectroscopy and optical measurements is illustrated and explained in detail. Descriptions widely employ the clear, relatively simple, phenomenological Ginzburg-Landau model of complex phenomena, such as vortex physics, vortex charge determination, plasmons in superconductors, Cooper pair mass, and wetting of surfaces. The first comprehensive reviews of several novel classes of materials are presented, including borocarbides and chain cuprates.

Published

2012

77. Bibliography

Author

Pierre Villars, Karin Cenzual, Marinella Penzo, Pierre Villars, Karin Cenzual, and Marinella Penzo

Subjects

Inorganic compounds--Bibliography

Abstract

By browsing about 10 000 000 scientific articles of over 200 major journals mainly in a ‘cover to cover approach'some 200 000 publications were selected. The extracted data is part of the following fundamental material research fields: crystallographic structures (S), phase diagrams (also called constitution) (C) and the comprehensive field of intrinsic physical properties (P). This work has been done systematically starting with the literature going back to 1900. The above mentioned research field codes (S, C, P) as well as the chemical systems investigated in each publication were included in the present work. The aim of the Inorganic Substances Bibliography is to provide researchers with a comprehensive compilation of all up to now published scientific publications on inorganic systems in only two handy volumes.

Published

2012

78. The Physics of Superconductors : Vol. I. Conventional and High-Tc Superconductors

Author

Karl-Heinz Bennemann, John B. Ketterson, Karl-Heinz Bennemann, and John B. Ketterson

Subjects

Electronics, Electrodynamics, Superconductivity, Superconductors

Abstract

Superconductivity has undergone tremendous advances in recent years. Most notable of course was the discovery of high temperature superconductivity in the cuprates. This discovery resulted in an enormous influx of new workers to the field representing a host of experimental and theoretical disciplines. When we combine this with the discovery of superconductivity in other materials such as heavy-fermion metals, MgB2, various organics, fullerenes, field-effect devices, magnetic metals under pressure, and presumably non s-symmetry triplet Cooper-pairing in ruthenates (e. g. Sr2Ru04) we have an enrichment of the phenomena superconductivity. This resulted in an explosion of interest in the field. Many of the new superconductors are being called unconventional, either with respect to the pairing mechanism or the symmetry of the under­ lying order parameter. Yet in spite of these new materials and directions, continuing studies of conventional electron-phonon based superconductivity remain interesting. With the aid of historical hindsight, we expect the field to continue to advance in unexpected directions. Nonetheless it is our view that a state of the art treatise on superconductivity is justified at this time, not only to summarize the present understanding, but also to introduce newcomers to the field, as was the case with the two justly-famous 1968'bibles of super­ conductivity'by our former colleague R. D. Parks for an earlier generation. Hopefully the present books might help to point the way for future workers, research and discoveries.

Published

2012

79. Magnetism and Superconductivity in Iron-based Superconductors As Probed by Nuclear Magnetic Resonance

Author

Franziska Hammerath and Franziska Hammerath

Subjects

Nuclear magnetic resonance, High temperature superconductivity, Iron-based superconductors, Ferromagnetic materials

Abstract

Nuclear Magnetic Resonance (NMR) has been a fundamental player in the studies of superconducting materials for many decades. This local probe technique allows for the study of the static electronic properties as well as of the low energy excitations of the electrons in the normal and the superconducting state. On that account it has also been widely applied to Fe-based superconductors from the very beginning of their discovery in February 2008. This dissertation comprises some of these very first NMR results, reflecting the unconventional nature of superconductivity and its strong link to magnetism in the investigated compounds LaO1–xFxFeAs and LiFeAs.

