Semiconductor Wafer Cleaning Equipment Market: Global Industry Analysis and Forecast (2022-2029)

Semiconductor Wafer Cleaning Equipment Market size was valued at US$ 6.42 Bn. in 2021 and the total revenue is expected to grow at a CAGR of 9.13% from 2022 to 2029, reaching nearly US$ 12.91 Bn.

Semiconductor Wafer Cleaning Equipment Market Overview:

Semiconductor Wafer Cleaning Equipment Market is expected to reach US$ 12.91 Bn. by 2029. Wafer cleaning is the process of removing particles or contaminants without compromising the semiconductor surface's quality. Contaminants and particle impurities on the device's surface wafers have a significant impact on the device's performance and dependability. This report focuses on the different segments of the Semiconductor Wafer Cleaning Equipment market (Product, Wafer Size, Technology, Operation Mode, Application, and Region). This report offers a detailed analysis of the top industry participants and geographic regions (North America, Asia Pacific, Europe, Middle East & Africa, and South America). It offers a thorough examination of the phenomenal modern-era growth in the many sectors. Figures, graphics, and slideshows emphasise the essential data analysis from 2017 to 2021. The market drivers, restraints, opportunities, and challenges for Semiconductor Wafer Cleaning Equipment are examined in this report. The MMR report's investment suggestions are based on a thorough examination of the current competitive environment in the Semiconductor Wafer Cleaning Equipment market. Semiconductor Wafer Cleaning Equipment Market To know about the Research Methodology:-Request Free Sample Report COVID-19 Impact on the Semiconductor Wafer Cleaning Equipment Market: Applied Materials, LAM Research, Shibaura Mechatronics Corporation, PVA TePLA AG, Entregris Inc., Semes Co. Ltd., Modutek Corporation, and Veeco Instruments are a few significant Tier 1 and Tier 2 vendors in the semiconductor wafer cleaning equipment market. The manufacturing locations of these suppliers are dispersed over numerous nations in the RoW, Europe, North America, South America, and Asia Pacific. These businesses produce semiconductor wafer cleaning equipment that is utilized in end-use industries like the automobile, consumer electronics, healthcare, and a few others. COVID-19 had an effect on both the operations of the various semiconductor equipment production industries and the commercial operations of firms in those industries. Wafer cleaning equipment sales were impacted globally by the decline in consumer electronics demand brought on by lockdown procedures. Another factor that is expected to have a negative effect on the market for semiconductor wafer cleaning equipment is the ongoing decline in global demand and export shipments for automobiles. However, a recovery in the semiconductor wafer cleaning equipment market is expected due to rising demand from the healthcare industry. Even in these pandemic periods, there is expected to be a rise in the demand for personal monitoring equipment.

Semiconductor Wafer Cleaning Equipment Market Dynamics:

The healthcare and life sciences sector is experiencing tremendous growth as a result of, among other things, changing consumer tastes and demography. The market is growing due to the adoption of Micro-Electro-Mechanical Systems Technology in medical devices. The use of semiconductor wafer cleaning equipment in medical devices helps the developing and manufacturing companies stay on top of the most recent developments and accelerate the time it takes to market. As healthcare and medical devices have developed into home health and fitness devices, the need for semiconductor wafers in the healthcare sector is expected to be driven by medical and fitness devices. The global market for semiconductor wafer cleaning equipment is growing rapidly due to the rise in the usage of smart, compatible devices and workable networks. The way that smartphone technology is evolving is having an impact on consumers' daily marketing plans, professional endeavours, and lifestyle choices. Success in modern technology is largely dependent on how well-liked smartphone technology is. Because of this, it is incredibly essential to identify the key variables that affect how consumers use smartphone technology. Smartphone use is increasing significantly, and as a result, more smartphones are being produced in large quantities. Smartphone prices have decreased overall as a result of the rise in demand for them. It is one of the factors that has influenced the growing use of smartphones all over the world. Wafers made of semiconductors facilitate and speed up a variety of automotive procedures and processes. By controlling ECU operations including seats, power windows, braking, steering, taillights, and headlights, these play a crucial role in the electronic control unit in the automobiles. The use of semiconductor wafers in an electric car can offer a smart interface for multiplexing communication with other electric vehicles nearby. Additionally, the digital semiconductor wafer, parts for controlling and monitoring the motor and power electronics, and modules for processing sensor signals, communication, and power supply make up the majority of the motor controller in electric vehicles. The design of the electric charging vehicle also includes a control unit built on a semiconductor wafer and a display and indication to show the charging status. However, the semiconductor wafer cleaning procedure is crucial in maintaining the high quality of the devices without compromising them by cleaning the semiconductor wafers utilized in various devices. However, during the production and cleaning operations for semiconductor wafers, several chemicals that are harmful to people and the environment are released. These dangerous substances include, among others, germane (GeH4), antimony trioxide (SbO3), arsenic pentafluoride (AsF5), arsenic (As), boron trifluoride (BF3), chlorine (Cl), and oxidized carbons. These substances can be harmful to both human and environmental health, as well as to flora and animals.

