Secondary Battery Industry Analysis Report on All-Solid-State and LFP Batteries
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Description
Book Introduction
As various industrial technologies such as portable electronic devices, electric vehicles, and robots develop, the importance of secondary batteries is increasing.
Accordingly, many global companies are eyeing secondary batteries as a new growth engine and are sparing no effort in investing in them.
Primary batteries are used only once and then thrown away, but more resources are consumed to make new batteries.
Secondary batteries have recently been receiving more attention, especially because they can cause environmental pollution due to the chemicals produced after discharge.
Secondary batteries are economical and environmentally friendly because they can be recharged and used repeatedly from 500 to 2,000 times.
In particular, lithium iron phosphate batteries, which have advantages such as low production costs and fire safety compared to all-solid-state batteries and ternary batteries, are receiving a lot of attention recently to solve the problems of secondary batteries using existing liquid electrolytes.
In particular, automakers are showing great interest in all-solid-state batteries and lithium iron phosphate batteries.
This report analyzes the characteristics of batteries and secondary batteries, as well as solid-state batteries and lithium iron phosphate batteries, for readers seeking insight into the emerging solid-state batteries and lithium iron phosphate batteries.
Accordingly, many global companies are eyeing secondary batteries as a new growth engine and are sparing no effort in investing in them.
Primary batteries are used only once and then thrown away, but more resources are consumed to make new batteries.
Secondary batteries have recently been receiving more attention, especially because they can cause environmental pollution due to the chemicals produced after discharge.
Secondary batteries are economical and environmentally friendly because they can be recharged and used repeatedly from 500 to 2,000 times.
In particular, lithium iron phosphate batteries, which have advantages such as low production costs and fire safety compared to all-solid-state batteries and ternary batteries, are receiving a lot of attention recently to solve the problems of secondary batteries using existing liquid electrolytes.
In particular, automakers are showing great interest in all-solid-state batteries and lithium iron phosphate batteries.
This report analyzes the characteristics of batteries and secondary batteries, as well as solid-state batteries and lithium iron phosphate batteries, for readers seeking insight into the emerging solid-state batteries and lithium iron phosphate batteries.
index
1.
Introduction 1
2.
Batteries and Secondary Batteries 2
go.
Battery Overview 2
me.
Battery Classification 4
1) Classification by material 4
2) Classification by characteristics 6
all.
Secondary Battery Core Components 20
1) Cathode material 20
2) Cathode material 23
3) Electrolyte 27
la.
Pros and Cons of Secondary Battery Technology 30
1) Advantage 30
2) Disadvantage 31
mind.
Battery Industry Value Chain 32
1) Upstream 34
2) Midstream 36
3) Downstream 40
4) Disposal 41
3.
Lithium-ion battery 43
go.
Lithium-ion secondary battery overview 43
1) Lithium-ion secondary battery production process 44
2) Lithium-ion secondary battery components 45
3) Classification and characteristics of electrode materials 49
me.
Lithium-ion secondary battery technology trends 52
1) Lithium-ion secondary battery technology issue 52
2) Core element technology 53
3) Development Trend 58
all.
Lithium-ion secondary battery market trends 60
1) Market size 60
2) Competition Status 61
4.
All-solid-state battery 65
go.
All-Solid-State Battery Overview 65
1) All-solid-state batteries and secondary batteries 67
2) Types of all-solid-state batteries and their pros and cons 70
3) All-solid-state process issue 71
me.
All-Solid-State Battery Technology Trends 73
1) All-solid-state battery technology issue 73
2) Improvement of solid electrolyte ionic conductivity 76
3) Reduction of interface resistance 80
4) High ionic conductivity solid electrolyte 84
5) Ensuring air and moisture safety 85
6) Manufacturing of composite electrodes 86
7) Bipolar electrode manufacturing 86
all.
All-Solid-State Battery Market Trends 87
1) Market Trends 87
2) Competition Status 90
la.
