Silicon-Based Anode Material Series TRGY-3 Battery Anode Material

Overview of Silicon-Based Anode Material Series TRGY-3

The Silicon-Based Anode Material Series TRGY-3 represents a pinnacle of high-efficiency silicon anode technology, engineered to deliver superior performance across all major lithium-ion battery formats. This advanced material is characterized by its exceptional first-cycle Coulombic efficiency, high reversible capacity, and outstanding rate capability. Through precise control of particle size and a optimized carbon coating, TRGY-3 maximizes the intrinsic benefits of silicon while ensuring excellent processability and compatibility with standard electrode manufacturing. It is the ideal choice for battery manufacturers seeking to develop next-generation energy storage solutions that demand the highest levels of energy density, longevity, and manufacturing consistency.

Features of Silicon-Based Anode Material Series TRGY-3

• Industry-Leading First Efficiency: Achieves an exceptionally high first-cycle efficiency of ≥89.5%, minimizing irreversible lithium loss and maximizing energy yield.
• High Reversible Capacity: Offers a substantial capacity of ≥1350 mAh/g, providing a significant energy density boost over conventional materials.
• Superior Rate Performance: Supports high-current charging and discharging, enabling faster recharge times and high-power applications.
• Universal Cell Compatibility: Specifically formulated for excellent performance in cylindrical, pouch, and prismatic cell designs.
• Optimized Particle & Surface Properties: Features a larger particle size (D50: 8.0±1.0 μm) and low specific surface area for improved processing and reduced electrolyte interaction.

Applications of Silicon-Based Anode Material Series TRGY-3

• Next-Generation Electric Vehicles (EVs): For extended driving range and fast-charging capability.
• Advanced Consumer Electronics: Ultra-thin laptops, high-end smartphones, and premium tablets.
• Large-Format Energy Storage Systems (ESS): For grid storage and renewable energy integration.
• High-Performance Power Tools: Requiring both high energy and high power.
• Universal Lithium-ion Battery Designs: Including cylindrical, pouch, and prismatic cells.

Specification Table of Silicon-Based Anode Material Series TRGY-3

Parameter	Unit	Typical Value	Test Method
Reversible Capacity	mAh/g	≥ 1350	CT2001A Test System
First Cycle Efficiency	%	≥ 89.5	CT2001A Test System
Particle Size (D50)	μm	8.0 ± 1.0	Mastersizer 3000
Tap Density	g/cm³	1.15 ± 0.15	BT-301 Tapping Apparatus
Specific Surface Area	m²/g	1.0 ± 0.5	ASAP 2460 Analyzer
Carbon Content	%	4.0 ± 1.0	HCS-140 Analyzer
Moisture Content	%	≤ 0.5	DHS-16A Moisture Tester

Company Profile

Rboschco is a trusted global chemical material supplier & manufacturer with over 12-year-experience in providing super high-quality chemicals and nanomaterials, including boride powder, nitride powder, graphite powder, sulfide powder, 3D printing powder, etc.

The company has a professional technical department and Quality Supervision Department, a well-equipped laboratory, and equipped with advanced testing equipment and after-sales customer service center.

If you are looking for high-quality Battery Materials, please feel free to contact us or click on the needed products to send an inquiry. 

Payment Term

L/C, T/T, Western Union, Paypal, Credit Card etc.

Shipment Term

By sea, by air, by express, as customers request.

FAQs of Silicon-Based Anode Material Series TRGY-3

1. What is the key advantage of TRGY-3’s exceptionally high first-cycle efficiency?
An efficiency of ≥89.5% means more lithium is available for energy storage from the very first cycle. This directly translates to higher initial capacity, less need for lithium replenishment techniques, and improved overall energy density in the final battery cell.

2. How does the larger particle size (D50) of TRGY-3 benefit battery manufacturing?
The larger, controlled particle size (D50: 8.0±1.0 μm) improves powder flowability, enables higher electrode loading, and can reduce specific surface area-related side reactions, leading to more robust processing and potentially longer cycle life.

3. Is TRGY-3 compatible with aqueous processing systems?
Yes, the provided datasheet includes a recommended slurry recipe using a CN1-type binder in water. This demonstrates excellent compatibility with environmentally friendly and cost-effective aqueous electrode manufacturing processes.

4. What makes TRGY-3 suitable for all main battery form factors (cylindrical, pouch, prismatic)?
Its balanced properties—high efficiency, good rate capability, and stable physical characteristics—make it a versatile anode component that can be tailored to meet the specific pressure, density, and cycling requirements of different cell designs.

5. How does the carbon content in TRGY-3 contribute to its performance?
The optimized carbon content (4.0±1.0%) forms a conductive network around the silicon particles, enhancing electronic conductivity for better rate performance and helping to buffer volume expansion during cycling, thereby improving structural integrity.