Next-Generation Energy Storage for a Sustainable World
From aluminium-graphene batteries to advanced material sciences — we engineer safer, longer-lasting, and fully recyclable energy storage platforms for grid, mobility, telecom, and industrial applications worldwide.
India & Global Operations
Nordische Energy Systems Pvt Ltd
Bengaluru • Berlin
Core Platforms
Aluminium-Graphene • Lead Ultra-Carbon
Non-flammable • >90% recyclable
220 Wh/kg
Al-Graphene Energy Density
50×
Faster Charging vs Li-ion
30+
Active Material Variants
6
Countries with Partners
01
Innovating Sustainable Energy for a Greener Tomorrow
Nordische Energy Systems Pvt Ltd (NES), established in 2022, aims to revolutionize the energy landscape by spearheading research and development in breakthrough climate change technologies. Headquartered in Bangalore, NES is a deep-tech R&D powerhouse, staffed by a team of elite research scientists with advanced degrees in chemistry, energy storage, and physics.
Learn More About UsEcological Sustainability
Every technology we develop prioritises environmental responsibility and resource efficiency.
Social Inclusivity
We design technologies that benefit communities at scale, not just corporations.
Scientific Excellence
Our team of elite research scientists pushes boundaries in chemistry, energy storage, and physics.
Scalable Innovation
We build high-quality, affordable solutions designed for global deployment.
Our Battery Solutions
Three product lines covering the full spectrum of lithium battery applications.
Lithium-Ion Battery Packs
Maximum Energy. Minimum Footprint.
High-density, long-cycle battery systems engineered for demanding EV and industrial applications.
EV Battery Modules
Engineered for the Road Ahead.
Modular, scalable battery solutions optimized for electric passenger vehicles and commercial fleets.
Custom Battery Solutions
Your Application. Our Engineering.
End-to-end battery system design for unique industrial requirements where standard solutions fall short.
Built on Advanced Battery Technology
Six engineering pillars that define Nordische battery performance.
280 Wh/kg
High Energy Density Architecture
Our cell-to-pack integration eliminates intermediate module housing, reducing dead weight by 18% and increasing usable energy density to 280 Wh/kg. Every cubic centimeter is engineered intentionally.
7-Layer Protection
Enhanced Safety Architecture
Seven independent protection layers operate simultaneously: overcurrent, overvoltage, under-voltage, over-temperature, short-circuit, cell imbalance, and isolation fault detection. Thermal runaway containment is validated to IEC 62619.
3,000+ Cycles
Extended Lifecycle Engineering
Precision cell matching within ±2% capacity tolerance at pack assembly, combined with adaptive balancing algorithms, extends pack life beyond 3,000 cycles while maintaining over 80% capacity retention — exceeding industry standard by 40%.
48 Parameters / Cell
Intelligent Battery Management
Our in-house BMS firmware continuously monitors 48 parameters per cell, running Kalman-filter SOC estimation and predictive SOH algorithms. Real-time data is accessible via CAN bus or optional cloud dashboard for fleet operators.
<2°C Variance
Advanced Thermal Management
Passive cooling (phase-change materials + heat spreaders) and active liquid cooling options maintain cell temperature variance below 2°C across the pack during peak load — critical for long-term cycle life and safety in high-ambient environments.
60% Lower Lifecycle CO₂
Second-Life & Sustainability
Every Nordische battery is designed with end-of-life reuse in mind. Packs reaching 80% capacity after EV use are recertified and redeployed in stationary storage applications, reducing lifecycle carbon footprint by an estimated 60%.
Powering Multiple Industries
Manufacturing
Precision Manufacturing & Rigorous Testing
Our facility spans 4,200 m² and operates under ISO 9001:2015 quality management. Dry-room assembly, automated cell grading, and computer-controlled formation cycling ensure every unit meets specification before shipment.
- 01
Dry Room Cell Assembly
Cell handling and pack assembly in controlled <1% relative humidity dry rooms to prevent moisture-induced degradation. Critical for prismatic and pouch cell formats.
- 02
Automated Cell Grading
Every incoming cell is tested for capacity, internal resistance, and self-discharge rate. Cells are binned to ±2% capacity match before pack assembly — eliminating weak-cell scenarios.
- 03
Formation & Aging Cycles
All packs undergo 3–5 controlled formation cycles and a 72-hour aging period before final testing. This process stabilizes SEI formation and filters early-life failures.
Proven Performance in Real-World Applications
Urban Logistics Operator (North Germany)
Fleet Electrification: 40-Vehicle Delivery Van Conversion
220 km winter range achieved (vs 195 km target)
2C fast charge to 80% in 24 minutes
15,000 km per vehicle average with zero degradation events
38% reduction in total fleet energy cost vs diesel baseline
Solar Developer (Brandenburg, Germany)
2 MWh Grid-Edge Storage for 8 MW Solar Farm
94.5% round-trip efficiency achieved
Grid curtailment reduced from 18% to under 3%
VDE-AR-N 4105 certification completed in 6 weeks
Projected payback period: 7.2 years (vs 9.5-year industry average)
Latest from Nordische Energy
Research updates, technology deep-dives, and industry perspectives from our engineering team.
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