All-Solid-State Battery Industry Trends 92
1) Overseas Trends 92
2) Domestic trends 96
3) Corporate Trends 98
mind.
All-Solid-State Battery Policy Trends 103
1) Overseas Trends 103
2) Domestic Trends 104
5.
Lithium iron phosphate (LFP) battery 107
go.
Lithium Iron Phosphate Battery Overview 107
1) Lithium iron phosphate battery and ternary battery 107
2) Pros and Cons of Lithium Iron Phosphate Batteries 110
me.
Lithium Iron Phosphate Battery Supply Chain 114
1) Upstream 115
2) Mid-stream 117
3) Downstream 119
all.
Lithium Iron Phosphate Battery Technology Trends 122
1) Carbon coating 122
2) Elemental doping 124
3) Si cathode 125
4) Lithium salt change 127
la.
Lithium Iron Phosphate Battery Market Trends 128
1) Market Trends 128
2) Competition Status 131
6.
Conclusion 133
7.
Reference 135
Introduction 1
2.
Batteries and Secondary Batteries 2
go.
Battery Overview 2
me.
Battery Classification 4
1) Classification by material 4
2) Classification by characteristics 6
all.
Secondary Battery Core Components 20
1) Cathode material 20
2) Cathode material 23
3) Electrolyte 27
la.
Pros and Cons of Secondary Battery Technology 30
1) Advantage 30
2) Disadvantage 31
mind.
Battery Industry Value Chain 32
1) Upstream 34
2) Midstream 36
3) Downstream 40
4) Disposal 41
3.
Lithium-ion battery 43
go.
Lithium-ion secondary battery overview 43
1) Lithium-ion secondary battery production process 44
2) Lithium-ion secondary battery components 45
3) Classification and characteristics of electrode materials 49
me.
Lithium-ion secondary battery technology trends 52
1) Lithium-ion secondary battery technology issue 52
2) Core element technology 53
3) Development Trend 58
all.
Lithium-ion secondary battery market trends 60
1) Market size 60
2) Competition Status 61
4.
All-solid-state battery 65
go.
All-Solid-State Battery Overview 65
1) All-solid-state batteries and secondary batteries 67
2) Types of all-solid-state batteries and their pros and cons 70
3) All-solid-state process issue 71
me.
All-Solid-State Battery Technology Trends 73
1) All-solid-state battery technology issue 73
2) Improvement of solid electrolyte ionic conductivity 76
3) Reduction of interface resistance 80
4) High ionic conductivity solid electrolyte 84
5) Ensuring air and moisture safety 85
6) Manufacturing of composite electrodes 86
7) Bipolar electrode manufacturing 86
all.
All-Solid-State Battery Market Trends 87
1) Market Trends 87
2) Competition Status 90
la.
All-Solid-State Battery Industry Trends 92
1) Overseas Trends 92
2) Domestic trends 96
3) Corporate Trends 98
mind.
All-Solid-State Battery Policy Trends 103
1) Overseas Trends 103
2) Domestic Trends 104
5.
Lithium iron phosphate (LFP) battery 107
go.
Lithium Iron Phosphate Battery Overview 107
1) Lithium iron phosphate battery and ternary battery 107
2) Pros and Cons of Lithium Iron Phosphate Batteries 110
me.
Lithium Iron Phosphate Battery Supply Chain 114
1) Upstream 115
2) Mid-stream 117
3) Downstream 119
all.
Lithium Iron Phosphate Battery Technology Trends 122
1) Carbon coating 122
2) Elemental doping 124
3) Si cathode 125
4) Lithium salt change 127
la.
Lithium Iron Phosphate Battery Market Trends 128
1) Market Trends 128
2) Competition Status 131
6.
Conclusion 133
7.
Reference 135
GOODS SPECIFICS
- Date of issue: August 1, 2025
- Page count, weight, size: 140 pages | 210*296*20mm
- ISBN13: 9791199370500
- ISBN10: 1199370509
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