Battery-Technology

Next-gen energy-storage insights: Interactive React/TS visualizations comparing Li-ion, Na-ion, solid-state & beyond.
Scroll down for detailed charts & use cases →

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Table of Contents

1. Overview
2. Advanced Chemistries
3. Performance & Reliability
4. Economic & Environmental Impact
5. System-Level Integration
6. Interactive Visualizations
7. Getting Started
8. Contributing
9. License

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Overview

Battery-Technology is an interactive React + TypeScript platform delivering data-driven insights into:

• Lithium-Ion evolution (NMC, LFP, high-nickel, silicon-anode)
• Emerging alternatives (sodium-ion, solid-state, redox-flow, zinc-air)
• System-level applications (EV charging, grid-scale ESS, green-hydrogen integration)
• Lifecycle strategies (AI-driven BMS, fast-charge protocols, second-life reuse, circular-economy)

This repository equips engineers, researchers, policy-makers, and investors with visual analytics, key metrics, and extensible chart modules to stay ahead in the evolving energy-storage landscape.

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Advanced Chemistries

• Lithium-Ion Evolution
  • NMC/622/811, LFP, silicon-oxide & silicon-graphite anodes, high-voltage cathodes
• Emerging Alternatives
  • Sodium-ion (CATL mass production 2025), ceramic separators, solid-state electrolytes
• Flow & Metal-Air
  • Vanadium redox-flow, zinc-air, iron–chromium for modular, long-duration storage

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Performance & Reliability

• Energy Density & Power
  • Comparative benchmarks (e.g., 175 Wh/kg Na-ion vs. 200 Wh/kg Li-ion)
• Thermal & Safety Profiles
  • Operational envelopes: –40 °C to +80 °C, dendrite suppression, non-flammable electrolytes
• Lifecycle & Durability

  • 5 000 cycles, calendar-life modeling, second-life repurposing frameworks

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Economic & Environmental Impact

• Cost Drivers
  • Resource abundance: 20 ppm Lithium vs. 23 000 ppm Sodium
  • Raw-material scarcity metrics & supply-chain security
• Sustainability Metrics
  • Water-use analysis, CO₂ footprint per kWh, closed-loop recycling potential
• Regulatory & ESG Trends
  • EU Battery Regulation, US IRA incentives, circular-economy pathways

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System-Level Integration

• Grid-Scale ESS
  • Modular rack designs, BESS orchestration, ancillary-service revenue models
• EV & Mobility
  • Pack-level thermal management, >350 kW fast-charge calibration, V2G demos
• Green-Hydrogen Coupling
  • Power-to-gas storage loops, hybrid renewables + electrolyser systems

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Interactive Visualizations

sodium-lithium-comparison.tsx

A React & TypeScript component using Recharts and Tailwind CSS to compare sodium-ion vs. lithium-ion cells on:

• Cost efficiency
• Energy density
• Resource abundance
• Temperature tolerance
• Safety
• Environmental impact

➤ Extensible: Add new chemistries or performance metrics by plugging into chart modules.

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Getting Started

1. Clone the repo

   git clone https://github.com/MICHAEL-LORENZ/Battery-Technology.git
   cd Battery-Technology