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Libros sobre el tema "Batteries solides"

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Publicado: 19 de abril de 2025

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1

1927-, Balkanski Minko y Commission of the European Communities., eds. Microionics: Solid-state integrable batteries. Amsterdam: North Holland, 1991.

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2

A, Munshi M. Z., ed. Handbook of solid state batteries & capacitors. Singapore: World Scientific Pub., 1995.

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3

R, Chowdari B. V. y Radhakrishna S, eds. Materials for solid state batteries: Proceedings of the regional workshop Singapore, 2-6 June 1986. Singapore: World Scientific, 1986.

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4

Knutz, Boye C. Lithiumfaststofbatterier. Lyngby: Fysisk laboratorium III, Danmarks tekniske højskole, 1985.

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5

International School of Materials Science and Technology (1988 Erice, Italy). Solid state microbatteries. New York: Plenum Press, 1990.

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6

1945-, Julien Christian y Nazri Gholamabbas, eds. Solid state batteries: Materials design and optimization. Boston: Kluwer Academic, 1994.

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7

R, Chowdari B. V., Radhakrishna S, International Council of Scientific Unions. Committee on Science and Technology in Developing Countries., Asian Society for Solid State Ionics. y International Seminar on Solid State Ionic Devices (1988 : Singapore), eds. Solid state ionic devices: Proceedings of the international seminar : 18-23 July 1988, Singapore. Singapore: World Scientific, 1988.

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8

Arumugam, Manithiram y American Ceramic Society Meeting, eds. Developments in solid oxide fuel cells and lithium ion batteries: Proceedings of the 106th Annual Meeting of the American Ceramic Society : Indianapolis, Indiana, USA (2004). Westerville, Ohio: American Ceramic Society, 2005.

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9

VIALLET. Batteries Tout-Solide Monolothiques. ISTE Editions Ltd., 2018.

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10

Viallet, Virginie y Benoit Fleutot. Inorganic Massive Batteries. Wiley & Sons, Incorporated, John, 2018.

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11

Viallet, Virginie y Benoit Fleutot. Inorganic Massive Batteries. Wiley & Sons, Incorporated, John, 2018.

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12

Viallet, Virginie y Benoit Fleutot. Inorganic Massive Batteries. Wiley & Sons, Incorporated, John, 2018.

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13

Viallet, Virginie y Benoit Fleutot. Inorganic Massive Batteries. Wiley & Sons, Incorporated, John, 2018.

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14

Kulova, Tatiana. All-Solid-state Thin-film Lithium-ion Batteries. Taylor & Francis Group, 2021.

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15

All Solid State Thin-Film Lithium-Ion Batteries: Materials, Technology, and Diagnostics. Taylor & Francis Group, 2021.

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16

Skundin, Alexander, Tatiana Kulova, Alexander Rudy y Alexander Miromemko. All Solid State Thin-Film Lithium-Ion Batteries: Materials, Technology, and Diagnostics. Taylor & Francis Group, 2021.

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17

Skundin, Alexander, Tatiana Kulova, Alexander Rudy y Alexander Miromemko. All Solid State Thin-Film Lithium-Ion Batteries: Materials, Technology, and Diagnostics. Taylor & Francis Group, 2021.

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18

Skundin, Alexander, Tatiana Kulova, Alexander Rudy y Alexander Miromemko. All Solid State Thin-Film Lithium-Ion Batteries: Materials, Technology, and Diagnostics. Taylor & Francis Group, 2021.

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19

César A.C. Sequeira (Editor) y A. Hooper (Editor), eds. Solid State Batteries (NATO Science Series E:). Springer, 1985.

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20

Wakihara, M., T. Minami, M. Tatsumisago, C. Iwakura y S. Kohjiya. Solid State Ionics for Batteries. Springer London, Limited, 2006.

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21

Polymer and Ceramic Electrolytes for Energy Storage Devices, Two-Volume Set. Taylor & Francis Group, 2021.

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22

Raghavan, Prasanth y Jabeen Fatima M. J. Polymer Electrolytes for Energy Storage Devices. Taylor & Francis Group, 2021.

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23

Raghavan, Prasanth y Jabeen Fatima M. J. Polymer Electrolytes for Energy Storage Devices. Taylor & Francis Group, 2021.

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24

Raghavan, Prasanth y Jabeen Fatima M. J. Polymer Electrolytes for Energy Storage Devices. Taylor & Francis Group, 2021.

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25

Raghavan, Prasanth y Jabeen Fatima. Polymer and Ceramic Electrolytes for Energy Storage Devices, Two-Volume Set. Taylor & Francis Group, 2021.

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26

Raghavan, Prasanth y Jabeen Fatima. Polymer and Ceramic Electrolytes for Energy Storage Devices, Two-Volume Set. Taylor & Francis Group, 2021.

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27

Raghavan, Prasanth y Jabeen Fatima M. J. Polymer and Ceramic Electrolytes for Energy Storage Devices Two-Volume Set. Taylor & Francis Group, 2021.

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28

Polymer Electrolytes for Energy Storage Devices. Taylor & Francis Group, 2021.

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29

Coughanowr, Corinne Ann. Solid-state electrochemisty and thermodynamic assessment in the A1-In-Sb system. 1989.

