In electric vehicles, renewable energy systems, rail transit, and even the coming wave of 6G communication, one material is becoming the key to technological transformation — silicon carbide (SiC) single-crystal substrates.
As the core material of third-generation semiconductors, SiC is redefining the limits of power electronics and RF device performance through its exceptional physical properties.

1. Unique Advantages of Silicon Carbide Substrates

Compared with traditional silicon materials, silicon carbide offers four major physical advantages:
Wide Bandgap: Enables operation under higher voltages and temperatures.
High Breakdown Electric Field: Ideal for high-voltage, high-power applications.
High Thermal Conductivity: About 3–3.5 times that of silicon, significantly reducing chip junction temperature.
High Electron Saturation Velocity: Supports higher switching frequencies and greater energy conversion efficiency.
These properties allow SiC devices to operate stably under high temperature, high voltage, and high frequency conditions — making it the ideal material for next-generation power and RF systems.

2. Key Application Fields of SiC Substrates

The following table provides an overview of where SiC substrates are used and the key advantages they deliver:

Application Field	Specific Scenario	Core Advantages of SiC Substrate
Electric Vehicles & Charging Infrastructure	On-board inverters, OBC, DC-DC converters, fast chargers	High voltage resistance, high frequency, high thermal conductivity: improved energy efficiency, reduced system size and weight, extended driving range.
Wireless Communication Infrastructure	5G/6G base station RF power modules	High frequency, high power: enhanced signal transmission efficiency and base station power capacity.
Rail Transit & Smart Grids	High-speed train converters, smart grid transmission systems	High voltage resistance and reliability: suitable for high-voltage environments, improved grid control and system stability.
Optics & AR Applications	AR waveguide lenses, Micro-LED substrates	Excellent optical properties: high refractive index and precision, enabling high-brightness displays.

 

3. Technology Development Trends: Toward Larger and Higher-Quality Wafers

1. Large-Size Substrates: An Industry Trend

SiC substrates are evolving from 4-inch and 6-inch to 8-inch and even 12-inch wafers.
The 12-inch SiC substrate offers major benefits:
Compatibility with existing 12-inch silicon wafer production lines;
Higher chip yield per wafer;
Significant cost reduction.
Several Chinese companies, including TankeBlue, TianKeheda, and SICC, have announced successful development of 12-inch SiC substrates, marking a key milestone toward mass production and industrial scalability.

2. High Quality: The Prerequisite for Applications

Scaling up wafer size brings new technical challenges — particularly defect control and warpage.
Substrate warpage can seriously affect epitaxial growth uniformity and chip yield. To address this, the industry is:
Optimizing grinding and polishing sequences;
Adopting dynamic thermal annealing techniques;
Improving crystal growth and stress management;
to ensure superior flatness and structural integrity of the substrate.
 

4. Thermal Management: SiC’s Hidden Superpower

The inherently high thermal conductivity of silicon carbide makes it a game-changer for thermal management — a crucial factor for high-power and high-frequency devices.

Core Advantages:

1. Efficient Heat Dissipation
During device operation, SiC substrates act as a “thermal expressway,” rapidly conducting heat from the chip junction to the package or heatsink, preventing thermal buildup.
2. Higher Power Density
Superior heat dissipation enables higher output power in a smaller footprint — a key to compact, lightweight designs.
3. Enhanced Reliability and Lifetime
Lower operating junction temperatures significantly extend device lifespan and ensure stable operation in harsh environments such as electric vehicles and industrial systems.
 

5. Application Flow Overview (Thermal Perspective)

SiC Substrate → High Thermal Conductivity → Efficient Heat Dissipation → Enhanced Application Performance

Application Area	Example Device	Key Benefits
Power Electronics	EV inverters / OBC	Increased power density and reliability
RF Communication	5G / Radar power amplifiers	Improved output power and signal linearity
Optoelectronics	AR glasses / Micro-LED	Eliminates “thermal barriers,” enables high-brightness displays

Across power, RF, and optical domains, thermal conductivity is the shared foundation enabling SiC substrates to deliver high-performance results.
 

6. Conclusion: Accelerating into the Silicon Carbide Era

Silicon carbide substrates are entering a golden era of rapid development and expanding applications.
They are not just enhancing performance in power electronics and RF systems — they are also driving the global transition toward cleaner transportation and smarter energy networks.
As large-diameter wafer production becomes mainstream and manufacturing costs continue to drop, SiC substrates will extend their reach across an even broader range of high-efficiency, high-performance applications.
Silicon carbide is more than just a material — it is the foundation of a high-performance, energy-efficient future.



About Us · JXT Technology Co., Ltd.
JXT Technology Co., Ltd. specializes in the research, development, and supply of silicon carbide (SiC) materials.
We offer 2-inch to 8-inch SiC substrates and wafers, with customizable thickness, dimensions, and cutting specifications to meet diverse needs in R&D, power device fabrication, and RF module development.
For detailed product information or sample requests, please contact us — JXT Technology looks forward to advancing the future of wide bandgap semiconductor innovation together.