Large-scale production of paper-based Li-ion cells / Lorenzo Zolin.
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Full Text (via Springer) |
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| Main Author: | |
| Format: | eBook |
| Language: | English |
| Published: |
Switzerland :
Springer,
[2016]
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| Series: | PoliTO Springer series.
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| Subjects: |
Table of Contents:
- Preface; Contents; Part I Introductory Section; 1 Electrochemical Power Sources; Abstract; 1.1 Glossary and Quantities Characterizing Batteries; 1.2 Secondary Batteries; 1.2.1 The Lead-Acid Battery; 1.2.2 The Nickel-Cadmium Battery; 1.2.3 The Nickel-Metal Hydride Battery; References; 2 Lithium-Based Batteries; Abstract; 2.1 Brief History of Lithium Batteries; 2.2 The Lithium Batteries Today; 2.3 Characteristics of Li-Ion Batteries; 2.4 Working Principles of a Li-Ion Battery; 2.5 Li-Ion Batteries Components; 2.5.1 Anode Materials; 2.5.1.1 Carbon Based Anode Materials.
- 2.5.1.2 Tin Based Anode Materials2.5.1.3 Silicon Based Anode Materials; 2.5.1.4 Titanium Based Anode Materials; 2.5.1.5 Transition Metal Oxides Based Anode Materials; 2.5.2 Cathode Materials; 2.5.2.1 Layered Transition Metal Oxides; 2.5.2.2 Spinel Structure Compounds; 2.5.2.3 Olivine Structured Compounds; 2.5.2.4 Orthosilicates Compounds; 2.5.3 Electrolytes; 2.5.4 Separators; 2.5.5 Binders; References; 3 Cellulose and Cellulose Derivatives in Li-Ion Batteries; Abstract; 3.1 New Concepts for Electrochemical Energy Storage Devices; 3.1.1 Paper-Based Li-Ion Batteries.
- 3.1.1.1 Cellulose-Based Separators and Electrolytes3.1.1.2 Cellulose-Based Electrodes; 3.1.2 The Use of Cellulose in Other Electrochemical Energy Storage Devices; References; Part II Experimental and Results Section; 4 Methods and Materials; Abstract; 4.1 Materials; 4.2 Microfibrillated Cellulose Preparation; 4.3 Composite Gel-Polymer Electrolyte (GPE) Preparation; 4.4 Cellulose Fibre Preparation; 4.5 Thickness, Basis Weight and Retention Measurements; 4.6 SEM and FESEM Measurements; 4.7 Electronic Conductivity Tests; 4.8 Tensile Tests; 4.9 Electrochemical Tests; 4.9.1 Test Cells Assembly.
- 4.9.2 Galvanostatic Cycling Technique4.9.3 Cyclic Voltammetry; 4.9.4 Ionic Conductivity Tests; 4.9.5 Electrochemical Stability Measurements; References; 5 Electrode Preparation Exploiting Filtration; Abstract; 5.1 Filtration Procedure; 5.2 Paper-Based Anode; 5.3 Paper-Based Cathode; 5.4 Complete All-Paper Cell; References; 6 Electrode Preparation Exploiting the Spray Coating Technique; Abstract; 6.1 Paper Substrate and Preliminary Spray Coating; 6.2 Spray Coated Graphite Anode; 6.2.1 Pilot-Scale Elaboration of FB-GP/CB/MFC Anodes.
- 6.2.2 Evaluation of the Electrochemical Properties of FB-GP/CB/MFC Anodes6.3 Spray Coated LiFePO4 Cathode; 6.3.1 Pilot-Scale Elaboration of FB-LiFePO4/CB/MFC Cathodes; 6.3.2 Evaluation of the Electrochemical Properties of FB-LiFePO4/CB/MFC Cathodes; 6.4 From Bi-Layered Electrodes to Complete All-Paper Li-Ion Cell; 6.5 Conclusions; 6.6 Future Target and Prospective; References; 7 Li-Ion Cell Separator; Abstract; 7.1 Paper Based Separator; 7.2 MFC Reinforced Gel Polymer Electrolytes; References; 8 Carbonization Procedure Towards Highly Conductive Paper Electrodes; Abstract.