Integrated Battery and Innovative Battery Technology Research Report, 2026
Power Battery Research: Sales of High-Capacity Vehicles Keep Rising, and Solid-State Batteries Begin to Be Installed in Vehicles
I. Sales of High-Capacity Vehicles Sustain Growth, and Those with A Cruising Range of Over 400 Kilometers Account for Over 50%.
According to data from the China Industry Technology Innovation Strategic Alliance For Electric Vehicle and the China Passenger Car Association (CPCA), in 2025, the cumulative installed capacity of power batteries in new energy vehicles in China reached 769.7 GWh, a year-on-year increase of 40.4%, of which the cumulative installed capacity of ternary batteries was 144.1 GWh, accounting for 18.7% of the total, and increasing by 3.7%; the cumulative installed capacity of lithium iron phosphate (LFP) batteries was 625.3 GWh, or 81.2% of the total, up by 52.9%.
In terms of cruising range (working condition method, kilometers), according to the full-year sales of new energy vehicles in 2025, vehicles with a range below 300 kilometers accounted for 45% of the total sales, a proportion down from 50.6% in January 2025 to 43.5% in December 2025; vehicles with a range of over 400 kilometers took up 49%, up from 44.8% in January 2025 to 51.4% in December 2025; vehicles with a range of over 700 kilometers made up 7%, up from 6.3% in January 2025 to 9.7% in December 2025.
From the perspective of battery packaging forms, CTP (Cell To Pack) remains the mainstream. Although CTC (Cell to Chassis) and CTB (Cell To Body) technologies have great advantages in space utilization and comprehensive cruising range, their maintenance costs are still 2-3 times that of CTP. Battery suppliers and OEMs tend to improve the comprehensive range of new energy vehicles by increasing charging rates and promoting the application of new battery technologies such as solid-state batteries.
II. Rapid Penetration of Superfast Charging Batteries Combined with Accelerated Deployment of Supercharging Stations Greatly Alleviate Users’ “Range Anxiety”.
Seen from the development trend of the new energy vehicle market, the improvement of charging rate is an inevitable trend. On the one hand, as battery technology advances, the cruising range of new energy vehicles has been on the rise, which makes users' demand for fast charging increasingly urgent. On the other hand, the gradual improvement of infrastructure such as charging piles has provided strong support for increasing charging rates.
Generally, a charging rate of 3C or above is defined as ultra-fast charging. Although the current 800V high-voltage architecture falls short of ultra-fast charging, the realization of ultra-fast charging requires its support. The 800V architecture is rapidly penetrating into 60kWh~80kWh new energy models, growing fast in 800V models priced below RMB200,000, and expected to be available to models below RMB150,000.
In April 2025, CATL launched the second-generation Shenxing Super-Fast Charging Battery. This LFP battery features a peak charging rate of 12C and a power output of 1.3 megawatts. It can deliver a range of 520 kilometers with a 5-minute charge (i.e., 2.5km per second of charging), and only takes 15 minutes to charge from 10% to 80% at -10℃.
In March 2026, BYD released the Second-Generation Blade Battery and grouped Flash charging technology. With innovations such as the "Full-Chain Ion Flash Technology System", it only takes 5 minutes to charge from 10% to 70% and 9 minutes from 10% to 97%.
BYD also launched a flash charging pile with a maximum output power of 1,500kW, and reduced the impact on the power grid through an energy storage system, which greatly improves charging efficiency. By the end of 2026, BYD plans to build and complete 20,000 flash charging stations in China, including 18,000 "Flash Charging Stations-in-Stations" and 2,000 "Highway Flash Charging Stations". On April 3, 2026, BYD revealed at its performance briefing that its 5,000th flash charging station and the first batch of national highway flash charging stations have been put into operation, and it is accelerating the implementation of its "Flash Charging China" strategy.