Published

2012

80. Carbon-based Solids and Materials

Author

Pierre Delhaes and Pierre Delhaes

Subjects

Carbon compounds, Carbon composites

Abstract

It is well known that solid carbons can be found in various guises with different forms of bulk phases (graphites, diamonds and carbynes) as well as more molecular forms (fullerenes,nanotubes and graphenes) resulting from recent discoveries. The cause of this rich polymorphism is analyzed in the first part of this book (chapters 1-5) with the propensity of carbon atoms for forming different types of homopolar chemical bonds associated with variable coordination numbers. Precursor organic molecules and parent compounds are also described to establish specific links with this rich polymorphism. Then in a second part (chapters 6-10) a comparative review of the main classes of bulk physical properties is presented. This approach emphasizes in particular the electronic behavior of (pi) polyaromatic systems organized in plane and curved atomic sheets. Finally in a third part (chapters 11-15) the surface and interface characteristics are introduced together with the texture and morphology of these multiscale carbon materials. An overview of the main field of applications is related showing the large use and interest for these solids.

Published

2011

81. High-Pressure Crystallography : From Fundamental Phenomena to Technological Applications

Author

Elena Boldyreva, Przemyslaw Dera, Elena Boldyreva, and Przemyslaw Dera

Subjects

High pressure crystallography--Congresses

Abstract

This book is devoted to the theme of crystallographic studies at high pressure, with emphasis on the phenomena characteristic to the compressed state of matter, as well as experimental and theoretical techniques used to study these phenomena. As a thermodynamic parameter, pressure is remarkable in many ways. In the visible universe its value spans over sixty orders of magnitude, from the non-equilibrium pressure of hydrogen in intergalactic space, to the kind of pressure encountered within neutron stars. In the laboratory, it provides the unique possibility to control the structure and properties of materials, to dramatically alter electronic properties, and to break existing, or form new chemical bonds. This agenda naturally encompasses elements of physics (properties, structure and transformations), chemistry (reactions, transport), materials science (new materials) and engineering (mechanical properties); in addition it has direct applications and implications for geology (minerals in deep Earth environments), planetary sciences, biology and medicine.

Published

2010

82. Graphene and Graphite Materials

Author

Author Unknown and Author Unknown

Subjects

Graphite composites, Graphitization, Graphene

Abstract

Graphene is a nanomaterial combining very simple atomic structure with intriguingly complex and largely unexplored physics. Since its first isolation about four years ago researchers suggested a large number of applications for this material in anticipation of future technological revolutions. In particular, graphene is considered as a potential candidate for replacing silicon in future electronic devices. Graphene is a perfect example of the wonders of nanotechnology, in which common substances are scaled down to an atomic level to uncover new and exciting possibilities.The mineral graphite is one of the allotropes of carbon. Unlike diamond (another carbon allotrope), graphite is an electrical conductor, a semimetal, and can be used, for instance, in the electrodes of an arc lamp. This new book presents the latest research in the field from around the world.

Published

2009

83. Superconducting Intercalated Graphite

Author

Emerya, Nicolas, Hérolda, Claire, Lagrange, Philippe, Emerya, Nicolas, Hérolda, Claire, and Lagrange, Philippe

Subjects

Clathrate compounds, Graphite, Superconductivity

Abstract

The discovery in 2005 of superconductivity in YbC6 and CaC6, with substantially higher critical temperatures than the previously observed among the family of the graphite intercalation compounds, has largely renewed the interest for these well known lamellar compounds. Indeed, these critical temperatures reach 6.5 and 11.5 K respectively for ytterbium- and calcium-graphite phases. It was consequently interesting to collect all the informations concerning the superconductivity of these compounds from the discovery of this phenomenon observed in the heavy alkali metals graphite intercalation compounds in 1965, insisting particularly on the recent advances in this research field. After a general introduction that describes all the carbon materials, which are extremely various with dimensionalities varying from 3 to 0, leading to their large aptitude for the insertion/intercalation reactions, the authors widely developed the case of graphite: chemical bonds, crystal and electronic structures, anisotropy and ability to become a host structure. The authors insist on its strong anisotropy of chemical reactivity that allows the synthesis of very numerous intercalation compounds. The distinctive features of the intercalation reaction into graphite are reviewed (systematic charge transfer, staging, etc…) and are particularly developed in the case of the donor-type intercalation compounds, among which is precisely observed the superconductivity. For the latter, the various synthesis methods are successively described, showing the best route to use in order to obtain each type of compound. Then the authors review with detail the binary compounds, emphasizing their distinctive crystal and electronic structures and also their transport properties. The authors describ the superconductivity of all the compounds belonging to this family and show this property. In the last part, the authors compare these superconducting binary intercalated graphite compounds with other lamellar superconductor: magnesium diboride. The ternary compounds are then studied, and the poly-layered nature of their intercalated sheets is given special attention. Their distinctive electronic structure is presented and their superconducting properties are described.

