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What are the main steps in the processing of SiC substrates?
How we produce-processing steps for SiC substrates are as follows: 1. Crystal Orientation: Using X-ray diffraction to orient the crystal ingot. When an X-ray beam is directed at the desired crystal face, the angle of the diffracted beam determines the crystal orienta...Read more -
An important material that determines the quality of single crystal silicon growth – thermal field
The growth process of single crystal silicon is completely carried out in the thermal field. A good thermal field is conducive to improving crystal quality and has high crystallization efficiency. The design of the thermal field largely determines the changes and changes...Read more -
What is epitaxial growth?
Epitaxial growth is a technology that grows a single crystal layer on a single crystal substrate (substrate) with the same crystal orientation as the substrate, as if the original crystal has extended outward. This newly grown single crystal layer can be different from the substrate in terms of c...Read more -
What is the difference between substrate and epitaxy?
In the wafer preparation process, there are two core links: one is the preparation of the substrate, and the other is the implementation of the epitaxial process. The substrate, a wafer carefully crafted from semiconductor single crystal material, can be directly put into the wafer manufacturing ...Read more -
Unveiling the Versatile Characteristics of Graphite Heaters
Graphite heaters have emerged as indispensable tools across various industries due to their exceptional properties and versatility. From laboratories to industrial settings, these heaters play a pivotal role in processes ranging from material synthesis to analytical techniques. Among the various ...Read more -
Detailed explanation of the advantages and disadvantages of dry etching and wet etching
In semiconductor manufacturing, there is a technique called “etching” during the processing of a substrate or a thin film formed on the substrate. The development of etching technology has played a role in realizing the prediction made by Intel founder Gordon Moore in 1965 that “...Read more -
Unveiling the High Thermal Efficiency and Stellar Stability of Silicon Carbide Heaters
Silicon carbide (SiC) heaters are at the forefront of thermal management in the semiconductor industry. This article explores the exceptional thermal efficiency and remarkable stability of SiC heaters, shedding light on their crucial role in ensuring optimal performance and reliability in semicon...Read more -
Exploring the High Strength and High Hardness Characteristics of Silicon Carbide Wafer Boats
Silicon carbide (SiC) wafer boats play a crucial role in the semiconductor industry, facilitating the production of high-quality electronic devices. This article delves into the remarkable features of SiC wafer boats, focusing on their exceptional strength and hardness, and highlights their signi...Read more -
The Excellent Performance of Silicon Carbide Wafer Boats in Crystal Growth
Crystal growth processes lie at the heart of semiconductor fabrication, where the production of high-quality wafers is crucial. An integral component in these processes is the silicon carbide (SiC) wafer boat. SiC wafer boats have gained significant recognition in the industry due to their except...Read more -
The Remarkable Thermal Conductivity of Graphite Heaters in Single Crystal Furnace Thermal Fields
In the realm of single crystal furnace technology, the efficiency and precision of thermal management are paramount. Achieving optimal temperature uniformity and stability is crucial in growing high-quality single crystals. To address these challenges, graphite heaters have emerged as a remarkabl...Read more -
The Thermal Stability of Quartz Components in the Semiconductor Industry
Introduction In the semiconductor industry, thermal stability is of utmost importance to ensure the reliable and efficient operation of critical components. Quartz, a crystalline form of silicon dioxide (SiO2), has gained significant recognition for its exceptional thermal stability properties. T...Read more -
Corrosion Resistance of Tantalum Carbide Coatings in the Semiconductor Industry
Title: Corrosion Resistance of Tantalum Carbide Coatings in the Semiconductor Industry Introduction In the semiconductor industry, corrosion poses a significant challenge to the longevity and performance of critical components. Tantalum carbide (TaC) coatings have emerged as a promising solution ...Read more