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Gran Área: Ciencias exactas y naturales
Área: Ciencias químicas
Subárea: Electroquímica

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Resultado: 9 registro(s)

22833

Energy

Electrochemical Storage and Sustainable Development

 

Paris: Collège de France, 2017.

Título de la serie/colección: Leçons inaugurales - Collège de France. ISSN 0294-0310,

ISBNs 9782722602830

Colección: Directory of Open Access Books

Resumen (en inglés): The storage and conversion of energy is one of the major scientific challenges of the decades to come, with high stakes for the environment. What new materials will allow for more efficient and “cleaner” batteries to be developed? Jean-Marie Tarascon reviews these issues and their implications for our future and that of the planet. In particular, he discusses lithium-ion technology, the contribution of nanotechnologies, and current research using bio-inspired methods to develop innovations such as electrode material obtained from biomass through “green chemistry”.


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9115

Fuel Cell Technologies

State and Perspectives: Proceedings of the NATO Advanced Research Workshop on Fuel Cell Technologies: State and Perspectives Kyiv, Ukraine 6-10 June 2004 Vol. 202

 

13th ed. Dordrecht: Springer, 2005.

Título de la serie/colección: NATO Science Series, Mathematics, Physics and Chemistry. ISSN 1568-2609,

ISBNs 9781402034961 9781402034985

Colección: SpringerLink


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1370

Handbook of Chlor-Alkali Technology

Vol. 1

 

13th ed. Boston, MA: Springer Science+Business Media, 2005.

ISBNs 9780306486234 9780306486241

Colección: SpringerLink


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27437

L’énergie

Stockage électrochimique et développement durable Vol. 216

 

Paris: Collège de France, 2011.

Título de la serie/colección: Leçons inaugurales - Collège de France. ISSN 0294-0310,

ISBNs 9782213662459 9782722601260

Colección: Directory of Open Access Books

Resumen (en francés): Le stockage et la conversion de l’énergie sont un des grands défis scientifiques des prochaines décennies et un enjeu environnemental majeur. Quels nouveaux matériaux vont permettre de fabriquer des batteries plus efficaces et plus « propres » ? Jean-Marie Tarascon fait le point sur ces questions qui concernent notre avenir et celui de la planète. Il présente notamment les technologies à ions Lithium, l’apport des nanaotechnologies, et les recherches visant à l’élaboration des matériaux par des méthodes « bio-inspirées » : l’utilisation des matériaux d'électrodes provenant de la biomasse et obtenues par « chimie verte ».


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29600

Polyoxometalates

Vol. Special Issue

 

MDPI AG - Multidisciplinary Digital Publishing Institute, 2016.

Título de la serie/colección: Inorganics. ISSN 2304-6740,

ISBNs 9783038421610 9783038421627

Colección: Directory of Open Access Books

Resumen (en inglés): Polyoxometalates (POMs), known since the mid-18th century, have fascinated generations of researchers and continue to attract promising young scientists to date. Ever since the first pioneering investigations into the manifold structures and properties of POMs, polyoxometalate chemistry emerged as an independent and highly productive area of research, with constant and exciting new developments from an exceptionally wide range of scientific disciplines, such as synthetic/structural chemistry, biology, physics and theoretical chemistry. Indeed, polyoxometalates as highly versatile transition metal oxo-cluster materials offer virtually endless options for future applied devices. They excel through their: wide compositional and structural diversity, giving rise to flexible tuning of electronic properties, versatile redox properties, chemical stability and robustness. Among this growing family of oxo-clusters, two POM classes, namely transition metal substituted polyoxometalates (TMSPs) and lanthanide substituted polyoxometalates (LnSPs), are currently attracting special interest due to their promising role in current competitive research areas, e.g., water splitting, catalysis, magnetism, electronic materials and bio-medical applications. This Special Issue focuses on the most recent advances in polyoxometalate chemistry covering synthetic methods, mechanistic insights and application perspectives in photocatalysis (water splitting), organic catalysis, magnetism, bio-medicine, electrochemistry and other currently relevant areas.


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9036

Quantum Interference and Coherence

Theory and Experiments Vol. 100

 

13th ed. New York, NY: Springer Science+Business Media, 2005.

Título de la serie/colección: Springer Series in Optical Sciences. ISSN 0342-4111,

ISBNs 9780387229652 9780387258355

Colección: SpringerLink


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7954

Recent Trends in Fuel Cell Science and Technology

 

13th ed. New York, NY: Anamaya Publishers, 2007.

ISBNs 9780387355375 9780387688152

Colección: SpringerLink


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6620

Superconductivity in Complex Systems

Vol. 114

 

13th ed. Berlin, Heidelberg: Springer-Verlag GmbH, 2005.

Título de la serie/colección: Structure and Bonding. ISSN 0081-5993,

ISBNs 9783540231240 9783540314998

Colección: SpringerLink


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26725

Ydrides

Fundamentals and Applications Vol. Special Issue

 

MDPI AG - Multidisciplinary Digital Publishing Institute, 2017.

Título de la serie/colección: Energies. ISSN 1996-1073,

ISBNs 9783038422099 9783038422082

Colección: Directory of Open Access Books

Resumen (en inglés): The reversible elimination of hydrogen from metal hydrides serves as the basis for unique methods of energy transformation. This technology has found widespread practical utilization in applications such as hydrogen compressors, storage, and sensors, as well as batteries. Moreover, it is plausible that metal hydride technology could be utilized to provide practically viable solutions to the challenges of energy storage. For nearly two decades, an extensive, worldwide research effort has been devoted to complex metal hydrides possessing high volumetric and/or gravimetric hydrogen densities with the goal of their practical utilization as onboard hydrogen storage materials. Additionally, a significant and growing number of efforts have been devoted to developing metal hydrides as advanced sensors and ionic conductors, and for electrochemical and stationary energy storage. This Special Issue will provide a sampling of on-going, state-of-art research on metal hydrides, ranging from fundamental investigations to practical applications with a concentration on topics which are currently of high interest.


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