L Monconduit
John Wiley & Sons
e druk, 2015
9781848217218
Electrodes for Li–ion Batteries: Materials, Mechan isms and Performance
Materials, Mechanisms and Performance
Specificaties
Paperback, 100 blz.
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Engels
John Wiley & Sons |
e druk, 2015
ISBN13: 9781848217218
Rubricering
Juridisch
:
Levertijd ongeveer 9 werkdagen
Gratis verzonden
Specificaties
Inhoudsopgave
ACKNOWLEDGMENTS vii
<p>PREFACE ix</p>
<p>INTRODUCTION xi</p>
<p>CHAPTER 1. NEGATIVE ELECTRODES 1</p>
<p>1.1. Preamble 1</p>
<p>1.2. Classic materials: insertion mechanism 3</p>
<p>1.2.1. Graphitic carbon 3</p>
<p>1.2.2. Titanium oxides 7</p>
<p>1.3. Toward other materials and other mechanisms 13</p>
<p>1.3.1. Silicon 14</p>
<p>1.3.2. Other block p elements 19</p>
<p>1.4. Summary on negative electrodes 27</p>
<p>CHAPTER 2. POSITIVE ELECTRODES 29</p>
<p>2.1. Preamble 29</p>
<p>2.2. Layered transition metal oxides as positive electrode materials for Li–ion batteries: from LiCoO2 to Li1+xM1–xO2 30</p>
<p>2.2.1. The layered oxide LiCoO2: the starting point 31</p>
<p>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) 34</p>
<p>2.2.3. Electrode/electrolyte interfaces and aging phenomena in layered oxides 40</p>
<p>2.2.4. High–capacity Li–rich layered oxides 43</p>
<p>2.3. Alternatives to layered oxides 49</p>
<p>2.3.1. Materials with spinel structure: from LiMn2O4 to LiNi1/2Mn3/2O4 50</p>
<p>2.3.2. The olivine phase LiFePO4: a small revolution 57</p>
<p>CONCLUSION 63</p>
<p>BIBLIOGRAPHY 65</p>
<p>INDEX 81</p>
<p>PREFACE ix</p>
<p>INTRODUCTION xi</p>
<p>CHAPTER 1. NEGATIVE ELECTRODES 1</p>
<p>1.1. Preamble 1</p>
<p>1.2. Classic materials: insertion mechanism 3</p>
<p>1.2.1. Graphitic carbon 3</p>
<p>1.2.2. Titanium oxides 7</p>
<p>1.3. Toward other materials and other mechanisms 13</p>
<p>1.3.1. Silicon 14</p>
<p>1.3.2. Other block p elements 19</p>
<p>1.4. Summary on negative electrodes 27</p>
<p>CHAPTER 2. POSITIVE ELECTRODES 29</p>
<p>2.1. Preamble 29</p>
<p>2.2. Layered transition metal oxides as positive electrode materials for Li–ion batteries: from LiCoO2 to Li1+xM1–xO2 30</p>
<p>2.2.1. The layered oxide LiCoO2: the starting point 31</p>
<p>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) 34</p>
<p>2.2.3. Electrode/electrolyte interfaces and aging phenomena in layered oxides 40</p>
<p>2.2.4. High–capacity Li–rich layered oxides 43</p>
<p>2.3. Alternatives to layered oxides 49</p>
<p>2.3.1. Materials with spinel structure: from LiMn2O4 to LiNi1/2Mn3/2O4 50</p>
<p>2.3.2. The olivine phase LiFePO4: a small revolution 57</p>
<p>CONCLUSION 63</p>
<p>BIBLIOGRAPHY 65</p>
<p>INDEX 81</p>
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