Published

2009

84. Solides et matériaux carbonés 1 : phases carbonées et analogues (Collection Procédés et systèmes mécaniques)

Author

DELHAES Pierre and DELHAES Pierre

Abstract

Les solides carbonés cristallins, diamants et graphites, sont les exemples les plus connus de différentes variétés polymorphiques. Les avancées récentes au cours du XXe siècle ont conduit à la caractérisation des carbones graphitiques partiellement cristallisés d'origine naturelle ou artificielle mais également à la découverte de nouvelles phases moléculaires, les fullerènes, nanotubes et graphènes. Publié en trois volumes, Solides et matériaux carbonés intègre ces différents apports et les associe aux divers domaines industriels. Basé sur une approche historique, le premier volume présente les différentes formes de carbones découverts ou prévus théoriquement, leurs précurseurs et les composés analogues. Le second volume s'intéresse à une comparaison de l'ensemble des propriétés physiques intrinsèques des différentes phases. Le troisième et dernier volume décrit les caractéristiques physico-chimiques de surface et les grands domaines d'applications en tant que matériaux fonctionnels ou de structure.

Published

2009

85. Superconductivity : Volume 1: Conventional and Unconventional Superconductors Volume 2: Novel Superconductors

Author

Karl-Heinz Bennemann, John B. Ketterson, Karl-Heinz Bennemann, and John B. Ketterson

Subjects

Superconductivity

Abstract

Conceived as the definitive reference in a classic and important field of modern physics, this extensive and comprehensive handbook systematically reviews the basic physics, theory and recent advances in the field of superconductivity. Leading researchers, including Nobel laureate, describe the state of the art in conventional and unconventional superconductors at a particularly opportune time, as new experimental techniques and field-theoretical methods have emerged. In addition to full-coverage of novel materials and underlying mechanisms, the handbook reflects continued intense research into electron-phone based superconductivity. Considerable attention is devoted to high-Tc superconductivity, novel superconductivity, including triplet pairing in the ruthenates, novel superconductors, such as Heavy-Fermion metals and organic materials, and also granular superconductors. What's more, several contributions address superconductors with impurities and nanostructured superconductors. Important new results on current problems are presented in a manner designed to stimulate further research. Numerous illustrations, diagrams and tables make this book especially useful as a reference work for researchers, students and teachers. Treating the entire superconductivity field, this unparalleled reference resource carefully blends theoretical studies with experimental results to provide the scientist and engineers an indispensable foundation for further research.

Published

2008

86. Electron Transport in Nanosystems

Author

Janez Bonca, Sergei Kruchinin, Janez Bonca, and Sergei Kruchinin

Subjects

Microtechnology, Microelectromechanical systems, Electronics, Condensed matter, Superconductivity, Superconductors, Nanotechnology, Computer science

Abstract

Proceedings of the NATO Advanced Research Workshop on Electron Transport in Nanosystems Yalta, Ukraine 17-21 September 2007

Published

2008

87. Handbook on the Physics and Chemistry of Rare Earths

Author

Karl A. Gschneidner, Jean-Claude G. Bunzli, Vitalij K. Pecharsky, Karl A. Gschneidner, Jean-Claude G. Bunzli, and Vitalij K. Pecharsky

