Graphene Network Scaffolded Flexible Electrodes—From Lithium to Sodium Ion Batteries (eBook)
XII, 122 Seiten
Springer Singapore (Verlag)
978-981-13-3080-3 (ISBN)
Research on deformable and wearable electronics has promoted an increasing demand for next-generation power sources with high energy/power density that are low cost, lightweight, thin and flexible. One key challenge in flexible electrochemical energy storage devices is the development of reliable electrodes using open-framework materials with robust structures and high performance.
Based on an exploration of 3D porous graphene as a flexible substrate, this book constructs free-standing, binder-free, 3D array electrodes for use in batteries, and demonstrates the reasons for the research transformation from Li to Na batteries. It incorporates the first principles of computational investigation and in situ XRD, Raman observations to systematically reveal the working mechanism of the electrodes and structure evolution during ion insertion/extraction. These encouraging results and proposed mechanisms may accelerate further development of high rate batteries using smart nanoengineering of the electrode materials, which make 'Na ion battery could be better than Li ion battery' possible.
Research on deformable and wearable electronics has promoted an increasing demand for next-generation power sources with high energy/power density that are low cost, lightweight, thin and flexible. One key challenge in flexible electrochemical energy storage devices is the development of reliable electrodes using open-framework materials with robust structures and high performance.Based on an exploration of 3D porous graphene as a flexible substrate, this book constructs free-standing, binder-free, 3D array electrodes for use in batteries, and demonstrates the reasons for the research transformation from Li to Na batteries. It incorporates the first principles of computational investigation and in situ XRD, Raman observations to systematically reveal the working mechanism of the electrodes and structure evolution during ion insertion/extraction. These encouraging results and proposed mechanisms may accelerate further development of high rate batteries using smart nanoengineering of the electrode materials, which make Na ion battery could be better than Li ion battery possible.
General Introduction.- Vanadium Pentoxide for Li-Ion Storage.- Vanadium Dioxide for Li- and Na-Ion Storage.- Na3(VO)2(PO4)2F Array for Cathode of Na-Ion Battery.- SnS Array for Anode of Na-Ion Battery.- Future Work.
| Erscheint lt. Verlag | 11.12.2018 |
|---|---|
| Reihe/Serie | Springer Theses | Springer Theses |
| Zusatzinfo | XII, 122 p. 75 illus., 64 illus. in color. |
| Verlagsort | Singapore |
| Sprache | englisch |
| Themenwelt | Naturwissenschaften ► Chemie ► Physikalische Chemie |
| Technik ► Elektrotechnik / Energietechnik | |
| Schlagworte | 3D Graphene Foam • Electrochemical Energy Storage (EES) • Graphene Network Scaffolded Anode Materials • Graphene Network Scaffolded Cathode Materials • Lithium Ion Battery (LIB) • Sodium Ion Battery (SIB) • Sodium Vanadium Fluorophosphate (NVOPF) • Vanadium Dioxide • Vanadium Pentoxide |
| ISBN-10 | 981-13-3080-8 / 9811330808 |
| ISBN-13 | 978-981-13-3080-3 / 9789811330803 |
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