Semiconductor Wafer Cleaning Equipment Market Segment Analysis:

Based on the Product, the market is segmented into Single Wafer Spray System, Single Wafer Cryogenic System, Batch Immersion Cleaning System, Batch Spray Cleaning System, and Scrubber. Batch Spray Cleaning System segment is expected to hold the largest market share of xx% by 2029. The ability of the technology to process numerous wafers simultaneously while also saving time and money on cleaning can be attributed with the segment's growth. For manufacturing in large quantities, batch processing is used, which aids in achieving economies of scale. In order to produce large batches with a high throughput or small batches with quick cycle durations, a batch spray cleaning system can perform the tasks of both a single wafer processing system and a batch immersion processing system. Based on the Wafer Size, the market is segmented into ≤150 mm, 200 mm, and 300 mm. 300 mm Wafer Size segment is expected to grow rapidly at a CAGR of xx% during the forecast period 2022-2029. The use of these wafers in more electronic and semiconductor devices, including ICs, MEMS, and LEDs, is one factor contributing to the rise. Although the widespread coronavirus outbreak has had an impact on consumer electronics globally, the market for integrated circuits (ICs) is expected to be less affected because MEMS for patient monitoring uses 300 mm wafers. Additionally, 300 mm wafers are being used in LED applications more frequently due to their higher yield when compared to other wafer sizes. Based on the Technology, the market is segmented into Wet Chemistry-Based Cleaning Technology, Etch Cleaning Technology, and Front Side up Cleaning Technology. Wet Chemistry-Based Cleaning Technology segment is expected to grow rapidly at a CAGR of 9.22% during the forecast period 2022-2029. The most widely utilised chemical cleaning method for removing contamination from semiconductor chip surfaces is wet chemistry-based cleaning technology. The wafers are usually cleaned with this process using hydrofluoric acid and ozonized water. When cleaning semiconductor wafers using wet chemistry-based cleaning techniques, hydrofluoric acid is the most often employed chemical solution. Because hydrofluoric acids are extremely caustic and may dissolve a variety of impurities, they can help remove foreign objects off wafer surfaces more quickly. Based on the Application, the market is segmented into MEMS, CIS, Memory, RF Device, LED, and Others. LED segment is expected to grow rapidly at a CAGR of xx% during the forecast period 2022-2029. The market for semiconductor wafer cleaning equipment for LED applications is rising primarily due to rising smartphone penetration and the increasing use of electronic components in vehicles. A similar trend is estimated to be seen during the forecast period as the market for LEDs is expected to continue to grow rapidly. As a result, it is expected that the need for semiconductor wafer cleaning equipment will rise during the forecast period. In order to handle a huge number of patients globally, healthcare institutions are increasing as COVID-19 is becoming more widespread. This temporarily raised demand for LEDs, which is expected to stimulate wafer demand and eventually grow the market for semiconductor wafer cleaning equipment as the manufacturing process gets back to normal. Semiconductor Wafer Cleaning Equipment Market

Semiconductor Wafer Cleaning Equipment Market Regional Insights:

The Asia Pacific region is expected to dominate the Semiconductor Wafer Cleaning Equipment Market during the forecast period 2022-2029. The Asia Pacific region is expected to hold the largest market share of xx% by 2029. The semiconductor wafer cleaning equipment market in the region is expected to be driven by improvements in semiconductor equipment production capabilities in Asian countries like China, Japan, South Korea, and Taiwan. The region has also been a focal point for major important players in the semiconductor wafer cleaning equipment market to increase investments and business growth capabilities. The main determinants of rising business prospects in the region are favourable economic circumstances and low labour costs. Additionally, the region's high concentration of wafer and IC manufacturing companies supports the growth of the market for semiconductor wafer cleaning equipment. Semiconductor Wafer Cleaning Equipment Market The objective of the report is to present a comprehensive analysis of the Global Semiconductor Wafer Cleaning Equipment Market to the stakeholders in the industry. The past and current status of the industry with the forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all the aspects of the industry with a dedicated study of key players that include market leaders, followers, and new entrants. PORTER, PESTEL analysis with the potential impact of micro-economic factors of the market has been presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analyzed, which will give a clear futuristic view of the industry to the decision-makers. The reports also help in understanding the Global Semiconductor Wafer Cleaning Equipment Market dynamic and structure by analyzing the market segments and projecting the Global Semiconductor Wafer Cleaning Equipment Market size. Clear representation of competitive analysis of key players by Distribution Channel, price, financial position, product portfolio, growth strategies, and regional presence in the Semiconductor Wafer Cleaning Equipment Market make the report investor’s guide.

Semiconductor Wafer Cleaning Equipment Market Scope: Inquire before buying

Global Semiconductor Wafer Cleaning Equipment Market
Report Coverage Details
Base Year: 2021 Forecast Period: 2022-2029
Historical Data: 2017 to 2021 Market Size in 2021: US $ 6.42 Bn.
Forecast Period 2022 to 2029 CAGR: 9.13% Market Size in 2029: US $ 12.91 Bn.
Segments Covered: by Product • Single Wafer Spray System • Single Wafer Cryogenic System • Batch Immersion Cleaning System • Batch Spray Cleaning System • Scrubber
by Wafer Size • ≤150 mm • 200 mm • 300 mm
by Technology • Wet Chemistry-Based Cleaning Technology • Etch Cleaning Technology • Front Side up Cleaning Technology
by Operation Mode • Automatic • Semi-Automatic • Manual
by Application • MEMS • CIS • Memory • RF Device • LED • Others