Subjects

Rare earths

Abstract

This continuing authoritative series deals with the chemistry, materials science, physics and technology of the rare earth elements. Volume 38 of the Handbook on the Physics and Chemistry of Rare Earth incorporates a recapitulation of the scientific achievements and contributions made by the late Professor LeRoy Eyring (1919-2005) to the science of the lanthanide oxides in which the lanthanide element has a valence equal to or greater than three.· Authoritative · Comprehensive · Up-to-date · Critical

Published

2008

88. Physics and Applications of CVD Diamond

Author

Satoshi Koizumi, Christoph Nebel, Milos Nesladek, Satoshi Koizumi, Christoph Nebel, and Milos Nesladek

Subjects

Diamonds, Artificial, Chemical vapor deposition

Abstract

Here, leading scientists report on why and how diamond can be optimized for applications in bioelectronic and electronics. They cover such topics as growth techniques, new and conventional doping mechanisms, superconductivity in diamond, and excitonic properties, while application aspects include quantum electronics at room temperature, biosensors as well as diamond nanocantilevers and SAWs. Written in a review style to make the topic accessible for a wider community of scientists working in interdisciplinary fields with backgrounds in physics, chemistry, biology and engineering, this is essential reading for everyone working in environments that involve conventional electronics, biotechnology, quantum computing, quantum cryptography, superconductivity and light emission from highly excited excitonic systems.

Published

2008

89. Advances in Imaging and Electron Physics

Author

Peter W. Hawkes and Peter W. Hawkes

Subjects

Microscopy, Image processing, Electrons, Electron microscopes

Abstract

Advances in Imaging and Electron Physics merges two long-running serials-Advances in Electronics and Electron Physics and Advances in Optical and Electron Microscopy. This series features extended articles on the physics of electron devices (especially semiconductor devices), particle optics at high and low energies, microlithography, image science and digital image processing, electromagnetic wave propagation, electron microscopy, and the computing methods used in all these domains

Published

2007

90. Encyclopedia of Chemical Processing (Online)

Author

Sunggyu Lee and Sunggyu Lee

Subjects

Chemical engineering--Encyclopedias

Abstract

This second edition Encyclopedia supplies nearly 350 gold standard articles on the methods, practices, products, and standards influencing the chemical industries. It offers expertly written articles on technologies at the forefront of the field to maximize and enhance the research and production phases of current and emerging chemical manufacturing practices and techniques. This collecting of information is of vital interest to chemical, polymer, electrical, mechanical, and civil engineers, as well as chemists and chemical researchers.A complete reconceptualization of the classic reference series the Encyclopedia of Chemical Processing and Design, whose first volume published in 1976, this resource offers extensive A-Z treatment of the subject in five simultaneously published volumes, with comprehensive indexing of all five volumes in the back matter of each tome. It includes material on the design of key unit operations involved with chemical processes; the design, unit operation, and integration of reactors and separation systems; process system peripherals such as pumps, valves, and controllers; analytical techniques and equipment; and pilot plant design and scale-up criteria.This reference contains well-researched sections on automation, equipment, design and simulation, reliability and maintenance, separations technologies, and energy and environmental issues. Authoritative contributions cover chemical processing equipment, engineered systems, and laboratory apparatus currently utilized in the field. It also presents expert overviews on key engineering science topics in property predictions, measurements and analysis, novel materials and devices, and emerging chemical fields.ALSO AVAILABLE ONLINE This Taylor & Francis encyclopedia is also available through online subscription, offering a variety of extra benefits for both researchers, students, and librarians, including: Citation tracking and alerts Active reference linking Saved searches and marked lists HTML and PDF format options Contact Taylor and Francis for more information or to inquire about subscription options and print/online combination packages.US: (Tel) 1.888.318.2367; (E-mail) e-reference@taylorandfrancis.comInternational: (Tel) +44 (0) 20 7017 6062; (E-mail) online.sales@tandf.co.uk

Published

2006

91. Interface-Induced and Interface-Enhanced Superconductivity

Author

Chu, C. W., Deng, L. Z., Gooch, M., Huyan, S. Y., Lv, B., and Wu, Z.