Li Auto has boasted about 1,100 highway ultra-fast charging stations by the end of 2025, and plans to build 1,680 highway ultra-fast charging stations by the end of 2026. XPeng plans to put into operation 4,500 ultra-fast charging stations by the end of 2026. Huawei plans to build 2,000 ultra-fast charging stations by the end of 2026. As of late February 2026, Geely's self-built charging system has had a total of 2,103 self-built charging stations nationwide, including 1,216 ultra-fast charging stations (5,468 charging piles). Geely recently released a set of charging data: the Lynk & Co 10 equipped with a 900V ShenDun Golden Battery only takes 4 minutes and 22 seconds to charge from 10% to 70%, 5 minutes and 32 seconds from 10% to 80%, and 8 minutes and 42 seconds from 10% to 97%.
On July 1, 2026, GB 38031-2025 " Electric Vehicles Traction Battery Safety Requirements", known as the "strictest battery safety standard in history", was implemented. For fast-charging batteries with a 20%-80% charging time of no more than 15 minutes, the new national standard requires an external short-circuit test after 300 fast-charging cycles, and "no fire, no explosion", compared with the previous 2020 national standard that requires "an alarm signal provided 5 minutes before fire or explosion".
In fact, for car users, when the charging time is within 15 minutes, the marginal benefit of a further improvement of 1 minute or 10 seconds has dropped significantly, and the extremely short charging time will not attract much attention from consumers. Most OEMs or suppliers have focused on innovative power battery technologies.
III. Solid-State Batteries (Semi-Solid-State Batteries) Begin to Be Installed in Vehicles in 2026, and Come into Mass Production and Use in the Next Two Years.
Solid-state battery-equipped vehicles have entered the road test stage in 2026. In late December 2025, Hongqi's first all-solid-state battery pack was successfully installed in the Tiangong 06 model which was also trail-produced and rolled off the production line; in January 2026, Geely announced that its all-solid-state battery pack is expected to be rolled off the production line, and verified on vehicles in 2026.
Many OEMs and battery companies have clarified the mass production time of all-solid-state batteries. For example, GAC Group plans to achieve installation of all-solid-state batteries in 2026, first equipping Hyptec models; SAIC Motor plans to start mass production of all-solid-state batteries in the fourth quarter of 2026; Changan plans to complete verification of all-solid-state batteries on vehicles in 2026 and phase in mass production in 2027; battery companies such as CATL, EVE Energy, CALB, SVOLT Energy, Farasis Energy, and FinDreams Battery also plan mass production of all-solid-state batteries from 2027 to 2030.
Although the mass production of solid-state batteries by leading OEMs and battery suppliers is concentrated in the period from 2026 to 2028, the large-scale installation and application of solid-state batteries in vehicles are still affected by many factors such as battery materials, battery processes, engineering technologies, and mass production costs. The time window has now opened, and it all depends on the technological stability, industry chain collaboration, and implementation capabilities of each enterprise.
1 Overview of New Energy Vehicle Battery and Integrated Battery Industry
Definitions
1.1 Overview of New Energy Vehicle and Industry Overview
Classification and Characteristics of New Energy Vehicle Batteries
Classification of Ternary Lithium Batteries
Advantages and Disadvantages of Ternary Lithium Batteries
Classification of Lithium Iron Phosphate Batteries
Advantages and Disadvantages of Lithium Iron Phosphate Batteries
Principle and Composition of Solid-State Batteries
Advantages and Disadvantages of Solid-State Batteries
Comparison between Solid-State Battery Development Paths
Evolution of Automotive Battery Technologies and Layout of New-Generation Battery Products of Battery Suppliers (1): CATL
