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Saturday, May 16, 2020 | History

4 edition of Science and technology of fast ion conductors found in the catalog.

Science and technology of fast ion conductors

by International School of Materials Science and Technology (1987 Erice, Italy)

  • 202 Want to read
  • 5 Currently reading

Published by Plenum Press in New York .
Written in English

    Subjects:
  • Superionic conductors -- Congresses.,
  • Electrolytes -- Conductivity -- Congresses.

  • Edition Notes

    Statementedited by Harry L. Tuller and Minko Balkanski.
    SeriesNATO ASI series., v. 199
    ContributionsTuller, Harry L., Balkanski, Minko, 1927-, North Atlantic Treaty Organization. Scientific Affairs Division., Special Program on Condensed Systems of Low Dimensionality (NATO)
    Classifications
    LC ClassificationsQD561 .I564 1987
    The Physical Object
    Paginationx, 362 p. :
    Number of Pages362
    ID Numbers
    Open LibraryOL2210734M
    ISBN 100306432188
    LC Control Number89033399

    The ionic conductivities, stabilities and ionic mobilities of xLiBH4-Li2NH (x = 1, 2, 4) composites as fast ion conductor. Journal of Alloys and Compounds , , DOI: /m Junichi Kawamura. Ion Conducting Materials: Superionic Conductors and Solid-State by: Origin of fast ion diffusion in super-ionic conductors. June ; 1 Department of Materials Science and have been considered as a promising energy storage technology to replace organic.

    Lithium ion conductivity in many structural families can be tuned by many orders of magnitude, with some rivaling that of liquid electrolytes at room temperature. Unfortunately, fast lithium conductors exhibit poor stability against lithium battery electrodes. In this article, we report a fundamentally new a Energy and Environmental Science HOT Articles Celebrating Excellence in Research. Request PDF | Ion Conducting Materials: Superionic Conductors and Solid-State Ionics | Ionic conduction in solids is a fundamental problem in material physics, chemistry, and engineering fields.

    A novel Li-ion superconductor makes possible an era of safe battery A fast Li-ion conducting solid electrolyte material comparable to the liquid electrolytes used in typical batteries. Science and Technology of Advanced Materials is the leading open access, international journal covering a broad spectrum of materials science research including functional materials, synthesis and processing, theoretical analyses, characterization and properties of materials. Emphasis is placed on the interdisciplinary nature of materials science and issues at the forefront of the field, such.


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Science and technology of fast ion conductors by International School of Materials Science and Technology (1987 Erice, Italy) Download PDF EPUB FB2

The rediscovery of fast ion conduction in solids in the 's stimulated interest both in the scientific community in which the fundamentals of diffusion, order-disorder phenomena and crystal structure evaluation required re-examination, and in the technical community in which novel approaches to energy conversion and chemical sensing became possible with the introduction of the new field of "Solid State : Springer US.

The rediscovery of fast ion conduction in solids in the 's stimulated interest both in the scientific community in which the fundamentals of diffusion, order-disorder phenomena and crystal structure evaluation required re-examination, and in the technical community in which novel approaches to energy conversion and chemical sensing became possible with the introduction of the new field of.

ISBN: OCLC Number: Notes: "Proceedings of a NATO Advanced Study Institute, which was the International School of Materials Science and Technology Twelfth Course on Fast Ion Conductors, held July, in Erice, Italy"--Title page verso.

Science and Technology of Fast Ion Conductors. [Harry L Tuller; Minko Balkanski] -- The rediscovery of fast ion conduction in solids in the 's stimulated interest both in the scientific community in which the fundamentals of diffusion, order-disorder phenomena and crystal.

The final section describes some of the extensive current uses of rare earth materials such as in the steel industry and in permanent magnets, as well as emerging applications in catalysis, hydrogen storage, ferroelectrics, and fast ion conductors.

This book is a valuable resource for researchers Science and technology of fast ion conductors book students interested in rare earths. Examples are chemotronic devices, timers, memory elements, integrated batteries, or electrochromic windows and displays.

In addition, on a more scientific level, fast solid ionic conductors became very important for precise measurements of fundamental thermodynamic and kinetic data and for the determination of equilibrium phase diagrams [2].Cited by: 1. It is now several decades since the subject of fast ion conduction in crystalline materials was first seriously examined.

Scientists were and still remain fascinated with the source of the anamalously high ion conductivities and technologists with the possibilities for these materials in high energy density batteries, sensors, displays, by: 8.

Recent Advances in Fast Ion Conducting Materials and Devices. Proceedings of the 2nd Asian Conference on Solid State Ionics. B.V.R. Chowdari, Qingguo Liu; Theoretical Aspects of Fast Ion Conduction in Solids. Amorphous Lithium Ion Conductors in Li 2 S-SiS 2-LiBO 2 System.