Published

2019

92. Handbook on the Physics and Chemistry of Rare Earths

Author

Karl A. Gschneidner, Jean-Claude G. Bunzli, Vitalij K. Pecharsky, Karl A. Gschneidner, Jean-Claude G. Bunzli, and Vitalij K. Pecharsky

Subjects

Rare earths

Abstract

This volume of the Handbook adds five new chapters to the science of rare earths. Two of the chapters deal with intermetallic compounds. An overview of ternary systems containing rare earths, transition metals and indium – Chapter 218 – opens the volume. It is followed by Chapter 219 sorting out relationships between superconductivity and magnetism. The next two chapters are dedicated to complex compounds of rare earths: Chapter 220 describes structural studies using circularly polarized luminescence spectroscopy of lanthanide systems, while Chapter 221 examines rare-earth metal-organic frameworks, also known as coordination polymers. The final Chapter 222 deals with the catalytic activity of rare earths in site-selective hydrolysis of DNA and RNA.

Published

2005

93. Progress in Low Temperature Physics

Author

Halperin, W. P. and Halperin, W. P.

Subjects

Low temperatures, Low temperature research

Abstract

A number of interrelated areas of low temperature physics are brought together in this volume. The four topics are presented as separate chapters. First is the study of the Kibble-Zurek mechanism for defect formation following quench cooling of superfluid 3He and its relation to quantum field theory. Properties of heavy fermion materials are described next with special attention to the competition between magnetism and superconductivity. Some of the newest correlated electron systems are discussed and the arguments for possible unconventional nature of the superconducting order parameter are presented for these systems, including the novel coexistence of ferromagnetism and superconductivity. Highly polarized degenerate Fermi liquids are of substantial interest in many areas of physics. The most complete description of observations of thermodynamic and transport phenomena are reviewed here for the case of polarized liquid 3He obtained by rapid melting from a polarized solid and subsequent rapid refrigeration. Properties of the melting curve of 3He, and the related technique of melting curve thermometry are described in detail.· Superfluid 3He and Quantum Field Theory· Large Scale structure of the Universe· Unconventional Superconductivity· Heavy Fermions· Quantum Phase Transitions· Polarized Fermi Liquids · Rapid Melting· 3He Melting Curve· Low Temperature Thermometry

Published

2005

94. 75As NMR and XRD Study of Structural and Electronic Inhomogeneities in Ba(Fe1−xNix)2As2

Author

Nikolaev, E. G., Lugansky, L. B., Vlasenko, V. A., Pervakov, K. S., Martovitsky, V. P., Eltsev, Yu. F., Bud’ko, S. L., and Canfield, P. C.

Published

2018

95. Conventional/unconventional superconductivity in high-pressure hydrides and beyond: insights from theory and perspectives

Author

Pietronero, Luciano, Boeri, Lilia, Cappelluti, Emmanuele, and Ortenzi, Luciano

Published

2018

96. Handbook of Magnetic Materials

Author

K.H.J. Buschow and K.H.J. Buschow

Subjects

Ferromagnetic materials--Handbooks, manuals, etc

Abstract

Volume 15 of the Handbook on the Properties of Magnetic Materials, as the preceding volumes, has a dual purpose. As a textbook it is intended to be of assistance to those who wish to be introduced to a given topic in the field of magnetism without the need to read the vast amount of literature published. As a work of reference it is intended for scientists active in magnetism research. To this dual purpose, Volume 15 of the Handbook is composed of topical review articles written by leading authorities. In each of these articles an extensive description is given in graphical as well as in tabular form, much emphasis being placed on the discussion of the experimental material in the framework of physics, chemistry and material science. It provides the readership with novel trends and achievements in magnetism.