Evolution of Automotive Battery Technologies and Layout of New-Generation Battery Products of Battery Suppliers (2): FinDreams
Evolution of Automotive Battery Technologies and Layout of New-Generation Battery Products of Battery Suppliers (3): CALB
Evolution of Automotive Battery Technologies and Layout of New-Generation Battery Products of Battery Suppliers (4): EVE Energy
Evolution of Automotive Battery Technologies and Layout of New-Generation Battery Products of Battery Suppliers (5): Sunwoda
Evolution of Automotive Battery Technologies and Layout of New-Generation Battery Products of Battery Suppliers (6): Gotion High-Tech
Evolution of Automotive Battery Technologies and Layout of New-Generation Battery Products of Battery Suppliers (7): Great Power Energy & Technology
1.2 Overview of Integrated Batteries and Industry Overview
Definition of Automotive Integrated Batteries and Industry Development Background
Evolution of Automotive Integrated Batteries
China's Policies Concerning Battery Integration
Impact of Battery Pack Integration on the Number of Parts and Grouping Efficiency
Comparison of CTP, CTC, and CTB Battery System Integration Technologies
Industry Chain of Integrated Battery Technology
Summary of Technology Layouts of Integrated Battery Suppliers
1.3 Integrated Battery Technologies
Definition of CTP
CTP Technology Route
Advantages of CTP Compared with Traditional Battery Packs
Disadvantages of CTP and Impacts
Definition of CTC
CTC Technology Route
Technical Difficulties and Integration Solutions of CTC
Comparison between CTC and CTP Technologies
Advantages and Disadvantages of CTC
Status Quo of CTC Industry and Application Cases
Impacts of CTC Technology on Industry Chain
Definition of CTB
Comparison between CTB and CTP Technologies
Comparison between CTB and CTC Technologies
Advantages and Disadvantages of CTB
1.4 New Energy Vehicle Battery Market Size
Global Passenger Car and New Energy Passenger Car Sales (Overall, Continents), 2022-2030E
China's Passenger Car and New Energy Passenger Car Sales (Exports, Local), 2022-2030E
Proportion of New Energy Vehicle Batteries by Type, Capacity, and Cooling Mode (Statistics by Sales of Equipped Vehicles), 2024-2025
Statistics for New Energy Vehicle Battery Sales (by Sales and Cruising Range of Equipped Vehicles), 2025
China's Power Battery Installed Capacity (GWh) and Growth Rate, 2019-2025
China's Monthly Power Battery Installed Capacity (GWh) and Growth Rate, 2024-2026
China's Power Battery Installed Capacity by Vehicle Model, 2021-2025
China's Power Battery Installed Capacity by Vehicle Model, 2025
Competitive Landscape of China's New Energy Vehicle Battery Suppliers (Statistics by Sales of Equipped Vehicles), 2025
Competitive Landscape of China's New Energy Vehicle Battery Suppliers by Installed Capacity (GWh), 2025
China's New Energy Vehicle Integrated Battery Market Structure, 2025
2 Tier 1 Suppliers of Battery Integration and Innovative Technologies
2.1 CATL
Overall Layout and Technological Evolution of Automotive Batteries
Automotive Battery Technology Route Layout and Evolution Strategy
Profile
Global Layout
Power Battery System Integration Technology Roadmap
Development History of CTP Technology
Integrated Battery Technology Solutions
Automotive Battery Technology Solutions (1)
Automotive Battery Technology Solutions (2)
Automotive Battery Technology Solutions (3)
Automotive Battery Technology Solutions (4)
Automotive Battery Technology Solutions (5)
Automotive Battery Technology Solutions (6)
Innovative Automotive Battery Technology Layout (1)
Innovative Automotive Battery Technology Layout (2)
Innovative Automotive Battery Technology Layout (3)
Production Capacity Layout
Key Customers of Automotive Batteries and 2025 Sales of Key Vehicle Models Supported
Strategic Cooperation
2.2 SVOLT Energy
Global Layout
Automotive Battery Flying Stack Technology
Integrated Battery Technology Solutions
Cell Product Solutions
Automotive Battery Technology Solutions (1)
Automotive Battery Technology Solutions (2)
...
