In the third quarter of 2023, the economy is growing rapidly, and the demand for domestic chips is gradually increasing. Driven by the continued demand for artificial intelligence, the total output value of the semiconductor industry increased by 84% to $139 billion. After five consecutive quarters of decline, the industry is now finally seeing two consecutive quarters of growth.
The semiconductor industry is growing rapidly and requires more clean water.
For the booming domestic semiconductor industry, whether it can improve yield and reduce costs is the decisive key to development. Ultrapure water plays an important role in these two segments. Ultrapure water with higher purity is one of the cornerstones to ensure chip yield and efficient production, and advanced water utilization solutions can ensure the implementation of the company's low-cost and sustainable development strategy.
Due to the high threshold for the production of electronic-grade ultrapure water, there are high requirements for the company's technical and technological capabilities, as well as engineering practical experience and product quality control capabilitiesMoreover, as the chip process becomes more and more meticulous and the number of lithography steps increases, the number of steps that need to be cleaned is further increased, and the requirements for ultrapure water quality are also more stringent. This poses new challenges to the production technology of ultrapure water manufacturers. As an important part of the semiconductor industry chain, ultrapure water preparation enterprises need to continuously improve their technology and process capabilities to adapt to industrial development.
Based on the field of ultrapure water, high-frequency technology helps the semiconductor industry.
As an industry-leading local ultra-pure process technology company, HF Technology focuses on high-end semiconductor manufacturing, and has mastered all the core processes of ultrapure water required for advanced semiconductor manufacturing processes through continuous innovation and breakthroughs. In particular, it has significant advantages in the removal of TOC and dissolved oxygen at the PPB level, as well as the removal of special substances such as boron and silicon at the PPT level. And with excellent technical control and engineering practical experience, the water quality of the produced water is close to absolute purity, and the conductivity is infinitely close to 18The theoretical limit value of 24m cm can reach a purity of 999999999999% to meet the increasing water demand of the semiconductor industry, and in doing so, it has created a strong technical barrier to the industry.
In view of the characteristics of large water consumption and relatively low water resource utilization rate in the semiconductor industry, high-frequency technology has created a recycling system of electronic grade water system, and the water process rate can reach 75%-90%, which can not only help semiconductor enterprises reduce water consumption and energy consumption, but also ensure the utilization of trace elements, improve the recycling efficiency of water, optimize production costs, and achieve ecological and economic benefits.
The particularity of semiconductor products requires the production volume and water quality of ultrapure water used to clean chips to be maintained at a high level, which requires ultrapure water preparation enterprises to have strong engineering practice capabilities to ensure the advancement and stability of ultrapure water systems. Through years of business cooperation with well-known customers in the industry, HF Technology has formed an experienced R&D, production and engineering team to create a safe and efficient ultrapure water preparation and management system to meet the strict requirements of the semiconductor industry for high quality and stability of ultrapure water.
It is believed that in the future, ultrapure water enterprises represented by high-frequency technology will continue to uphold a high sense of responsibility and mission, continuously improve their R&D and innovation capabilities, provide support for the reliability and stability of advanced semiconductor processes, and make new contributions to the rise of the industry.