4th Generation High-Density Lithium Iron Phosphate (LFP) Cathode Material for Research-Grade Battery Applications
Use for:Lithium Ion Battery Positive Electrode
PH Value:9.47
Solid Moisture: 261.5ppm
Magnetic Substance: 0.16ppm
Tap Density: 1.02g/cm³
Powder Compaction Density: 2.59g/cm³
MOQ: 10kg
Leading time: 5-9 days
High-Density 4th Generation Lithium Iron Phosphate (LFP) LiFePO4 – Authentic Research Laboratory Supplies
Overview
Designed for cutting-edge battery research and laboratory experimentation, our 4th Generation High-Density Lithium Iron Phosphate (LFP) stands as a benchmark for safety, purity, and performance. As a trusted research laboratory supply, this material combines enhanced density with the intrinsic stability of LFP chemistry, making it an ideal choice for researchers exploring next-gen energy storage technologies. Every batch is guaranteed authentic, sourced from verified manufacturers and rigorously tested to meet strict research-grade standards—ensuring reliability in your most critical experiments.
Technical Specifications
| Item | Unit | Test Result | Testing Instrument |
|---|---|---|---|
| Particle Size (D10) | μm | 0.431 | Laser Particle Size Analyzer (Malvern, Master Size 3000) |
| Particle Size (D50) | μm | 1.107 | |
| Particle Size (D90) | μm | 2.8 | |
| Particle Size (D99) | μm | 4.63 | |
| C | % | 1.144 | Infrared Carbon-Sulfur Analyzer |
| Fe | % | 34.51 | Redox Titrator |
| P | % | 19.61 | Molybdenum Phosphoric Acid Quinoline Gravimetric Method |
| Li | % | 4.49 | ICP |
| PH Value | / | 9.47 | PHS-3C Magnetic Acidimeter |
| BET | m²/g | 12.37 | Specific Surface Area Tester |
| Solid Moisture | ppm | 261.5 | Coulometric Moisture Tester |
| Magnetic Substance | ppm | 0.16 | Magnetic Rod Adsorption + ICP |
| Tap Density | g/cm³ | 1.02 | Tap Density Tester |
| Powder Compaction Density | g/cm³ | 2.59 | Powder Compaction Tester |
| K | ppm | 32 | ICP |
| Na | ppm | 66 | ICP |
| Cu | ppm | 0.3 | ICP |
| Zn | ppm | 13 | ICP |
| Ni | ppm | 0.8 | ICP |
| Cr | ppm | 1 | ICP |
| CR2430 Button Cell (0.1C Initial Charge Specific Capacity) | mAh/g | 162.1 | Coin cell Testing System |
| CR2430 Button Cell (0.1C Initial Discharge Specific Capacity) | mAh/g | 160.4 | Coin cell Testing System |
| CR2430 Button Cell (0.1C Initial Efficiency) | % | 98.95 | Coin cell Testing System |
Safety at Its Core
Lithium Iron Phosphate is renowned for its exceptional safety profile, and our 4th Generation formulation elevates this advantage:
- Thermal Stability: Resists thermal runaway even under extreme conditions (high temperatures, overcharging, or physical stress). Its robust crystal structure minimizes the risk of exothermic reactions, a critical safety feature for laboratory environments where controlled conditions are paramount.
- Chemical Inertness: Non-toxic and chemically stable, reducing hazards associated with leakage or degradation. Unlike other battery chemistries, it avoids harmful heavy metals, aligning with safe handling protocols in research settings.
- Low Flammability: Significantly lower risk of combustion compared to alternative cathode materials, providing an added layer of protection during synthesis, testing, or storage in lab facilities.
- Consistent Purity: 99.9%+ purity with minimal impurities (tested via XRD and ICP-MS) ensures predictable, safe performance in electrochemical experiments, eliminating variables that could compromise results or safety.
Why Choose Our 4th Generation LFP?
- Enhanced Density for Advanced Research: The 4th Generation formula delivers higher tap density and improved electrochemical performance, supporting studies on energy density, cycle life, and rate capability—all while maintaining LFP’s signature safety.
- Authenticity Guaranteed: We source directly from certified manufacturers and provide full traceability (including material certificates and batch test reports) to ensure you receive genuine, unadulterated LFP for reliable, reproducible results.
- Research-Grade Reliability: Manufactured in ISO 9001-certified facilities, each batch undergoes strict quality checks for particle size distribution, moisture content, and electrochemical activity—critical for consistent experimental data.
- Tailored for Lab Use: Available in flexible quantities (from small research samples to bulk orders) to suit your project scale, with secure packaging designed to prevent contamination and ensure safe transport.
Applications in Research
Our high-density 4th Generation LFP is trusted in diverse research fields:
- Cathode material development for safer lithium-ion batteries
- Studies on energy storage systems (ESS) and grid-scale batteries
- Experimentation on battery cycling efficiency and longevity
- Research into thermal management and safety mechanisms in energy storage
Quality & Compliance
- Certifications: Complies with RoHS, REACH, and ASTM standards for research chemicals.
- Documentation: Each order includes a detailed Certificate of Analysis (CoA) with purity, particle size, and safety data.
- Safe Handling: Provided with MSDS (Material Safety Data Sheet) to guide proper storage, usage, and disposal in laboratory settings.
Get Started with Your Research
Whether you’re developing safer battery technologies or exploring electrochemical innovations, our 4th Generation High-Density LFP delivers the safety, purity, and consistency your research demands.