دانلود کتاب Science and Technology of Fast Ion Conductors به فارسی علم و فناوری رشته های یون سریع حجم 23 MB فرمت pdf تعداد صفحات سال نشر نویسنده C. Catlow (auth.), Harry L. Semiconductor Science and Technology. Semiconductor Science and Technology is IOP's journal dedicated to semiconductor research.

The journal publishes cutting-edge research on the physical properties of semiconductors and their applications. Submit an article opens in new tab Track my article opens in new tab. Part of the NATO ASI Series book series (NSSB, volume ) Abstract In the following context, in a supplementary, non-systematic manner, different additional remarks on applications of fast solid ion conductors or of ionically disordered semiconductors (mainly with respect to sensors) shall be by: 5.

Ionic and electronic currents can coexist in the so-called mixed ionic electronic conductors (MIEC). When these conductors interact with non-uniform chemical surroundings, electrical currents are induced in the MIEC. Applied electric fields affect not only the ionic and electronic currents, but also induce chemical changes in the : I.

Riess. Super-ionic conductor materials have great potential to enable novel technologies in energy storage and conversion. However, it is not yet understood why only a few materials can deliver exceptionally higher ionic conductivity than typical solids or how one can design fast ion conductors following simple by: Materials Science and Engineering, B I () - Fast Ion Conductors: Future Trends HARRY L.

TULLER and PETER K. MOON Crystal Physics and Optical Electronics Laboratory, Department of Materials Science and Engineering, Massachusetts Institute of Technology', Cambridge, MA (U.S.A.) (Received May 2, ) Abstract The characteristics of various fast ion conduc- Cited by: Over the past decade, many efforts have been made to develop new materials exhibiting high oxide ion mobility at low temperature.

In addition to the improvements of existing materials, new classes of conductors in which the structure have been shown to play an important role has been proposed.

These materials are reviewed according to their structure by: Solid oxides with the fluorite-type structure such as zirconia- ceria- and bismuth oxide-based materials are fast oxide-ion conductors, which enables the use as good electrolyte materials for applications to solid oxide fuel cells and oxygen sensors.

To develop better electrolyte materials requires a better understanding of the conduction mechanism, and crucial to this is the knowledge of the disorder of mobile ions Cited by: The development and application of all-solid-state batteries with a fast lithium-ionic conductor are hampered by structural instability and rigid stoichiometry restrictions.

Here, we present a family of lithium thiophosphate prototypes with a novel principle, controlling sulfur deficiencies with the addition of nickel sulfide-based additives, for fast lithium-ion conduction and distinct Cited by: 4.

Such a type of phase transition—to a high-temperature fast-ion conductor—is also found in other oxide-ion conductors such as Bi 2 O 3 (ref. 5), Bi 4 V 2 O 11 (ref. 8) and Ba 2 In 2 O 5 (ref Cited by: Find many great new & used options and get the best deals for Nato Science Series B: Science and Technology of Fast Ion Conductors (, Hardcover) at the best online prices at eBay.

Free shipping for many products. The so-called NASICONs or sodium super ion conductors are crystalline solids of the general formula A 1 B 2 (PO 4) 3 where A is a monovalent cation and B is either a single or combination of tri, tetra and penta valent ions. They generally crystallize in R 3 ¯ C or related (open) structures.

The monovalent A ions migrate in the lattice with low activation energies. Herein, mechanism of ion conduction in solids, current state of fast fluoride ion conductors based on fluorite and tysonite structures as well as of mixed compounds based on Pb, Sn, Bi and Sb will Author: Martha Greenblatt.A new lithium-ion conducting oxide, LiTa 2 PO 8, with a three-dimensional (3D) framework structure was complementary use of synchrotron XRD and neutron diffraction revealed that LiTa 2 PO 8 crystallized into a monoclinic system (space group C2/c) with lattice parameters a ≈ Å, b ≈ Å, c ≈ Å, and β = °.

In this structure, the TaO 6 octahedra Cited by: 3.MXene‐Based Mesoporous Nanosheets Toward Superior Lithium Ion Conductors. Yongzheng Shi. School of Materials Science and Engineering, Beihang University, Beijing, China.

Search for more papers by this author. enabling the fast Li + transportation at the mesoporous nanosheets/polymer interfaces.

As a consequence, Author: Yongzheng Shi, Bin Li, Qi Zhu, Kai Shen, Wenjing Tang, Qian Xiang, Weihua Chen, Chuntai Liu, Jiayan.