Silicon-Based Anode Material Series TRGY-1 Battery Anode Material

Overview of Silicon-Based Anode Material Series TRGY-1

The Silicon-Based Anode Material Series TRGY-1 is a high-capacity anode solution engineered to meet the growing demands for superior energy density in lithium-ion batteries. This material leverages a specialized silicon-based composition, optimized to deliver exceptional reversible capacity while maintaining structural integrity. Characterized by its uniform particle morphology and a conductive carbon coating, TRGY-1 effectively balances the high lithium storage potential of silicon with practical considerations for cycle life and rate capability. It is an ideal choice for battery manufacturers targeting significant performance enhancements in a versatile range of applications, from consumer electronics to electric mobility.

Features of Silicon-Based Anode Material Series TRGY-1

• Exceptionally High Reversible Capacity: Delivers a typical capacity of ≥1600 mAh/g, far exceeding conventional graphite anodes.
• Excellent Rate Performance: Formulated to support efficient charging and discharging at higher currents.
• Optimized Particle Size Distribution: Features a controlled D50 of 6.0±1.0 μm, ensuring consistent electrode processing and density.
• Stable Physical Characteristics: Low specific surface area and moderate carbon content contribute to good first-cycle efficiency and slurry stability.
• Proven Compatibility: Specifically suited for cylindrical and pouch cell battery systems.

Applications of Silicon-Based Anode Material Series TRGY-1

• High-Energy Density Cylindrical Cells
• Advanced Pouch Cell Batteries
• Premium Consumer Electronics (e.g., smartphones, laptops)
• Light Electric Vehicles (e-bikes, e-scooters)
• High-Power Tools and Drones

Specification Table of Silicon-Based Anode Material Series TRGY-1

Parameter	Unit	Typical Value	Test Method
Reversible Capacity	mAh/g	≥ 1600	CT2001A Test System
First Cycle Efficiency	%	≥ 75.0	CT2001A Test System
Particle Size (D50)	μm	6.0 ± 1.0	Mastersizer 3000
Tap Density	g/cm³	1.15 ± 0.15	BT-301 Tapping Apparatus
Specific Surface Area	m²/g	1.5 ± 0.5	ASAP 2460 Analyzer
Carbon Content	%	3.0 ± 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-1

1. What is the primary advantage of TRGY-1 over graphite?
TRGY-1 offers a significantly higher reversible capacity (≥1600 mAh/g vs. ~372 mAh/g for graphite), enabling much higher energy density in batteries for longer runtimes.

2. How does the particle size distribution benefit battery manufacturing?
The tightly controlled particle size distribution (D50: 6.0±1.0 μm) ensures high packing density, uniform slurry mixing, and the formation of a consistent electrode coating, which is critical for performance and yield.

3. Is this material suitable for high-rate applications?
Yes, the product data sheet highlights excellent rate performance as a key feature, making it suitable for applications requiring fast charging or high-power discharge, such as power tools.

4. What is the typical application ratio for TRGY-1?
While it can be used as a standalone anode, it is commonly blended with graphite in various ratios (e.g., 5-20%) to optimally balance the high capacity of silicon with the cycling stability of graphite.

5. How is the moisture content controlled, and why is it important?
A low moisture content (≤0.5%) is a strict internal control parameter, tested via a moisture analyzer. This is critical to prevent gas generation during battery formation and ensure long-term cycle life and safety.