Semiconductor Wafer Cleaning Equipment Market, by Region

• North America • Europe • Asia Pacific • South America • Middle East and Africa

Semiconductor Wafer Cleaning Equipment Market Key Players

• Cleaning Technologies Group • Screen Holdings Co., Ltd. • Tokyo Electron Limited • Kla Tencor Corp. • Yeild Engineering Systems, Inc. • FSI International • Semsysco GmbH • Modutek Corporation • MEI Wet Processing Systems and Services LLC • Lam Research Corporation • Stoelting Llc • Dainippon Screen Mfg. Co., Ltd. • Axus Technologies • Atmi Technology • Akrion Systems Llc • Solid State Equipment Llc • Semes Co. Ltd Frequently Asked Questions: 1] Which region is expected to hold the highest share in the Semiconductor Wafer Cleaning Equipment Market? Ans. The Asia Pacific region is expected to hold the highest share in the Semiconductor Wafer Cleaning Equipment Market. 2] Who are the top key players in the Semiconductor Wafer Cleaning Equipment Market? Ans. Cleaning Technologies Group, Screen Holdings Co., Ltd., Tokyo Electron Limited, Kla Tencor Corp., Yeild Engineering Systems, Inc., FSI International, and Semsysco GmbH are the top key players in the Semiconductor Wafer Cleaning Equipment Market. 3] Which segment is expected to hold the largest market share in the Semiconductor Wafer Cleaning Equipment Market by 2029? Ans. Batch Spray Cleaning System segment is expected to hold the largest market share in the Semiconductor Wafer Cleaning Equipment Market by 2029. 4] What is the market size of the Semiconductor Wafer Cleaning Equipment Market by 2029? Ans. The market size of the Semiconductor Wafer Cleaning Equipment Market is expected to reach US $12.91 Bn. by 2029. 5] What was the market size of the Semiconductor Wafer Cleaning Equipment Market in 2021? Ans. The market size of the Semiconductor Wafer Cleaning Equipment Market was worth US $6.42 Bn. in 2021.
1. Global Semiconductor Wafer Cleaning Equipment Market: Research Methodology 2. Global Semiconductor Wafer Cleaning Equipment Market: Executive Summary 2.1 Market Overview and Definitions 2.1.1. Introduction to the Global Semiconductor Wafer Cleaning Equipment Market 2.2. Summary 2.1.1. Key Findings 2.1.2. Recommendations for Investors 2.1.3. Recommendations for Market Leaders 2.1.4. Recommendations for New Market Entry 3. Global Semiconductor Wafer Cleaning Equipment Market: Competitive Analysis 3.1 MMR Competition Matrix 3.1.1. Market Structure by region 3.1.2. Competitive Benchmarking of Key Players 3.2 Consolidation in the Market 3.2.1 M&A by region 3.3 Key Developments by Companies 3.4 Market Drivers 3.5 Market Restraints 3.6 Market Opportunities 3.7 Market Challenges 3.8 Market Dynamics 3.9 PORTERS Five Forces Analysis 3.10 PESTLE 3.11 Regulatory Landscape by region • North America • Europe • Asia Pacific • The Middle East and Africa • South America 3.12 COVID-19 Impact 4. Global Semiconductor Wafer Cleaning Equipment Market Segmentation 4.1 Global Semiconductor Wafer Cleaning Equipment Market, by Product (2021-2029) • Single Wafer Spray System • Single Wafer Cryogenic System • Batch Immersion Cleaning System • Batch Spray Cleaning System • Scrubber 4.2 Global Semiconductor Wafer Cleaning Equipment Market, by Wafer Size (2021-2029) • ≤150 mm • 200 mm • 300 mm 4.3 Global Semiconductor Wafer Cleaning Equipment Market, by Technology (2021-2029) • Wet Chemistry-Based Cleaning Technology • Etch Cleaning Technology • Front Side up Cleaning Technology 4.4 Global Semiconductor Wafer Cleaning Equipment Market, by Operation Mode (2021-2029) • Automatic • Semi-Automatic • Manual 4.5 Global Semiconductor Wafer Cleaning Equipment Market, by Application (2021-2029) • MEMS • CIS • Memory • RF Device • LED • Others 5. North America Semiconductor Wafer Cleaning Equipment Market (2021-2029) 5.1 North America Semiconductor Wafer Cleaning Equipment Market, by Product (2021-2029) • Single Wafer Spray System • Single Wafer Cryogenic System • Batch Immersion Cleaning System • Batch Spray Cleaning System • Scrubber 5.2 North America Semiconductor Wafer Cleaning Equipment Market, by Wafer Size (2021-2029) • ≤150 mm • 200 mm • 300 mm 5.3 North