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市場調査レポート
商品コード
1622991
シリコンウェーハ市場:地域別、2024年~2031年Silicon Wafers Market Size by Type, Wafer Size, Application, End-User Industry, Fabrication Method & Region for 2024-2031 |
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シリコンウェーハ市場:地域別、2024年~2031年 |
出版日: 2024年11月08日
発行: Verified Market Research
ページ情報: 英文 202 Pages
納期: 2~3営業日
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シリコンウェーハ市場は、コンシューマーエレクトロニクスや自動車用途における半導体需要の増加に牽引され、急速に拡大しています。技術の開発により、メーカーはウェーハの大型化と効率的な生産技術の開発を進めています。これにより、市場規模は2024年に110億7,000万米ドルを突破し、2031年には約191億7,000万米ドルに達する見込みです。
再生可能エネルギーシステムや電気自動車の採用が増加していることも、市場をさらに活性化しています。通信やヘルスケアなどの産業もシリコンウェーハの使用を加速しており、高度な電子機器の開発における役割を高めています。シリコンウェーハ需要の高まりは、2024年から2031年にかけてのCAGR7.10%を可能にしています。
定義/概要
シリコンウェーハとは、シリコンから作られた薄くて平らなディスクのことで、半導体の製造において基板として使用されます。このウェーハは、その優れた導電特性により、集積回路、マイクロチップ、様々な電子デバイスを製造するための基盤として機能します。
家電、自動車、通信などの産業で広く使用されています。シリコンウェーハは、スマートフォン、コンピューター、センサー、太陽電池などのデバイスで重要な役割を果たし、現代のエレクトロニクスの小型化と効率化を支えています。
今後、人工知能、5G技術、電気自動車の台頭により、シリコンウェーハの将来は有望視されています。産業界が革新を続け、先進的な半導体技術を様々なアプリケーションに統合していく中で、その需要は拡大していくと予想されます。
電気自動車(EV)の普及は、パワーエレクトロニクスのニーズの高まりにより、シリコンウェーハ産業を後押ししています。インバーター、電力制御ユニット、バッテリー管理システムはすべて、エネルギーを効率的に処理するためにEVで使用されるシリコンベースのコンポーネントです。シリコンウェーハは、EVの電力変換と配電を管理する半導体を製造するために必要であり、その結果、性能とエネルギー効率が向上します。
EVの生産が国際的に拡大するにつれて、シリコンベースのチップのような高度な半導体技術の需要が高まり、その結果、シリコンウェーハの需要が高まる。市場はまた、コストを下げながらデバイス性能を向上させる、より大きく高品質なウェーハを求める動きも見ています。さらに、EVの普及や再生可能エネルギーへのシフトを後押しする政府の政策も、ウェーハ市場の継続的な拡大につながった。
製造コストが高いことは、複雑な工程を伴うため、シリコンウェーハ市場の成長にとって重要な課題です。シリコンウェーハの製造には、クリーンルーム設備や精密な化学治療など、最先端の技術と設備が必要です。特に、半導体や太陽光発電のような産業でますます必要とされるようになっている、より大きなウェーハサイズでは、これらの変数が運用コストを上昇させる。
原材料のコストや製造工程でのエネルギー使用は、全体的なコストを押し上げます。また、製造業者は高い歩留まりを維持するためのハードルにも直面しており、不具合が生じると大きな廃棄物となり、製造コストが上昇します。その結果、こうした高コストが市場拡大の妨げとなり、特に、財務的負担に耐えられる大手企業との競争に苦戦する可能性のある中小企業や成長企業にとってはなおさらです。この問題は、価格に敏感な顧客が代替品を求めるため、技術革新を遅らせ、市場拡大を遅らせる可能性があります。
The Silicon Wafers Market is expanding rapidly, driven by the increasing demand for semiconductors in consumer electronics and automotive applications. Advancements in technology are pushing manufacturers to develop larger wafer sizes and more efficient production techniques. This is likely to enable the market size to surpass USD 11.07 Billion valued in 2024 to reach a valuation of aroundUSD 19.17 Billion by 2031.
The growing adoption of renewable energy systems and electric vehicles is further fueling the market. Industries such as telecommunications and healthcare are also accelerating the use of Silicon wafers, enhancing their role in the development of advanced electronic devices. The rising demand for Silicon wafers is enabling the market to grow at aCAGR of 7.10% from 2024 to 2031.
Definition/Overview
Silicon wafers are thin, flat discs made from Silicon, used as a substrate in the manufacturing of semiconductors. These wafers serve as the foundation for creating integrated circuits, microchips and various electronic devices, due to their excellent conductive properties.
They are widely used in industries such as consumer electronics, automotive and telecommunications. Silicon wafers play a crucial role in devices like smartphones, computers, sensors and solar cells, supporting the miniaturization and efficiency of modern electronics.
Looking ahead, the future of Silicon wafers looks promising with the rise of artificial intelligence, 5G technology and electric vehicles. Their demand is expected to grow as industries continue innovating and integrating advanced semiconductor technologies into various applications.