Published

2003

97. Multinuclear Solid-State Nuclear Magnetic Resonance of Inorganic Materials

Author

Kenneth J.D. MacKenzie, M.E. Smith, Kenneth J.D. MacKenzie, and M.E. Smith

Subjects

Nuclear magnetic resonance spectroscopy, Inorganic compounds--Analysis

Abstract

Techniques of solid state nuclear magnetic resonance (NMR) spectroscopy are constantly being extended to a more diverse range of materials, pressing into service an ever-expanding range of nuclides including some previously considered too intractable to provide usable results. At the same time, new developments in both hardware and software are being introduced and refined. This book covers the most important of these new developments. With sections addressed to non-specialist researchers (providing accessible answers to the most common questions about the theory and practice of NMR asked by novices) as well as a more specialised and up-to-date treatment of the most important areas of inorganic materials research to which NMR has application, this book should be useful to NMR users whatever their level of expertise and whatever inorganic materials they wish to study.

Published

2002

98. Phase Transitions and Self-Organization in Electronic and Molecular Networks

Author

J.C. Phillips, M.F. Thorpe, J.C. Phillips, and M.F. Thorpe

Subjects

Materials--Research--Congresses

Abstract

Advances in nanoscale science show that the properties of many materials are dominated by internal structures. In molecular cases, such as window glass and proteins, these internal structures obviously have a network character. However, in many partly disordered electronic materials, almost all attempts at understanding are based on traditional continuum models. This workshop focuses first on the phase diagrams and phase transitions of materials known to be composed of molecular networks. These phase properties characteristically contain remarkable features, such as intermediate phases that lead to reversibility windows in glass transitions as functions of composition. These features arise as a result of self-organization of the internal structures of the intermediate phases. In the protein case, this self-organization is the basis for protein folding. The second focus is on partly disordered electronic materials whose phase properties exhibit the same remarkable features. In fact, the phenomenon of High Temperature Superconductivity, discovered by Bednorz and Mueller in 1986, and now the subject of 75,000 research papers, also arises from such an intermediate phase. More recently discovered electronic phenomena, such as giant magnetoresistance, also are made possible only by the existence of such special phases. This book gives an overview of the methods and results obtained so far by studying the characteristics and properties of nanoscale self-organized networks. It demonstrates the universality of the network approach over a range of disciplines, from protein folding to the newest electronic materials.

Published

2002

99. Solid-State NMR Spectroscopy of Inorganic Materials

Author

JOHN J. FITZGERALD, Susan M. DePaul, Ales Medek, Laura Marinelli, Lucio Frydman, Jeffrey A. Reimer, Stuart B. Adler, Yong Pan, R. M. Wenslow, K. Fiske, K. T. Mueller, J. W. Zwanziger, R. E. Youngman, M. Braun, Walter G. Klemperer, David L. Richard, G. Engelhardt, C. A. Fyfe, A. C. Diaz, A. R. Lewis, J. M. Chézeau, H. Grondey, G. T. Kokotailo, Jay S. Shore, Matthias Ernst, Brian L. Phillips, Gary E. Maciel, James P. Yesinowski, Edward A. Hill, M. E. Smith, JOHN J. FITZGERALD, Susan M. DePaul, Ales Medek, Laura Marinelli, Lucio Frydman, Jeffrey A. Reimer, Stuart B. Adler, Yong Pan, R. M. Wenslow, K. Fiske, K. T. Mueller, J. W. Zwanziger, R. E. Youngman, M. Braun, Walter G. Klemperer, David L. Richard, G. Engelhardt, C. A. Fyfe, A. C. Diaz, A. R. Lewis, J. M. Chézeau, H. Grondey, G. T. Kokotailo, Jay S. Shore, Matthias Ernst, Brian L. Phillips, Gary E. Maciel, James P. Yesinowski, Edward A. Hill, and M. E. Smith

Published

1999

100. Magnitude of spin and charge density wave amplitudes in underdoped cuprates

Author

Eremin, M., Varlamov, S., and Eremin, I.

Published

2000