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Thermomanagement of Li-ion batteries
ATZ worldwide, 2009With the increasing electrification of vehicle power trains, the electrical energy storage unit is assuming an ever stronger role as a key technology in the drive concept. While today’s series-produced hybrid vehicles still use nickel metal- hydrid batteries, ever-greater demands are necessitating a change in technology to the lithium-ion battery.
Achim Wiebelt +3 more
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Nature Energy, 2021
The electrolyte is an indispensable component in any electrochemical device. In Li-ion batteries, the electrolyte development experienced a tortuous pathway closely associated with the evolution of electrode chemistries.
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The electrolyte is an indispensable component in any electrochemical device. In Li-ion batteries, the electrolyte development experienced a tortuous pathway closely associated with the evolution of electrode chemistries.
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Technology of the Li-Ion Batteries
2016As we have seen in different chapters of this book, the electrodes are usually tested from half-cells consisting of lithium metal as the counter-electrode. This is a convenient tool to determine the irreversible capacity loss during the first and eventually the second cycle, the reversible capacity at available at different rates, the operating voltage.
Christian Julien +3 more
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Electrodes for Li‐Ion Batteries
2015The electrochemical energy storage is a means to conserve electrical energy in chemical form. This form of storage benefits from the fact that these two energies share the same vector, the electron. This advantage allows us to limit the losses related to the conversion of energy from one form to another.
Monconduit, Laure +2 more
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Li-Ion Nanotubes for Li-Ion and Li-Sulphur Batteries
ECS Meeting Abstracts, 2015Rechargeable lithium-ion batteries are considered to be the most promising energy storage due to their long cycle life and high specific capacity.[i] However, existing lithium-ion batteries use graphite as anode material and this is not efficient enough to reach market level to be employed in vehicles.
Nanami Yokota, Maria Alfredsson
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Nanostructured Anode Material for Li-Ion Batteries
Advances in Science and Technology, 2010The 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 +6 more
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2016
The active elements for negative (anode) electrodes are reviewed here according to the following sequence. First, the carbon anode is considered, since almost all the Li-ion batteries on the market are presently equipped with graphitic carbon. Then the next elements of the Mendeleev table (Si, Ge, …) are considered.
Christian Julien +3 more
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The active elements for negative (anode) electrodes are reviewed here according to the following sequence. First, the carbon anode is considered, since almost all the Li-ion batteries on the market are presently equipped with graphitic carbon. Then the next elements of the Mendeleev table (Si, Ge, …) are considered.
Christian Julien +3 more
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Electrochemical Li-Ion Batteries Modelisation for EV
ECS Meeting Abstracts, 2016The future development of electric vehicles is linked with their batteries. In parallel of the actual research focused on the development of new materials and increase of batteries performances in terms of energy, power, cost, durability and weight, it is necessary to develop modeling tools.
Falconi, Andrea +3 more
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Introduction to Li-ion Batteries
2016This chapter highlights the importance and principle of Lithium ion batteries (LIBs) along with a concise literature survey highlighting the research trend on the different components of LIBs namely, cathode, anode and electrolyte. The aims of the present study and the thesis outline are given at the end of the chapter.
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Nanocarbons in Li-Ion Batteries
2018The ever-increasing demand for advanced power sources with higher energy density and various form factors strongly pushes us to search for new battery materials and structures beyond current state-of-the-art Li-ion batteries (LIBs). Recent progress in nanoscience and nanotechnology suggests opportunities to develop novel electrode materials and ...
Seok-Kyu Cho +2 more
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