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The growing adoption of electric vehicles (EVs) is boosting the silicon wafers industry, owing to the rising need for power electronics. Inverters, power control units, and battery management systems are all silicon-based components used in EVs to handle energy efficiently. Silicon wafers are required to produce semiconductors that manage power conversion and distribution in EVs, resulting in improved performance and energy efficiency.
As EV production expands internationally, the demand for advanced semiconductor technologies such as silicon-based chips grow, resulting in a higher demand for silicon wafers. The market is also seeing a push for larger, higher-quality wafers, which improve device performance while lowering costs. Furthermore, government policies boosting EV use and the shift toward renewable energy led to the continued expansion of the industry wafers market.
The high cost of manufacturing is a significant challenge for the growth of the silicon wafers market due to the complex processes involved. Silicon wafer fabrication necessitates cutting-edge technology and equipment, including cleanroom facilities and precise chemical treatments. These variables raise operational costs, particularly for higher wafer sizes, which are increasingly required by industries like as semiconductors and photovoltaics.
The cost of raw materials and energy use throughout the manufacturing process drive up overall costs. Manufacturers also confront hurdles in maintaining high yields, as any faults can result in significant waste and higher manufacturing costs. As a result, these high expenses hinder market expansion, particularly for smaller or growing enterprises that may struggle to compete with larger players capable of bearing the financial burden. This issue can slow innovation and delay market expansion as price-sensitive customers seek alternatives.
The rise in demand for advanced consumer electronics has a considerable impact on the silicon wafer business. As technology advances, there is a greater demand for high-performance CPUs found in smartphones, tablets, laptops, and smart home devices. These devices frequently necessitate larger and more efficient silicon wafers to increase processing power and energy efficiency, resulting in market growth.
Technologies like the Internet of Things (IoT) and 5G technology enhance demand for better microprocessors and integrated circuits, driving up silicon wafer consumption. Manufacturers are investing in cutting-edge technology and techniques to create higher-quality wafers that will fulfill the needs of next-generation devices. This increased demand promotes competition among wafer producers, resulting in technological breakthroughs and economies of scale. As a result, the market for silicon wafers is predicted to robust growth as it aligns with the expanding consumer electronics sector, positioning itself as a critical component in future technological developments.
The increasing demand for premier grade silicon wafers is expected to have a substantial impact on market trends. Prime grade wafers, which are distinguished by their outstanding quality and low flaws, are required for high-performance applications in semiconductors, photovoltaics, and sophisticated electronics. As companies seek better efficiency and dependability, the demand for these high-quality wafers grows.
This tendency drives manufacturers to improve production methods and invest in cutting-edge technologies to increase wafer quality. Furthermore, as more organizations implement cutting-edge technologies like AI and machine learning, the demand for high-purity, defect-free silicon wafers will grow. As a result, market players may focus on differentiating their services by providing high-quality wafers, potentially leading to price adjustments and changes in supply chain dynamics. Overall, the shift to prime-grade silicon wafers will drive innovation and competition within the silicon wafer market.
The strong semiconductor manufacturing base in Asia-Pacific is likely to continue dominating the Silicon wafers market. This region benefits from advanced technological infrastructure, extensive production capabilities and high demand for consumer electronics. Key players in countries like China, Japan and South Korea drive market growth through innovations and large-scale production, solidifying Asia-Pacific's leadership and shaping global trends in the Silicon wafers industry.
Expanding technological investments in Latin America are set to accelerate the growth of the Silicon wafers market. The region's focus on enhancing technology infrastructure and rising demand for electronics are driving significant investments in semiconductor manufacturing. As countries like Brazil and Mexico improve their production capabilities and attract global semiconductor companies, Latin America's role in the Silicon wafers market strengthens, leading to rapid growth and development.
The silicon wafers market is a dynamic and competitive space, characterized by a diverse range of players vying for market share. These players are on the run for solidifying their presence through the adoption of strategic plans such as collaborations, mergers, acquisitions and political support. The organizations are focusing on innovating their product line to serve the vast population in diverse regions.
Some of the prominent players operating in the Silicon Wafers market include:
Shin-Etsu Handotai
Siltronic AG
SUMCO Corporation
SK Siltron Co., Ltd
GlobalWafers Co., Ltd
Okmetic Inc.
Wafer Works Corporation
Episil-Precision Inc.
FST Corporation
Tata Electronics
VIS
Zhonghuan Advanced Semiconductor Materials
In August 2024, Shin-Etsu successfully completed a tender offer for shares of Mimasu Semiconductor Industry Co., Ltd., which will become a consolidated subsidiary effective August 13, 2024.
In June 2024, VIS announced a collaboration with NXP Semiconductors N.V. to build a semiconductor wafer manufacturing plant in Singapore, valued at USD 7.8 billion, focusing on mixed-signal, power management and analog products.
In February 2024, Wafer Works debuted on Shanghai's STAR Market and launched a major expansion project for 12-inch wafer production in Taiwan.
In February 2024, the Indian government approved Tata Electronics' proposal to develop a semiconductor manufacturing facility in Dholera, Gujarat, capable of producing up to 50,000 wafers monthly.