America Semiconductor Wafer Cleaning Equipment Market, by Technology (2021-2029) • Wet Chemistry-Based Cleaning Technology • Etch Cleaning Technology • Front Side up Cleaning Technology 5.4 North America Semiconductor Wafer Cleaning Equipment Market, by Operation Mode (2021-2029) • Automatic • Semi-Automatic • Manual 5.5 North America Semiconductor Wafer Cleaning Equipment Market, by Application (2021-2029) • MEMS • CIS • Memory • RF Device • LED • Others 5.6 North America Semiconductor Wafer Cleaning Equipment Market, by Country (2021-2029) • United States • Canada • Mexico 6. Europe Semiconductor Wafer Cleaning Equipment Market (2021-2029) 6.1. Europe Semiconductor Wafer Cleaning Equipment Market, by Product (2021-2029) 6.2. Europe Semiconductor Wafer Cleaning Equipment Market, by Wafer Size (2021-2029) 6.3. Europe Semiconductor Wafer Cleaning Equipment Market, by Technology (2021-2029) 6.4. Europe Semiconductor Wafer Cleaning Equipment Market, by Operation Mode (2021-2029) 6.5. Europe Semiconductor Wafer Cleaning Equipment Market, by Application (2021-2029) 6.6. Europe Semiconductor Wafer Cleaning Equipment Market, by Country (2021-2029) • UK • France • Germany • Italy • Spain • Sweden • Austria • Rest Of Europe 7. Asia Pacific Semiconductor Wafer Cleaning Equipment Market (2021-2029) 7.1. Asia Pacific Semiconductor Wafer Cleaning Equipment Market, by Product (2021-2029) 7.2. Asia Pacific Semiconductor Wafer Cleaning Equipment Market, by Wafer Size (2021-2029) 7.3. Asia Pacific Semiconductor Wafer Cleaning Equipment Market, by Technology (2021-2029) 7.4. Asia Pacific Semiconductor Wafer Cleaning Equipment Market, by Operation Mode (2021-2029) 7.5. Asia Pacific Semiconductor Wafer Cleaning Equipment Market, by Application (2021-2029) 7.6. Asia Pacific Semiconductor Wafer Cleaning Equipment Market, by Country (2021-2029) • China • India • Japan • South Korea • Australia • ASEAN • Rest Of APAC 8. South America Semiconductor Wafer Cleaning Equipment Market (2021-2029) 8.1. South America Semiconductor Wafer Cleaning Equipment Market, by Product (2021-2029) 8.2. South America Semiconductor Wafer Cleaning Equipment Market, by Wafer Size (2021-2029) 8.3. South America Semiconductor Wafer Cleaning Equipment Market, by Technology (2021-2029) 8.4. South America Semiconductor Wafer Cleaning Equipment Market, by Operation Mode (2021-2029) 8.5. South America Semiconductor Wafer Cleaning Equipment Market, by Application (2021-2029) 8.6. South America Semiconductor Wafer Cleaning Equipment Market, by Country (2021-2029) • Brazil • Argentina • Rest Of South America 9. Middle East and Africa Semiconductor Wafer Cleaning Equipment Market (2021-2029) 9.1 Middle East and Africa Semiconductor Wafer Cleaning Equipment Market, by Product (2021-2029) 9.2. Middle East and Africa Semiconductor Wafer Cleaning Equipment Market, by Wafer Size (2021-2029) 9.3. Middle East and Africa Semiconductor Wafer Cleaning Equipment Market, by Technology (2021-2029) 9.4. Middle East and Africa Semiconductor Wafer Cleaning Equipment Market, by Operation Mode (2021-2029) 9.5. Middle East and Africa Semiconductor Wafer Cleaning Equipment Market, by Application (2021-2029) 9.6. Middle East and Africa Semiconductor Wafer Cleaning Equipment Market, by Country (2021-2029) • South Africa • GCC • Egypt • Nigeria • Rest Of ME&A 10. Company Profile: Key players 10.1 Cleaning Technologies Group 10.1.1. Company Overview 10.1.2. Financial Overview 10.1.3. Global Presence 10.1.4. Capacity Portfolio 10.1.5. Business Strategy 10.1.6. Recent Developments 10.2 Screen Holdings Co., Ltd. 10.3 Tokyo Electron Limited 10.4 Kla Tencor Corp. 10.5 Yeild Engineering Systems, Inc. 10.6 FSI International 10.7 Semsysco GmbH 10.8 Modutek Corporation 10.9 MEI Wet Processing Systems and Services LLC 10.10 Lam Research Corporation 10.11 Stoelting Llc 10.12 Dainippon Screen Mfg. Co., Ltd. 10.13 Axus Technologies 10.14 Atmi Technology 10.15 Akrion Systems Llc 10.16 Solid State Equipment Llc 10.17 Semes Co. Ltd

About This Report

Report ID 31187
Category Electronics
Published Date Aug 2022
Updated Date
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