R&D Innovation
Research & Development
Advancing battery technology through continuous innovation, with 5% annual R&D investment and 1200+ engineering professionals.
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Dedicated facilities
1200+
Professionals
5%
Of revenue
25+
Development initiatives
R&D Strategy
JHY's R&D strategy focuses on three core areas: fundamental battery chemistry innovation, advanced BMS architecture development, and manufacturing process optimization. Our multidisciplinary teams work across electrochemistry, materials science, electronics, and thermal management.
We maintain strategic partnerships with leading universities and research institutions to stay at the forefront of battery technology advancement.
R&D Centers
Shenzhen R&D Center
Cell Chemistry & Materials
400+ engineers
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Polymer cell formulation
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Energy density optimization
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Thermal stability testing
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Materials characterization lab
Huizhou Development Center
Manufacturing & Scale-up
350+ engineers
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Process optimization
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Production automation
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Quality control systems
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Pilot production lines
Yueyang Innovation Center
Application Engineering
450+ engineers
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System integration
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BMS development
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Thermal management
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Application testing
Core Research Areas
Ultra-Thin Battery Technology
Developing next-generation ultra-thin cells with thickness down to 0.3mm
Electrode material optimization
Separator innovation
Electrolyte formulation
Cell architecture design
High-Rate Performance
Enabling 5C+ discharge rates with maintained cycle life and safety
Cathode material selection
Anode surface modification
Ionic conductivity enhancement
Thermal management integration
Extreme Temperature Stability
Extending operational range to -40°C to +60°C with LFP chemistry
Low-temperature electrolyte
Cathode doping strategies
Thermal insulation design
Cold-start optimization
Advanced BMS Architecture
Developing intelligent battery management systems with AI-driven monitoring
Multi-cell balancing algorithms
Predictive health monitoring
Thermal regulation systems
Wireless communication protocols
Manufacturing Automation
Implementing Industry 4.0 technologies for precision production
Robotic assembly systems
Real-time quality inspection
Process data analytics
Supply chain optimization
Sustainability & Recycling
Developing circular economy solutions for battery end-of-life
Material recovery processes
Recycled material integration
Environmental impact reduction
Compliance with regulations
Academic & Industry Partnerships
University Partnerships
Collaborations with leading universities for fundamental research
• Tsinghua University
• Harbin Institute of Technology
• Zhejiang University
Industry Collaborations
Joint development projects with OEM and system integrators
• Automotive suppliers
• Medical device manufacturers
• IoT platform providers
Research Institutes
Partnerships with national research institutes and labs
• CATARC
• CATL Research
• Battery Innovation Center
International Cooperation
Global collaborations advancing battery technology standards
• European research networks
• Japanese battery associations
• US innovation hubs
Innovation Pipeline (2024-2026)
0.3mm Ultra-Thin Cell Launch
Introduction of industry-leading 0.3mm thickness cells for medical and wearable applications
AI-Driven BMS Platform
Launch of predictive battery health monitoring system with machine learning algorithms
10C High-Rate Technology
Development of 10C discharge capability for fast-charging applications
Solid-State Battery Prototype
First prototype of solid-state battery technology for next-generation applications
Recycled Material Integration
Commercial production with 30% recycled material content
Autonomous Manufacturing
Full automation of production lines with AI-driven quality control
Partner With Our R&D Team
Explore collaboration opportunities and access our cutting-edge battery technology innovations.
Discuss R&D Partnership