薄晶圓市場 - 2023-2028 年預測

薄晶圓市場預計將從 2021 年的 84.04 億美元增長到 2028 年的 110.85 億美元，複合年增長率為 4.03%。

由於智能手機和智能可穿戴設備的需求增加以及該領域的技術創新，薄晶圓市場正在擴大。 快速的城市化和高可支配收入增加了對智能手機、LED 和智能電視等電子設備的需求。 為了滿足對尖端產品不斷增長的需求，蘋果、三星、紅米和一加等許多頂級消費電子製造商都在開發和研究上投入巨資。 此外，對薄型智能電視和智能手錶等其他薄型設備的需求不斷增加，預計將推動對薄型晶圓的顯著需求。 各國增加對研發活動的投資預計將推動未來幾年的市場增長。

光伏發電的普及和技術發展將推動市場增長。

由於太陽能的日益普及，預計未來幾年薄晶圓市場將快速增長。 人類碳足蹟的增加引起了嚴重的環境問題，並增加了對開發可持續能源生產方式（包括採用太陽能）的需求。 薄晶圓是生產太陽能電池的重要原材料，因此市場需求不斷增加。 例如，2022 年 11 月，IIT Mandi 的研究人員創造了一種新型光伏材料，當暴露在 LED 和 CFL 家用光源的光下時可以發電。 這項研究證實了物聯網技術在當代文化中的流行。 物聯網設備在需要各種形式的實時數據的系統中變得越來越流行，例如手機和家庭自動化。 這些設備必須是獨立的，無需電纜的幫助即可自行發電。 這些設備目前由主電池和輔助電池供電。 所有電池的使用壽命都是有限的，並且不具有成本效益或對環境有利。

LED 在消費電子和照明行業的廣泛應用中的使用不斷增加，導致人們對 LED 的興趣不斷增長，以及對高效半導體的需求不斷增長。 日益增長的環境關注以及各國有效能源效率計劃的實施，顯著增加了 LED 市場的需求。 例如，印度政府已開始批量採購LED照明，以幫助節省能源。 這推動了 LED 薄晶圓的採用，增加了對高效 LED 解決方案的需求，並提高了商業/工業領域的太陽能發電能力。 例如，根據國際能源協會2022年報告，太陽能光伏淨容量將從2021年的27吉瓦增至2022年的30吉瓦，導致市場對薄矽片的需求增加。

此外，工業4.0、物聯網、人工智能等技術在汽車行業的引入，將對薄晶圓市場的擴大產生重大影響。 對聯網汽車不斷增長的需求將帶來新的技術發展。 此外，非接觸式人機界面等當前趨勢正在徹底改變汽車行業，提高聯網汽車的相關性。 自適應巡航控制、智能停車輔助系統、ADAS（高級駕駛輔助系統）等新技術的出現將進一步刺激市場擴張。

此外，發達國家和新興國家的政府都在大力投資薄晶圓半導體的生產。 半導體的增長還得益於大公司的合作和研發支出的增加。 例如，德國政府斥資近30億歐元收回其半導體製造基地。 物聯網和工業 4.0 推動的半導體需求不斷增長，推動了這一投資，生產設施越來越多地獲得足夠的微芯片，以跟上最新趨勢。

市場趨勢：

• 根據阿貢國家實驗室的數據，2023年3月美國銷售了93,218輛混合動力電動汽車，佔2022年3月銷量的21.7%，加上在美國銷售的插頭。車內總計100,605輛，其中81,346輛純電動汽車和 19,259 輛插電式混合動力汽車。 根據國家能源局提供的數據，2022年中國太陽能光伏發電總容量將達到392.61GW，較2021年的306.GW大幅增長28.1%。 此外，根據同一消息來源，同年新增裝機容量 87.41 吉瓦。

預計亞太地區在預測期內將佔據最大的市場份額。

按地區劃分，全球薄晶圓市場分為美洲、歐洲/中東/非洲和亞太地區。 預計亞太地區將在預測期內佔據最大份額並以最快的速度增長。 印度、中國、韓國、越南和泰國等國家的工業化導致這些國家的消費電子產品製造單位激增，支撐了市場。 此外，可支配收入的增加正在加速智能手機等智能設備的採用，這也支持了市場前景。 此外，有利的氣候條件鼓勵了太陽能發電項目的建設，增加了對更薄太陽能矽片的需求。

