Results 271 to 280 of about 76,686 (315)

Anodic titania films as anode materials for lithium ion batteries

Electrochimica Acta, 2007
Abstract Titania thin films were prepared through the anodisation of titanium metal in a 1.0 M sulphuric acid solution at 80 °C utilising a series of pulsed dc constant currents of increasing magnitude. Films were then tested as a potential anode material for lithium batteries using a variety of techniques.
M.J. Lindsay, M.G. Blackford, D.J. Attard, V. Luca, M. Skyllas-Kazacos, C.S. Griffith   +5 more
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The degradation of cyanide by anodic electrooxidation using different anode materials

Process Safety and Environmental Protection, 2013
Abstract Cyanides are very popular electrolytes used in metal electroplating, metal ore processing, chemical and electrochemical applications. Due to wide utility of these technologies cyanides become increasingly harmful effluent, which has to be treated. One of the best ways to degrade cyanides is an anodic electrooxidation.
A. Valiūnienė, G. Baltrūnas, V. Keršulytė, Ž. Margarian, G. Valinčius   +4 more
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Anode Materials for High vacuum Tubes

Transactions of the American Institute of Electrical Engineers, 1935
Continued development of the high vacuum tube has played an extremely important part in the development of radio communication. Since the power output of a tube is proportional to the amount of heat that may be dissipated safely from its anode the anode is one of the most vital parts of high vacuum tubes especially those used for transmitting purposes.
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Nanostructured Anode Material for Li-Ion Batteries

Advances in Science and Technology, 2010
The present paper focuses on a nanostructured SnCo alloy electrochemically prepared by template method in view of its use as anode material alternative to graphite in lithium-ion batteries. The fabrication of SnCo nanowire arrays was carried out by potentiostatic co-deposition of the two metals by using nanostructured anodic alumina membranes as ...
FERRARA, Germano, Arbizzani, C, Damen, L, INGUANTA, Rosalinda, PIAZZA, Salvatore, SUNSERI, Carmelo, Mastragostino, M.   +6 more
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Trends in catalytic activity for SOFC anode materials

Solid State Ionics, 2008
Quantum mechanical calculations on the level of density-functional theory are used to calculate the stability of surface-adsorbed hydrogen atoms, oxygen atoms, and hydroxyl radicals for a variety of metals (Mn, Fe, Co, Ni, Cu, Ru, Rh, Pd, Ag, Pt, Au) that may be used as electrode materials for solid oxide fuel cell (SOFC) anodes.
Rossmeisl, Jan, Bessler, Wolfgang G.
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Anodized Ti₃SiC₂ As an Anode Material for Li-ion Microbatteries

ACS Applied Materials & Interfaces, 2016
We report on the synthesis of an anode material for Li-ion batteries by anodization of a common MAX phase, Ti3SiC2, in an aqueous electrolyte containing hydrofluoric acid (HF). The anodization led to the formation of a porous film containing anatase, a small quantity of free carbon, and silica.
Alexander T, Tesfaye, Olha, Mashtalir, Michael, Naguib, Michel W, Barsoum, Yury, Gogotsi, Thierry, Djenizian   +5 more
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Preparation of Anode-Supported SOFC Electrolyte Membrane and Porous Anode Material

Materials Science Forum, 2016
The graphite was used as pore-forming agent to prepare porous NiO-Yttria-stabilized zirconia (YSZ) anode material. The influence of the content of pore-forming agent of the anode material, and the change of the anode material before and after the reduction of NiO were investigated.
Fei Li, Jing De Zhang, Jun Peng Luan, Ya Lei Liu   +3 more
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Technologies and Materials to Enable Advanced Anode and Cathode Materials

ECS Meeting Abstracts, 2016
The increased adoption of electric vehicle technologies is driving the demand for higher energy density batteries.  Since the lithium ion battery was first commercialized 25 years ago in 1991, significant improvements have been achieved through both battery design and material innovations.
Brian Fitch, Marina Yakovleva, Scott Meiere   +2 more
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Alloy-Based Anode Materials

2015
After more than 20 years of steady progress, lithium-ion batteries seem to have reached their asymptotic storage capacity values with the present combination of graphite at the anode and insertion oxide or phosphate materials at the cathode. New applications, particularly for all-electric vehicles are pushing the development of electrode materials with
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Anodic materials for rechargeable Li-batteries

Journal of Power Sources, 2002
Abstract Six sub-micro-crystalline alloy powders (Sn–Sb, Sn–Ag, Sb–Ag, and Sn–Sb–Ag alloys), where all constituents are able to alloy reversibly with Li and which are therefore characterized by large theoretical Li storage capacities, have been synthesized by chemical precipitation with NaBH 4 , and their composite electrodes have been ...
Mario Wachtler, Martin Winter, Jürgen O. Besenhard   +2 more
openaire   +1 more source