Automotive Battery Technology Solutions (6)
Innovative Automotive Battery Technology Layout (1)
Innovative Automotive Battery Technology Layout (2)
Innovative Automotive Battery Technology Layout (3)
Key Customers of Automotive Batteries and 2025 Sales of Key Vehicle Models Supported
2.3 CALB
Overall Layout and Technological Evolution of Automotive Batteries
Automotive Battery Technology Route Layout and Evolution Strategy
Profile and Customers
Development Route and Product Layout
Summary of Battery Products
Integrated Battery Technology Solutions
Automotive Battery Technology Solutions (1)
Automotive Battery Technology Solutions (2)
Automotive Battery Technology Solutions (3)
Automotive Battery Technology Solutions (4)
Innovative Automotive Battery Technology Layout
Key Customers of Automotive Batteries and 2025 Sales of Key Vehicle Models Supported
Strategic Cooperation
2.4 Envision AESC
Global Layout and Production Capacity Layout
Power Battery Technology Route
Power Battery Products and Cooperative Customers
Solid-State Battery Patents
2.5 LG Energy Solution
Global Layout
Product Layout
Cell Product Solutions
Module Product Solutions
Integrated Battery Technology Solutions (1)
Integrated Battery Technology Solutions (2)
Innovative Automotive Battery Technology Layout (1)
Innovative Automotive Battery Technology Layout (2)
Future Technology Development Path
2.6 SK On
Manufacturing Engineering
Core Technologies
Integrated Battery Technology Solutions
Innovative Automotive Battery Technology Layout (1)
Innovative Automotive Battery Technology Layout (2)
Innovative Automotive Battery Technology Layout (3)
2.7 Farasis Energy
Global Layout
Automotive Battery Technology Solutions (1)
Automotive Battery Technology Solutions (2)
Innovative Automotive Battery Technology Layout
2.8 EVE Energy
Overall Layout and Technological Evolution of Automotive Batteries
Automotive Battery Technology Route Layout and Evolution Strategy
Automotive Power Battery Product Layout
Automotive Battery Technology Solutions (1)
Automotive Battery Technology Solutions (2)
Automotive Battery Technology Solutions (3)
Automotive Battery Technology Solutions (4)
Innovative Automotive Battery Technology Layout
Key Customers of Automotive Batteries and 2025 Sales of Key Vehicle Models Supported
Strategic Cooperation
2.9 Sunwoda Mobility Energy Technology (SEVB)?
Overall Layout and Technological Evolution of Automotive Batteries
Automotive Battery Technology Route Layout and Evolution Strategy
Global Layout
Automotive Battery Technology Solutions (1)
Automotive Battery Technology Solutions (2)
...
Automotive Battery Technology Solutions (6)
Innovative Automotive Battery Technology Layout
Key Customers of Automotive Batteries and 2025 Sales of Key Vehicle Models Supported
2.10 REPT BATTERO
Global Industrial Layout
Cell R&D Route
Summary of Power Battery Products
Automotive Battery Technology Solutions (1)
Automotive Battery Technology Solutions (2)
Automotive Battery Technology Solutions (3)
Automotive Battery Technology Solutions (4)
Integrated Battery Technology Solutions
Cooperative Cases of Integrated Battery Technology Solutions
Innovative Automotive Battery Technology Layout
Key Customers of Automotive Batteries and Key Vehicle Models Supported
2.11 FinDreams Battery
Overall Layout and Technological Evolution of Automotive Batteries
Automotive Battery Technology Route Layout and Evolution Strategy
Industry and Industry Chain Layout
Integrated Batteries
Automotive Battery Technology Solutions (1)
Automotive Battery Technology Solutions (2)
Automotive Battery Technology Solutions (3)
Innovative Automotive Battery Technology Layout
Key Customers of Automotive Batteries and 2025 Sales of Key Vehicle Models Supported
2.12 BAK Power
Automotive Battery Technology Solutions (1)
Automotive Battery Technology Solutions (2)
Innovative Automotive Battery Technology Layout (1)
Innovative Automotive Battery Technology Layout (2)
2.13 Lishen Battery
Integrated Battery Technology Layout: CTP
Innovative Automotive Battery Technology Layout (1)
Innovative Automotive Battery Technology Layout (2)
2.14 Greater Bay Technology (GBT)
Cell Material System Technology Route
Cell Solutions (1)
Cell Solutions (2)
Battery Pack Solutions
Automotive Battery Technology Solutions (1)
...