內容

第 1 章簡介

• 市場概況
• 市場定義
• 調查範圍
• 市場細分
• 貨幣
• 先決條件
• 基準年和預測年的時間表

第 2 章研究方法

• 調查數據
• 調查過程

第 3 章執行摘要

• 研究亮點

第 4 章市場動態

• 市場促進因素
• 市場抑制因素
• 波特五力分析
• 行業價值鏈分析

第 5 章薄晶圓市場：按厚度

• 簡介
• 100μm以下
• 100～199μm
• 200μm以上

第 6 章薄晶圓市場：按應用分類

• 簡介
• MEMS
• 內存
• LED
• 射頻設備
• 圖像傳感器
• 其他

第 7 章薄晶圓市場：按地區

• 簡介
• 美洲
  • 按厚度
  • 按用途
  • 按國家/地區
• 歐洲/中東/非洲
  • 按厚度
  • 按用途
  • 按國家/地區
• 亞太地區
  • 按厚度
  • 按用途
  • 按國家/地區

第 8 章競爭格局與分析

• 主要公司及戰略分析
• 新興公司和市場盈利能力
• 合併、收購、協議和合作
• 供應商競爭力矩陣

第 9 章公司簡介

• SK Siltron Co. Ltd.
• Siltronic
• Sumco Corporation
• Virginia Semiconductor Inc.
• Global Wafer Co. Ltd.
• PV Crystalox Solar plc
• Wafer Works Corporation
• Virginia Semiconductor Inc.
• Shin-Etsu Chemical Co., Ltd.
• DISCO Corporation.

The thin wafer market is estimated to witness a CAGR of 4.03% to grow from US$8.404 billion in 2021 to US$11.085 billion by 2028.

The market for thin wafers is rising due to the increasing demand for smartphones and smart wearable devices coupled with technological innovation in the sector. Rapidly growing urbanization and high disposable income has increased the demand for electronic devices such as smartphones, LEDs, and Smart TV. To meet the growing demand for cutting-edge gadgets, many top consumer electronics companies, including Apple, Samsung, Redmi, and Oneplus, are investing heavily in their development and research efforts. Moreover, increasing demand for other thin devices, such as smart TV with slim bodies, smartwatches, etc., is expected to drive noteworthy demand for thin wafers. Rising investments in R&D activities by various countries are expected to surge the market growth in the coming years.

Rising adoption of photovoltaics and technological development to boost the growth of the market.

The thin wafer market is expected to surge in the coming years due to the rising adoption of photovoltaics. Increasing human carbon footprints have raised serious environmental concerns, due to which there is a high demand for the development of sustainable means of energy production, which includes the adoption of photovoltaics. The thin wafer is the essential raw material that is used to produce solar cells; hence its demand is increasing in the market. For instance, in November 2022, a new photovoltaic material has been created by researchers at the IIT Mandi that may produce electricity when exposed to light from LED or CFL household light sources. This study supports the widespread deployment of loT technology in modern culture. IoT devices are being used more regularly by cell phones, home automation, and other systems that require various forms of real-time data. These devices must be independent, producing electricity of their own without the assistance of power cables. These devices are currently powered by both the main and secondary batteries. Every battery has a finite life expectancy and is neither cost-effective nor environmentally beneficial.

Shifting focus towards LEDs on account of their increasing use in a wide range of applications in the consumer electronics and lighting industry is increasing the demand for efficient semiconductors, which is expected to increase the demand for thin wafers across the industry. Growing focus on the well-being of the environment and implementation of effective energy efficiency programs across various countries has significantly increased the demand for LED in the market. For example- The government of India has initiated the use of bulk procurement of LED lights which will help the country in conserving energy. This, in turn, is driving the adoption of thin wafers for LEDs, thus boosting the demand for efficient LED solutions and increasing the capacity of photovoltaics in commercial/industrial areas. For instance, as per the 2022 report of the International Energy Association, the net capacity of PVs increased from 27 GW in 2021 to 30 GW in 2022, which has led to an increase in the demand for thin wafers in the market.

Further, the introduction of Industry 4.0 and technologies like loT and Al in the automobile industry will have a big impact on the expansion of the thin wafer market. The growing demand for connected vehicles will lead to new technological developments. Additionally, the relevance of linked cars is expanding as a result of current trends like touch-free human-machine interfaces, which are revolutionizing the automotive industry. The advent of new technologies, including adaptive cruise control, intelligent parking assistance systems, and advanced driver assistance systems, will further spur market expansion.

Additionally, governments in both developed and developing countries are making significant investments in the production of thin wafer semiconductors. The growth of semiconductors has also been aided by key players' cooperation and increased R&D expenditures. For instance, the German government has spent close to 3 billion euros reclaiming the locations of semiconductor manufacturing. The IoT and Industry 4.0's increasing need for semiconductors are the driving forces behind this investment, and the production facilities improve access to enough microchips to keep up with the newest trends.