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30

(Editor), S. Radhakrishna, ed. Materials for Solid State Batteries: Proceedings of the Regional Workshop, Nus, Singapore, June 2-6, 1985. World Scientific Pub Co Inc, 1986.

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31

Nazri, Gholam-Abbas y Christian Julien. Solid State Batteries: Materials Design and Optimization. Springer London, Limited, 2013.

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32

Nazri, Gholam-Abbas y Christian Julien. Solid State Batteries: Materials Design And Optimization. Springer, 2014.

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33

Nazri, Gholam-Abbas y Christian Julien. Solid State Batteries: Materials Design and Optimization. Springer, 2014.

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34

Lemmon, John P. The synthesis and characterization of components for solid-state lithium cells: Amorphous polyether-salt complexes, planar-sheet graphite fluorides, and layered organic/inorganic nanocomposites. 1994.

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35

Ceramic and Specialty Electrolytes for Energy Storage Devices. Taylor & Francis Group, 2021.

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36

Raghavan, Prasanth y Jabeen Fatima. Ceramic and Specialty Electrolytes for Energy Storage Devices. Taylor & Francis Group, 2021.

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37

Raghavan, Prasanth y Jabeen Fatima. Ceramic and Specialty Electrolytes for Energy Storage Devices. Taylor & Francis Group, 2021.

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38

Sloop, Steven E. Synthesis and characterization of polymer electrolytes and related nanocomposites. 1996.

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39

Writer, Beta. Lithium-Ion Batteries: A Machine-Generated Summary of Current Research. Springer, 2019.

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40

(Editor), S. Radhakrishna, ed. Solid State Ionic Devices: Proceedings of the International Seminar (Wspc-Costed Series in Emerging Technology). World Scientific Pub Co Inc, 1988.

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41

Nazri, Gholam-Abbas y Christian Julien. Solid State Batteries: Materials Design and Optimization (The International Series in Engineering and Computer Science). Springer, 1994.

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42

Innovative Antriebe 2016. VDI Verlag, 2016. http://dx.doi.org/10.51202/9783181022894.

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Rechargeable Energy Storage Technologies for Automotive Applications Abstract This paper provides an extended summary of the available relevant rechargeable energy storage electrode materials that can be used for hybrid, plugin and battery electric vehicles. The considered technologies are the existing lithium-ion batteries and the next generation technologies such as lithium sulfur, solid state, metal-air, high voltage materials, metalair and sodium based. This analysis gives a clear overview of the battery potential and characteristics in terms of energy, power, lifetime, cost and finally the technical hurdles. Inhalt Seite Vorwort 1 Alternative Energiespeicher – und Wandler S. Hävemeier, Neue Zelltechnologien und die Chance einer deutschen 3 M. Hackmann, Zellproduktion – Betrachtung von Technologie, Wirtschaft- R. Stanek lichkeit und dem Standort Deutschland N. Omar, Rechargeable Energy Storage Technologies for 7 R. Gopalakrishnan Automotive Applications – Present and Future ...
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43

Kumta, Prashant N., S. K. Sundaram, Arumugam Manthiram y Siu-Wai Chan. Developments in Solid Oxide Fuel Cells and Lithium Ion Batteries: Proceedings of the 106th Annual Meeting of the American Ceramic Society, Indianapolis, Indiana, USA 2004. Wiley & Sons, Limited, John, 2012.

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44

(Editor), Arumugam Manthiram, Prashant N. Kumta (Editor), S. K. Sundaram (Editor) y Siu-Wai Chan (Editor), eds. Developments in Solid Oxide Fuel Cells and Lithium Ion Batteries: Proceedings of the 106th Annual Meeting of the American Ceramic Society, Indianapolis, ... Transactions) (Ceramic Transactions Series). Wiley-American Ceramic Society, 2005.

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45

Pershina, K. D. y K. O. Kazdobin. Impedance spectroscopy of electrolytic materials. V.I. Vernadsky Institute of General and Inorganic Chemistry, 2012. http://dx.doi.org/10.33609/guide.2012.224.

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Electrochemical impedance spectroscopy (EIS) is playing an increasingly significant role in fundamental and applied research: to study any type of solid and liquid materials (ionic, mixed, semiconductor, and insulators), to study charge transfer in heterogeneous systems, including phase boundaries, electrode boundaries, and elements of the microstructure. With the help of EIS, it is possible to study the behavior of chemical sensors, fuel cells, batteries, and corrosion processes. The base of the method stays on the principle of exciting any electrochemical system with a signal in the form of a sinusoidal wave and observing its behavior in response to this disturbance. This is the simplest method for determining the structural and transport functions of the system under study. This is the simplest method for determining the structural and transport functions of the system under study. The book discusses the theoretical foundations of the method of impedance spectroscopy, including the method of equivalent circuits, and provides examples of the analysis of impedance spectra for real objects. The main attention is paid to the model elements of equivalent circuits, their physical base, and the use of the models in the analysis of electrochemical systems. Handbook consists of seven chapters. It has questions and tasks to self-work after each part. It is intended for students of chemical, chemical-technological, and biomedical specialties, as well as for specialists engaged in research in the field of materials science, medicine, and ecology.
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