UID:
almafu_9959327567602883
Format:
1 online resource :
,
illustrations (some color)
ISBN:
9781119007364
,
1119007364
,
9781119007371
,
1119007372
,
9781119007388
,
1119007380
Series Statement:
Energy series: Energy storage - Batteries and supercapacitors set ; Volume 2
Content:
The 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. The RS2E focuses its research on rechargeable electrochemical devices (or electrochemical storage) batteries and supercapacitors. The materials used in the electrodes are key components of lithium-ion batteries. Their nature depend battery performance in terms of mass and volume capacity, energy density, power, durability, safety, etc. This book deals with current and future positive and negative electrode materials covering aspects related to research new and better materials for future applications (related to renewable energy storage and transportation in particular), bringing light on the mechanisms of operation, aging and failure.
Note:
""Cover""; ""Title Page""; ""Copyright""; ""Contents""; ""Acknowledgments""; ""Preface""; ""Introduction""; ""Toward efficient Li-ion batteries""; ""1: Negative Electrodes""; ""1.1. Preamble""; ""1.2. Classic materials: insertion mechanism""; ""1.2.1. Graphitic carbon""; ""1.2.1.1. Lithium intercalation mechanisms""; ""1.2.1.2. Electrode/electrolyte interface and additives""; ""1.2.2. Titanium oxides""; ""1.2.2.1. Li4Ti5O12""; ""1.2.2.2. TiO2""; ""1.2.2.3. Different crystallographic arrangements""; ""1.2.2.4. Performances and mechanisms""; ""1.2.2.5. Optimizations""
,
""1.3. Toward other materials and other mechanisms""""1.3.1. Silicon""; ""1.3.1.1. Lithiation/delithiation mechanisms""; ""1.3.1.2. Nanostructured silicon""; ""1.3.1.3. Electrode formulation""; ""1.3.1.4. Aging mechanisms""; ""1.3.2. Other block p elements""; ""1.3.2.1. The alloys""; ""1.3.2.2. The conversion materials""; ""1.3.2.3. Limitations: volume changes and instability of the SEI""; ""1.3.2.4. Nanostructuration""; ""1.3.2.5. Electrode formulation""; ""1.3.2.6. Electrolyte formulation: the effect of additives""; ""1.4. Summary on negative electrodes""; ""2: Positive Electrodes""
,
""2.1. Preamble""""2.2. Layered transition metal oxides as positive electrode materials for Li-ion batteries: from LiCoO2 to Li1+xM1-xO2""; ""2.2.1. The layered oxide LiCoO2: the starting point""; ""2.2.2. From LiNiO2, initially explored as an alternative to LiCoO2, to the commercialization of LiNi0.80Co0.15Al0.05O2 (NCA) and LiNi1/3Mn1/3Co1/3O2 (NMC)""; ""2.2.3. Electrode/electrolyte interfaces and aging phenomena in layered oxides""; ""2.2.4. High-capacity Li-rich layered oxides""; ""2.2.4.1. Toward unprecedented gravimetric capacities""
,
""2.2.4.2. Surface phenomena and electrode/electrolyte interface stabilization""""2.2.4.3. Conclusion""; ""2.3. Alternatives to layered oxides""; ""2.3.1. Materials with spinel structure: from LiMn2O4 to LiNi1/2Mn3/2O4""; ""2.3.1.1. LiMn2O4, a material with three-dimensional structure""; ""2.3.1.2. Dissolution of LiMn2O4 at the interface with the electrolyte""; ""2.3.1.3. LiNi0.5Mn1.5O4: toward high potentials""; ""2.3.1.4. Improving the electrode/electrolyte interface at high potential""; ""2.3.2. The olivine phase LiFePO4: a small revolution""; ""Conclusion""; ""Bibliography""; ""Index""
Additional Edition:
Print version: Monconduit, Laure. Electrodes for li-ion batteries. London : ISTE, 2015 ISBN 9781848217218
Additional Edition:
ISBN 1848217218
Language:
English
Keywords:
Electronic books.
;
Electronic books.
;
Electronic books.
URL:
https://onlinelibrary.wiley.com/doi/book/10.1002/9781119007364
URL:
https://onlinelibrary.wiley.com/doi/book/10.1002/9781119007364
URL:
https://onlinelibrary.wiley.com/doi/book/10.1002/9781119007364
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