Market Developments:

• According to Argonne National Laboratory data, in March 2023, 93,218 hybrid electric vehicles were sold in the United States, which made up 21.7% of the sales in March 2022, and a total of 100,605 plug-in vehicles were further sold in the United States, accounting for 81,346 BEVs and 19,259 PHEVs.
• According to the data provided by the National Energy Administration, the overall solar capacity of China reached 392.61 GW in 2022, which signified a major increase of 28.1% in comparison to 306.GW was recorded in 2021. Moreover, as per the same source, the country saw an additional installation of 87.41 GW in the same year.

The Asia Pacific region is anticipated to hold the largest share of the market during the forecasted period.

Based on geography, the global thin wafer market is analyzed into Americas, Europe Middle East and Africa, and Asia Pacific. The Asia Pacific region is projected to hold a large share of the market and grow at the fastest rate during the forecasted period. Industrialization in countries such as India, China, South Korea, Vietnam, Thailand, and others, has led to mushrooming of consumer electronic manufacturing units in these countries that will support the market. Furthermore, increased disposable income has surged the penetration of smart devices, particularly smartphones, which also support market prospects. Moreover, favorable climatic conditions have boosted the construction of solar projects, expanding the demand for photovoltaics and hence thin wafers.

Segmentation

By Thickness

• Less than 100 μm
• 100-199 μm
• Greater than 200 μm

By Application

• MEMS
• Memory
• LED
• RF Devices
• Image Sensors
• Others

By Geography

• Americas
• USA
• Others
• Europe
• Germany
• France
• United Kingdom
• Others
• Asia Pacific
• China
• Japan
• South Korea
• Taiwan
• Others

TABLE OF CONTENTS

1. INTRODUCTION

• 1.1. Market Overview
• 1.2. Market Definition
• 1.3. Scope of the Study
• 1.4. Market Segmentation
• 1.5. Currency
• 1.6. Assumptions
• 1.7. Base, and Forecast Years Timeline

2. RESEARCH METHODOLOGY

• 2.1. Research Data
• 2.2. Research Process

3. EXECUTIVE SUMMARY

• 3.1. Research Highlights

4. MARKET DYNAMICS

• 4.1. Market Drivers
• 4.2. Market Restraints
• 4.3. Porter's Five Force Analysis
  • 4.3.1. Bargaining Power of Suppliers
  • 4.3.2. Bargaining Power of Buyers
  • 4.3.3. Threat of New Entrants
  • 4.3.4. Threat of Substitutes
  • 4.3.5. Competitive Rivalry in the Industry
• 4.4. Industry Value Chain Analysis

5. THIN WAFER MARKET, BY THICKNESS

• 5.1. Introduction
• 5.2. Less than 100 μm
• 5.3. 100-199 μm
• 5.4. Greater than 200 μm

6. THIN WAFER MARKET, BY APPLICATIONS

• 6.1. Introduction
• 6.2. MEMS
• 6.3. Memory
• 6.4. LED
• 6.5. RF Devices
• 6.6. Image Sensors
• 6.7. Others

7. THIN WAFER MARKET, BY GEOGRAPHY

• 7.1. Introduction
• 7.2. Americas
  • 7.2.1. By Thickness
  • 7.2.2. By Application
  • 7.2.3. By Country
  • 7.2.3.1. USA
  • 7.2.3.2. Others
• 7.3. Europe Middle East and Africa
  • 7.3.1. By Thickness
  • 7.3.2. By Application
  • 7.3.3. By Country
  • 7.3.3.1. UK
  • 7.3.3.2. Germany
  • 7.3.3.3. France
  • 7.3.3.4. Others
• 7.4. Asia Pacific
  • 7.4.1. By Thickness
  • 7.4.2. By Application
  • 7.4.3. By Country
  • 7.4.3.1. China
  • 7.4.3.2. Japan
  • 7.4.3.3. Taiwan
  • 7.4.3.4. South Korea
  • 7.4.3.5. Others

8. COMPETITIVE ENVIRONMENT AND ANALYSIS

• 8.1. Major Players and Strategy Analysis
• 8.2. Emerging Players and Market Lucrativeness
• 8.3. Mergers, Acquisitions, Agreements, and Collaborations
• 8.4. Vendor Competitiveness Matrix

9. COMPANY PROFILES

• 9.1. SK Siltron Co. Ltd.
• 9.2. Siltronic
• 9.3. Sumco Corporation
• 9.4. Virginia Semiconductor Inc.
• 9.5. Global Wafer Co. Ltd.
• 9.6. PV Crystalox Solar plc
• 9.7. Wafer Works Corporation
• 9.8. Virginia Semiconductor Inc.
• 9.9. Shin-Etsu Chemical Co., Ltd.
• 9.10. DISCO Corporation.