Automotive Battery Technology Solutions (5)
Innovative Automotive Battery Technology Layout
2.15 Gotion High-Tech
Overall Layout and Technological Evolution of Automotive Batteries
Automotive Battery Technology Route Layout and Evolution Strategy
Layout of Research Bases
Key Customers of Automotive Batteries and 2025 Sales of Key Vehicle Models Supported
2.16 Great Power Energy & Technology
Overall Layout and Technological Evolution of Automotive Batteries
Automotive Battery Technology Route Layout and Evolution Strategy
3 OEMs’ Layout of Integrated Batteries and Innovative Battery Technologies
3.1 Leapmotor
Iteration Process of Battery Technology
Integrated Battery Technology Solutions (1)
Integrated Battery Technology Solutions (2)
Integrated Battery Technology Solutions (3)
Summary and Comparison of Integrated Battery Technologies
Integrated Battery Technology Applied Models
3.2 BYD
Progress in Battery Technology
Integrated Battery Technology Solutions (1)
Integrated Battery Technology Solutions (2)
Integrated Battery Technology Solutions (3)
Automotive Battery Technology Solutions (1)
Automotive Battery Technology Solutions (2)
Automotive Battery Technology Solutions (3)
Innovative Automotive Battery Technology Layout (1)
Innovative Automotive Battery Technology Layout (2)
Innovative Automotive Battery Technology Layout (3)
3.3 Li Auto
Battery Technology Solutions
Battery System Suppliers
3.4 SAIC Motor
Automotive Battery Technology Solutions (1)
Automotive Battery Technology Solutions (2)
Innovative Automotive Battery Technology Layout (1)
Innovative Automotive Battery Technology Layout (2)
Innovative Automotive Battery Technology Layout (3)
Innovative Automotive Battery Technology Layout (4)
3.5 JAC
Integrated Battery Technology Application Cases (1)
Integrated Battery Technology Application Cases (2)
Integrated Battery Technology Application Cases (3)
3.6 Great Wall Motor
Global Layout of Battery R&D Institutions
Battery Technology Solutions
Innovative Battery Technology Layout
3.7 Changan
Integrated Battery Technology Solutions
Integrated Battery Application Cases
New Battery Technology Solutions and Cooperation
Innovative Battery Technology Layout
3.8 FAW
Integrated Battery Technology Solutions
Integrated Battery Technology Cooperation Cases
Innovative Automotive Battery Technology Layout (1)
Innovative Automotive Battery Technology Layout (2)
3.9 GAC Group
Integrated Battery Technology Solutions and Application Cases
Automotive Battery Technology Solutions
Innovative Automotive Battery Technology Layout
3.10 XPeng
Integrated Battery Technology Solutions
Integrated Battery Technology Applied Models
Battery Technology Solutions
Innovative Battery Technology Layout
Battery Suppliers for On-Sale Models
3.11 Chery
New Battery Technology Solutions and New-Generation Battery Technology Layout
Cooperation and Application Cases in New Battery Technology Solutions
3.12 Geely
Integrated Battery Technology Solutions
Integrated Battery Technology Applied Models
Battery Technology Solutions
Innovative Battery Technology Layout
3.13 NIO
Integrated Battery Technology and Application Cases
3.14 Xiaomi Auto
Integrated Battery Technology and New-Generation Battery Technology Layout
Battery Solution of Xiaomi SU7
3.15 AVATR
Integrated Battery Technology and Application Cases
Shenxing 4C Super Hybrid Battery
3.16 Harmony Intelligent Mobility Alliance (HIMA)
Automotive Battery Technology Solutions
3.17 Voyah
Automotive Battery Technology Solutions
3.18 BAIC BJEV
Automotive Battery Technology Solutions
3.19 Tesla
Integrated Battery Technology Solutions
Automotive Battery Technology Solutions
Innovative Automotive Battery Technology Layout (1)
Innovative Automotive Battery Technology Layout (2)
3.20 Nissan
Battery Design of Third-Generation LEAF
Third-Generation LEAF
e-POWER Technology
All-Solid-State Battery
3.21 BMW
Automotive Battery Technology Solutions
Sixth-Generation Battery System Integration Solutions
3.22 Ford
Integrated Battery Technology Patents
Integrated Battery Technology Cooperation and Applied Models
Innovative Battery Technology Layout
3.23 Volkswagen
Integrated Battery Technology Layout
4 Development Trends of New Energy Vehicle Batteries
4.1 Trend 1
Ultra-Fast Charging Rates of Batteries from Mainstream Manufacturers, 2025
List of Ultra-Fast Charging Rates of Mainstream Vehicle Models
Automotive Ultra-Fast Charging Batteries (1)
Automotive Ultra-Fast Charging Batteries (2)
...
