This book provides a comprehensive summary of experimental analytical techniques applicable to wide ranges of electrochemical energy storage materials and gives the latest review of state-of-the-art methodologies.
This book provides a comprehensive summary of experimental analytical techniques applicable to wide ranges of electrochemical energy storage materials and gives the latest review of state-of-the-art methodologies.
Yongbing Tang is a Professor at Shenzhen Institute of Advanced Technology (SIAT) and Director of Advanced Energy Storage Technology Research Center, Chinese Academy of Sciences (CAS). He is a recipient of the National Science Fund for Excellent Young Scholars. Dr. Wenjiao Yao, PhD, is an Associate Researcher at the Shenzhen Institute of Advanced Technology, CAS. Her research interest covers the design and optimization of energy storage materials as well as their structure-property relationship and working mechanisms.
Inhaltsangabe
Chapter I. Introduction
Part I X-ray techniques Chapter 2. X-ray Diffraction Chapter 3. X-ray Absorption Spectroscopy Chapter 4. Photoemission spectroscopy for energy storage materials Chapter 5. Application of X-ray pair distribution function (PDF) to investigate battery systems Chapter 6. X-ray Fluorescence Microscopy Chapter 7. X-ray Tomography Microscopy Chapter 8. Transmission X-ray Microscopy Chapter 9. Coherent X-ray Diffraction Imaging
Part II. Neutron techniques Chapter 10. A General Introduction of Neutron Techniques Chapter 11. Neutron Diffraction for Energy Storage Materials Chapter 12. Neutron Scattering Chapter 13. Neutron Depth Profile Chapter 14. Neutron Imaging
Part III. Optical techniques Chapter 15. UV-Vis Spectroscopy for Energy Storage and Related Materials Chapter 16. Raman Spectroscopy Chapter 17. Fourier Transform Infrared Spectroscopy Chapter 18. Optical Microscopy
Part IV. Microwave techniques Chapter 19. Nuclear Magnetic Resonance Chapter 20. Electron Paramagnetic Resonance
Part V. Electron techniques
Chapter 21. Morphology dependent energy storage performance of supercapacitors and batteries: Scanning Electron Microscopy as an essential tool for material characterization Chapter 22. Transmission Electron Microscopy Chapter 23. Cryo-Electron Microscopy Chapter 24. Structural/chemical characterization of alkali-ion battery materials using electron energy-loss spectroscopy coupled with transmission electron microscopy Chapter 25. Scanning Tunneling Microscopy
Part VI. Advanced techniques Chapter 26. Combined in-situ techniques Chapter 27. Non-destructive techniques
Part I X-ray techniques Chapter 2. X-ray Diffraction Chapter 3. X-ray Absorption Spectroscopy Chapter 4. Photoemission spectroscopy for energy storage materials Chapter 5. Application of X-ray pair distribution function (PDF) to investigate battery systems Chapter 6. X-ray Fluorescence Microscopy Chapter 7. X-ray Tomography Microscopy Chapter 8. Transmission X-ray Microscopy Chapter 9. Coherent X-ray Diffraction Imaging
Part II. Neutron techniques Chapter 10. A General Introduction of Neutron Techniques Chapter 11. Neutron Diffraction for Energy Storage Materials Chapter 12. Neutron Scattering Chapter 13. Neutron Depth Profile Chapter 14. Neutron Imaging
Part III. Optical techniques Chapter 15. UV-Vis Spectroscopy for Energy Storage and Related Materials Chapter 16. Raman Spectroscopy Chapter 17. Fourier Transform Infrared Spectroscopy Chapter 18. Optical Microscopy
Part IV. Microwave techniques Chapter 19. Nuclear Magnetic Resonance Chapter 20. Electron Paramagnetic Resonance
Part V. Electron techniques
Chapter 21. Morphology dependent energy storage performance of supercapacitors and batteries: Scanning Electron Microscopy as an essential tool for material characterization Chapter 22. Transmission Electron Microscopy Chapter 23. Cryo-Electron Microscopy Chapter 24. Structural/chemical characterization of alkali-ion battery materials using electron energy-loss spectroscopy coupled with transmission electron microscopy Chapter 25. Scanning Tunneling Microscopy
Part VI. Advanced techniques Chapter 26. Combined in-situ techniques Chapter 27. Non-destructive techniques
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