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Why do <span class="highlight">batteries</span> fail?

... modeling approaches. We explore the state of the art with respect to materials as well as usage (temperature, charge/discharge rate, etc.) for lead-acid, nickel-cadmium, nickel–metal hydride, and lithium-ion ...

2017

... by Synchrotron Radiation Chapter: Studies of Lithium-Oxygen Battery Electrodes by Energy- Dependent Full-Field Transmission Soft X-Ray MicroscopyEdition: (pp. 95-116). InTech Open Access Publisher, 2017. ...

SOMM Alliance

... l the replacement in the future of the currently omnipresent Lithium–ion batteries. From mobiles to laptops, drills to hedge trimmers, or electric bicycles and cars, these batteries are used in countle ...

2018

... 04.070 Published: SEP 1 2018  Using polyoxometalates to enhance the capacity of lithium-oxygen batteries Homewood, T; Frith, JT; Vivek, JP; Casan-Pastor, N; Tonti, D; Owen, JR; Garcia-Araez, N CHEMICAL COMMUNIC ...

2019

... Pato, N; Cornil, J; Veciana, J; Ratera, I JOURNAL OF MATERIALS CHEMISTRY C  Volume: 7 Issue: 24 Pages: 7418-7426 Published: JUN 28 2019 Document type: Article DOI: 10.1039/c9tc00906j Role of Manganes ...

1999

... ystem. Application as a High-Capacity Hybrid Cathode for Rechargeable Lithium Batteries. Journal of the Electrochemical Society, 146 (6), (1999), pp. 2029-2033. M. Lira-Cantú and P. Gómez-Romero.  ...

2000

... ganic-inorganic materials . Hexacyanoferrate-doped polypyrrole as cathode in reversible lithium cells. Journal of The Electrochemical Society, 147 (7), (2000), pp. 2513-2516.G. Torres-Gómez, S. Skaarup, ...

2001

...  67.- Integration of hexacyanoferrate as an active species in a molecular hybrid material. Transport properties and application of polyaniline / hexacyanoferrate as a cathode in rechargeable lithium batterie ...

2003

... e first lithium manganese oxynitride, Li7.9MnN5-yOy: preparation and use as electrode material in lithium batteries Journal of Materials Chemistry, 13 (10), (2003), pp. 2402-2404 J. Cabana, G. Rousse, A ...

2004

... z, C. Viñas, F. Teixidor, I. Mata and E. Molins   88.- Antifluorite-type lithium chromium oxide nitrides: Synthesis, structure, order, and electrochemical properties Inorganic Chemistry, 43 (22), (20 ...

2005

untitled * h1 a .p, p .s1 h2 .s2 .s3 .s4 .s5 .s6 .s7 .s8 Articles in journals, 2005 A.- THEORETICAL PHYSICS AND CHEMISTRY: MODELLING AND SIMULATION OF MATERIALS ...

2006

... or rechargeable lithium batteries Electrochemical and Solid State Letters, 9 (3), (2006), pp. A139-A143 52.-        I.A.M. de Oliveira M. Pla-Roca, Ll. Escriche, J. Casaboó, N. Zine, J. Bausells ...

2007

... a high temperature electrochemical cell for lithium batteries Electrochemistry Communications, 9 (4), (2007), pp. 708-712 88.-     A.K. Cuentas-Gallegos, R. Martínez-Rosales, M. Baibarac, P. Gó ...

2010

... ca aerogel (2010) Journal of Materials Chemistry, 20 (23), pp. 4875-4883  80. Cabana, J.; Ionica-Bousquet, C.M.; Grey, C.P.; Palacin, M.R. High rate performance of lithium manganese nitride and o ...

2012

... included in line 1.2 104.  Ponrouch, A.; Palacín, M.R. Optimisation of performance through electrode formulation in conversion materials for lithium ion batteries: Co3O4 as a case example (2012) ...

2011

...  Also included in line 1.2 93.     Gillot, F.; Oró-Solé, J.; Palacín, M.R. Nickel nitride as negative electrode material for lithium ion batteries (2011) Journal of Materials Chemistry, 21, pp. 9997- ...

2013

... 79 142.    Senguttuvan, P; Rousse, G; Oró-Solé, J; Tarascon, JM; Palacín, MR A low temperature TiP2O7 polymorph exhibiting reversible insertion of lithium and sodium ions (2013) Journal of Mater ...

2014

... Amarilla, JM; Sanz, J Chemical vs. electrochemical extraction of lithium from the Li-excess Li1.10Mn1.90O4 spinel followed by NMR and DRX techniques (2014) Physical Chemistry Chemical Physics, 16  ...

2015

...  Wu, NL; Tonti, D Spatial Distributions of Discharged Products of Lithium-Oxygen Batteries Revealed by Synchrotron X-ray Transmission Microscopy (2015) Nano Letters, 15 (10), pp. 6932-6938 8.       ...

Bernat Meseguer

... ct involving lithium-oxygen batteries with carbon electrodes based on natural materials, under the supervision of Dr. Dino Tonti here at ICMAB; a very valuable experience which will form part of the fi ...

2017

...  Teofilo; Tonti, Dino Potassium Salts as Electrolyte Additives in Lithium-Oxygen Batteries (2017), Journal of Physical Chemistry C, 121 (7), pp. 3822-3829 25.  Royo, Miguel; Antidormi, Aleandro ...

Towards a calcium-based rechargeable battery

...  -This work proves that oxidation-reduction of calcium occurs in a reversible way in electrolytes that can operate at high potential. Calcium, a much more abundant and cheaper element than lithium, ...

Alvaro Tesio

...  INQUIMAE-University of Buenos Aires. My research interests are focus on the Oxygen Reduction Reaction and development new technologies and methods to understand the chemical of lithium-air batteries. I´l ...

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