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The global supply of 6N-7N ultra-high-purity CO₂ continues to face pressure, and the electronic specialty gas supply chain is witnessing a reshaping of its structure.

The global semiconductor manufacturing industry faces a structural supply-demand imbalance. After helium and fluorine-based specialty gases, 6N–7N ultra-high-purity CO₂ for advanced chip manufacturing has become another core consumable with medium-to-long-term structural supply shortages. Multiple industry institutions forecast the global supply shortfall of this material will reach 12%–15% by 2026.

The global semiconductor manufacturing industry faces a structural supply-demand imbalance. After helium and fluorine-based specialty gases, 6N–7N ultra-high-purity CO₂ for advanced chip manufacturing has become another core consumable with medium-to-long-term structural supply shortages. Multiple industry institutions forecast the global supply shortfall of this material will reach 12%–15% by 2026. Traditional gas source output has shrunk, cross-border delivery cycles have extended, and regional spot prices have kept climbing. The long-standing oligopolistic supply landscape in overseas markets has been disrupted, triggering supply chain restructuring and creating new growth opportunities for global electronic specialty gas manufacturers.

1.The global imbalance between supply and demand has brought about a chain reaction throughout the entire industry chain.

1.There is a long-term and structural imbalance between supply and demand.
Ultra-high-purity CO₂ is an indispensable specialty material in the chip manufacturing process, mainly used in the supercritical carbon dioxide cleaning procedures of 7–28nm logic chips, HBM (High-Bandwidth Memory), and 3D NAND flash memory. It directly affects the wafer yield and process stability. Currently, there is no substitute material with matching performance. Multiple global industrial research institutes forecast that by 2026, the global supply shortfall of 6N/7N ultra-high-purity CO₂ tailored for advanced processes will hit 12%–15%. This round of supply shortage stems from the underlying structural contradictions in the industry, rather than short-term seasonal fluctuations.

2.Supply side: The gas sources in traditional production areas continue to shrink.
The core reason for the tightening of the supply side is the continuous reduction of global high-end and high-quality raw gas sources. The mainstream production path for semiconductor-grade high-purity CO₂ mainly involves the recovery and purification of hydrogen tail gas from petrochemicals, refining, and hydrogen production. The pure chemical synthesis route is costly and has weak controllability of impurities, rendering it unviable for mass commercial production. The production process adopts multi-stage precision distillation combined with catalytic oxidation and molecular sieve adsorption purification techniques, along with a fully enclosed and clean storage and transportation system. It targets the control of trace impurities such as hydrogen, oxygen and argon mixtures, nitrogen, carbon monoxide, methane, and moisture at different levels. Taking 6N grade (purity ≥ 99.9999%) products as an example, the concentration limit for each single impurity is controlled between 0.01 ppm and 0.17 ppm. For 7N products, the purity is ≥ 99.99999%, and allowable limits of individual impurities are further tightened down to the ppb range. In recent years, capacity utilization rates of chemical facilities in core traditional semiconductor manufacturing hubs including Europe and South Korea have continued to decline, and the supply of high-quality and stable tail gas sources has continued to decrease. The effective production capacity of high-end and high-purity CO₂ suitable for export and compatible with advanced manufacturing processes has also shrunk simultaneously worldwide.

3.The rigid expansion at the demand end amplifies the risks in the supply chain.
The demand side maintains a rigid expansion trend. New production lines for advanced logic and high-end storage have been put into operation in various parts of the world. In addition, major wafer factories have increased pre-stocking and strengthened long-term purchase agreements due to supply chain risk control. As a result, the supply-demand gap has further widened. Currently, inventory levels of high-purity CO₂ held by leading European and South Korean wafer fabs have dropped below the industry’s standard one-month safety stock threshold. Spot prices across the Asia-Pacific, Japan and South Korea have surged over 20% year-on-year. The extended supply chain cycle, frequent supply fluctuations, and continuous rising procurement costs have fully exposed the current vulnerability of the global semiconductor material supply chain in terms of risk resistance.

4.The traditional monopoly model has laid the groundwork for potential centralization risks.
For a long time, the global high-end high-purity CO₂ market has been highly concentrated. A few international established gas companies, relying on their pioneering technologies, long-term customer qualification barriers, and their own stable gas source resources, have occupied the vast majority of the market share. The gas source procurement channels for global wafer factories are relatively single, and supply chain concentration risks remain acute.