Automotive Ultra-Fast Charging Batteries (6)
4.2 Trend 2
Ultra-Fast Charging Systems
OEMs’ Technical Planning of Self-Operated Ultra-Fast Charging Stations
Comparison of Ultra-Fast Charging Technology Solutions between OEMs
Comparison of Core Parameters and Technical Solutions of Megawatt Charging Piles between OEMs
OEMs’ Layout of Self-Operated Ultra-Fast Charging Stations/Piles
Cases of OEMs’ Self-Operated Ultra-Fast Charging Stations (1)
Cases of OEMs’ Self-Operated Ultra-Fast Charging Stations (2)
Ultra-Fast Charging Products and Product Planning of Charging Facility Suppliers
Cases of Ultra-Fast Charging from Charging Facility Suppliers (1)
Cases of Ultra-Fast Charging from Charging Facility Suppliers (2)
4.3 Trend 3
Major Manufacturers Have Made Layout in PHEV & REEV Batteries
Business and Product Progress of Core Suppliers of REEV Batteries
Ultra-Fast Charging Configuration of REEV Batteries
PHEV & REEV Battery Products and Technology Trends (1)
PHEV & REEV Battery Products and Technology Trends (2)
PHEV & REEV Battery Products and Technology Trends (3)
PHEV & REEV Battery Products and Technology Trends (4)
Cases of PHEV & REEV Batteries (1)
...
Cases of PHEV & REEV Batteries (5)
REEV Batteries (1)
REEV Batteries (2)
REEV Batteries (3)
REEV Batteries (4)
HEV Battery Products and Technology Trends (1)
HEV Battery Products and Technology Trends (2)
HEV Battery Products and Technology Trends (3)
HEV Batteries (1)
HEV Batteries (2)
...
HEV Batteries (6)
4.4 Trend 4
Large Cylindrical Batteries
Large Cylindrical Batteries Become the Development Direction of Ultra-Fast Charging Batteries
Large Cylindrical Batteries Improve Market Competitiveness through Structural Innovation and New Material Application
Major Suppliers’ Mass Production Planning for Large Cylindrical Batteries (1)
Major Suppliers’ Mass Production Planning for Large Cylindrical Batteries (2)
Installation Process of Large Cylindrical Battery Products
Cases of Large Cylindrical Battery Products (1)
Cases of Large Cylindrical Battery Products (2)
Cases of Large Cylindrical Battery Products (3)
Cases of Large Cylindrical Battery Products (4)
4.5 Trend 5
Solid-State Batteries Enter the Road Test Stage in 2026
Mass Production Time of Solid-State Batteries of Key OEMs and Suppliers (1)
Mass Production Time of Solid-State Batteries of Key OEMs and Suppliers (2)
...
Mass Production Time of Solid-State Batteries of Key OEMs and Suppliers (6)
4.6 Trend 6
New Energy Battery Technologies Make Rapid Breakthroughs in the Commercial Vehicle Field, with Multiple Products Applied (1)
New Energy Battery Technologies Make Rapid Breakthroughs in the Commercial Vehicle Field, with Multiple Products Applied (2)
Summary of Products and Technologies of Core Suppliers of Commercial Vehicle Ultra-Fast Charging Batteries (1)
Summary of Products and Technologies of Core Suppliers of Commercial Vehicle Ultra-Fast Charging Batteries (2)
Status Quo of Commercial Vehicle Ultra-Fast Charging Batteries
Cases of Commercial Vehicle Ultra-Fast Charging Batteries
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