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About Sodium Ion Batteries and its manufacturing

Engineering

19th Aug, 2023
DEVELOPMENT OF DOPED SODIUM VANADIUM FLURO-PHOSPHATE CATHODE
MATERIALS FOR SODIUM ION BATTERIES
Presented by:
Sameer Tirkey
Roll No.: 22CH60R14
IIT Kharagpur
1

Table of contents
Introduction
Batteries
Why Commercialize NIBs.?
Components of Battery
Different cathode materials
Sodium Vanadium Fluorophosphates (NVPF)
Why NVPF
NVPF by Sol-gel method
NVPF by Hydrothermal method
Comparison of Synthesis Methods
References
2

Introduction
Batteries
 Electrochemical devices that convert chemical
energy into electrical energy.
 Consist of two electrodes (anode and cathode)
separated by an electrolyte
 Chemical reactions in a battery involve the flow of
electrons from one electrode to another
Fig1: Electrochemical Cell 3

Why Commercialize NIB’s.?
1. An effective, drop-in replacement technology for LIBs in many applications
2. Cost-Effectiveness: Sodium-ion batteries can potentially use cheaper materials compared to lithium-ion batteries.
3. Resource Availability: Lithium-ion batteries rely on limited lithium resources, Sodium is more abundant and widely
available than lithium.
4. Research: Commercializing sodium-ion batteries stimulates research and development in battery technology.
5. Environmental Benefits: Sodium-ion batteries might have a smaller environmental footprint compared to lithium-ion
batteries.
4

Components of Battery
1. Electrodes
2. Electrolyte
3. Separators
4. Terminal
5. Current collectors
Fig 3: Components of battery
5

Sodium Vanadium Fluorophosphates
• Class of cathode materials known as sodium
vanadium fluorophosphate (Na3V2(PO4)2F or NVPF)
• Three-dimensional vanadium-oxygen polyhedral
linked by phosphate and fluoride groups
• Result in a higher energy density
• Abundance of the elements in NVPF materials
• Strong thermal stability and are inexpensive
7

Why NVPF
MERITS DEMERTIS
High thermal stability Limited research
Low cost Low conductivity
High operating voltage Safety concerns
Environmentally friendly Limited temperature range
Good electrochemical performance
8

NVPF by Hydrothermal Method
• NH4VO3, NH4H2PO4, and NaF aqueous solutions were mixed in a mole ratio of 2 : 2 : 3 with
citric acid under magnetic stirring for 1 h
• The mixture solution was transferred to a Teflon vessel and heated at 180 °C for 12 h.
10

Comparison of Synthesis Methods
Sol-gel Method Hydrothermal Method
• High Purity • High crystallinity and purity
• Good control over particle
size
• Good control over particle
size
• Large Porosity • Homogeneity
• High Scalability Synthesis of inorganic materials
• Fabrication of ceramics or
glasses
11

References
• [1] J. Xu, D. H. Lee and Y. S. Meng, Funct. Mater. Lett., 2013, 6(01), 1330001.
• [2] V. Palomares, P. Serras, L. Villaluenga, K. B. Hueso and T. Rojo, Energy and Environ. Sci., 2012, 5(3), 5884-
5901.
• [3] N. Yabuuchi, K. Kubota, M. Dahbi and S. Komaba, Chem. Rev., 2014, 114(23), 11636-11682.
• [4] W. Song, X. Cao, Z. Wu, J. Chen, Y. Zhu, H. Hou, Q. Lan and X. Ji, Langmuir, 2014, 30(41), 12438-12446.
12

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MTP Presentation copy(ppt).pptx

1. 19th Aug, 2023 DEVELOPMENT OF DOPED SODIUM VANADIUM FLURO-PHOSPHATE CATHODE MATERIALS FOR SODIUM ION BATTERIES Presented by: Sameer Tirkey Roll No.: 22CH60R14 IIT Kharagpur 1

2. Table of contents Introduction Batteries Why Commercialize NIBs.? Components of Battery Different cathode materials Sodium Vanadium Fluorophosphates (NVPF) Why NVPF NVPF by Sol-gel method NVPF by Hydrothermal method Comparison of Synthesis Methods References 2

3. Introduction Batteries  Electrochemical devices that convert chemical energy into electrical energy.  Consist of two electrodes (anode and cathode) separated by an electrolyte  Chemical reactions in a battery involve the flow of electrons from one electrode to another Fig1: Electrochemical Cell 3

4. Why Commercialize NIB’s.? 1. An effective, drop-in replacement technology for LIBs in many applications 2. Cost-Effectiveness: Sodium-ion batteries can potentially use cheaper materials compared to lithium-ion batteries. 3. Resource Availability: Lithium-ion batteries rely on limited lithium resources, Sodium is more abundant and widely available than lithium. 4. Research: Commercializing sodium-ion batteries stimulates research and development in battery technology. 5. Environmental Benefits: Sodium-ion batteries might have a smaller environmental footprint compared to lithium-ion batteries. 4

5. Components of Battery 1. Electrodes 2. Electrolyte 3. Separators 4. Terminal 5. Current collectors Fig 3: Components of battery 5

6. Different Cathode Materials 6

7. Sodium Vanadium Fluorophosphates • Class of cathode materials known as sodium vanadium fluorophosphate (Na3V2(PO4)2F or NVPF) • Three-dimensional vanadium-oxygen polyhedral linked by phosphate and fluoride groups • Result in a higher energy density • Abundance of the elements in NVPF materials • Strong thermal stability and are inexpensive 7

8. Why NVPF MERITS DEMERTIS High thermal stability Limited research Low cost Low conductivity High operating voltage Safety concerns Environmentally friendly Limited temperature range Good electrochemical performance 8

9. NVPF by Sol-Gel Method 9

10. NVPF by Hydrothermal Method • NH4VO3, NH4H2PO4, and NaF aqueous solutions were mixed in a mole ratio of 2 : 2 : 3 with citric acid under magnetic stirring for 1 h • The mixture solution was transferred to a Teflon vessel and heated at 180 °C for 12 h. 10

11. Comparison of Synthesis Methods Sol-gel Method Hydrothermal Method • High Purity • High crystallinity and purity • Good control over particle size • Good control over particle size • Large Porosity • Homogeneity • High Scalability Synthesis of inorganic materials • Fabrication of ceramics or glasses 11

12. References • [1] J. Xu, D. H. Lee and Y. S. Meng, Funct. Mater. Lett., 2013, 6(01), 1330001. • [2] V. Palomares, P. Serras, L. Villaluenga, K. B. Hueso and T. Rojo, Energy and Environ. Sci., 2012, 5(3), 5884- 5901. • [3] N. Yabuuchi, K. Kubota, M. Dahbi and S. Komaba, Chem. Rev., 2014, 114(23), 11636-11682. • [4] W. Song, X. Cao, Z. Wu, J. Chen, Y. Zhu, H. Hou, Q. Lan and X. Ji, Langmuir, 2014, 30(41), 12438-12446. 12

13. THANK YOU 13

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