2.Market opportunities and long-term development trends under industry reconfiguration

1.Global supply chain diversification has become an essential requirement for the industry.

After years of global technological research and development iterations, multiple manufacturers worldwide have realized stable mass production of 6N to 7N ultra-high-purity CO₂. The product purity, batch stability, and production consistency all comply with international common semiconductor manufacturing standards, and can meet the production needs of all types of advanced production lines. Compared with the current situation where traditional gas sources have experienced capacity decline and insufficient delivery stability, newly commissioned production capacity features ample expandability, flexible local delivery and a well-balanced overall cost profile, providing a feasible solution for diversified global gas source layout.

2.High-purity CO₂: The fastest-replaceable high-end consumable with robust growth momentum

Unlike photoresists and premium silicon wafers that require years of full-flow qualification verification, ultra-high-purity CO₂ features standardized certification workflows, short customer onboarding cycles and superior commercialization efficiency. It belongs to the sub-category of high-end consumables with the fastest rate of substitution promotion. Facing global supply shortages, global wafer manufacturing enterprises generally adjust their procurement strategies, open new supplier qualification review channels, adopt dual-supplier strategies and multi-region parallel gas inventory systems, and the high-purity CO₂ industry has officially entered a period of diversified supply substitution.

3.The entire industry is accelerating its structural upgrading.

This global supply gap has simultaneously driven the structural upgrading of the international electronic specialty gas industry. Downstream chipmakers have shifted their procurement strategy from exclusive reliance on legacy top gas suppliers to a risk-mitigating framework prioritizing supply chain resilience and diversified sourcing channels. This has significantly lowered the market entry barriers for emerging manufacturers and accelerated the testing and mass introduction of all categories of high-end electronic specialty gases worldwide. With the continuous improvement of regional layout for the global semiconductor industry, low-efficiency industrial-grade CO₂ capacity with insufficient purity for semiconductor applications is being gradually phased out, and the high-purity and high-stability high-end production capacity has continued to expand.

4.Long-term industry development forecast

Based on the overall industry trend analysis, the global tight supply-demand balance for ultra-high-purity CO₂ cannot be eased in the short run, and the supply chain diversification adjustment cycle will remain lengthy. The global electronic specialty gas industry is experiencing a structural turning point. Suppliers with mature production capabilities and stable technical reserves will continue to fill the global supply gap and promote the transformation of the global semiconductor electronic specialty gas supply chain toward a multi-supplier, multi-region, risk-balanced layout.

3.Adapt to global diversified procurement demands: Xenon Tritium Technology’s 6N/7N ultra-pure CO₂ supply solution

The global gas supply is continuously tight, and wafer factories urgently need multiple backup gas sources. Xenon Tritium semiconductor-grade ultra-high-purity CO₂ is suitable for 7–28nm chips, HBM, and 3D NAND cleaning processes. As a stable alternative gas source, it can mitigate risks including single overseas supplier outages, price surges and shipment delays.

  • High Purity & Process Compatibility: It adopts advanced deep tail gas purification paired with closed-loop multi-stage distillation impurity removal technology, enabling stable mass production of 6N/7N ultra-high-purity CO₂ compliant with the above standards. Various trace impurities are strictly controlled, and the batch performance is stable. Products are filled into standard high-pressure cylinders for fully sealed, contamination-free storage and transportation to prevent secondary impurities and guarantee stable wafer yields.
  • One-Stop Global Comprehensive Service: We supply full sets of test certificates and on-site technical testing support to shorten customers’ qualification cycles; we have built a mature cross-border logistics network covering major wafer fabrication hubs worldwide, cutting customers’ cross-border procurement lead time and costs.
  • Full-Spectrum Supply of Semiconductor Specialty Gases: Backed by our mature purification, QC, storage and transportation technologies, we have developed a full portfolio of semiconductor specialty gases to meet the multi-material centralized purchasing and long-term expansion needs of chip manufacturers.

Supply chain diversification and globalization have become irreversible industry trends. Xenon Tritium, with its stable production capacity, ultra-high purity standards, and global delivery capabilities, is a high-quality partner for optimizing the gas source structure of global wafer factories and ensuring the continuous operation of production lines.

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