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感測器

市場調查報告書

商品編碼

1640425

奈米感測器：市場佔有率分析、行業趨勢和統計、成長預測（2025-2030 年）

Nanosensors - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)

出版日期: 2025年01月05日 | 出版商:

Mordor Intelligence | 英文 120 Pages | 商品交期: 2-3個工作天內

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簡介目錄

預計 2025 年奈米感測器市場規模為 9,800 億美元，到 2030 年將達到 1.68 兆美元，預測期內（2025-2030 年）的複合年成長率為 11.35%。

半導體和感測器的小型化促進了奈米技術和奈米材料在感測器製造中的應用，從而產生了奈米感測器。預計需求將主要受到其在整體行業的廣泛應用的推動，其中診斷和醫療保健應用發揮關鍵作用。

主要亮點

奈米感測器廣泛應用於各個行業，包括電子、醫療保健、製造業、航太和國防。這種廣泛的使用，加上政府對研究和生產的支持日益增加，預計將成為推動需求的主要因素。
感測器應用正在世界各地的各個領域中用於檢測和監測參數。奈米感測器與傳統感測器的唯一區別在於使用奈米材料的製造過程。然而，先進的技術總是鼓勵新的視野和持續的發展。對奈米技術和奈米材料等最尖端科技的持續研究和開發可以為奈米感測器製造商帶來競爭優勢。
例如，多年來，奈米感測器市場見證了奈米技術的重大進步和創新，如奈米碳管和奈米線的生產，這些對產業產生了重大影響，並成為許多發展路徑的基礎。目前正在進行多項研究和開發工作，未來幾年研究市場將見證進一步的技術創新，這將影響市場格局。
政府計畫支持的奈米技術進步推動了市場擴張。奈米技術標誌計畫等舉措強調了加速奈米科學技術進步、滿足需求和釋放從研究到商業化的機會的關鍵領域和願景。同樣，MeitY 發起的印度奈米電子用戶計劃- 從創意到創新(INUP-i2i) 正在印度理工學院(IISc)、印度理工學院德里分校(IIT Delhi)、印度理工學院孟買分校(IIT Bombay) 和印度理工學院馬德拉斯分校(IIT Madras) 等奈米電子卓越中心(CEN) 實施，以開發和創新奈米電子學。製造設施來開發技能並進行研究舉措。
此外，由於小型化趨勢和許多行業中極小物品的使用，市場正在不斷擴大。然而，製造奈米感測器的難度以及消費者對採用新技術持謹慎態度的態度，阻礙了市場擴張。
由於對病毒的檢測、追蹤和追蹤需求增加，奈米感測器產業的需求將因 COVID-19 疫情而顯著增加。疫情影響了主要奈米感測器市場的需求，全球各地的製造商因封鎖期間供應鏈不穩定而陷入困境，尤其是在歐洲國家和亞太地區（印度、中國、韓國）。然而，由於預計開發使用奈米感測器的創新醫療設備和治療方法的研發將會增加，預計市場將在疫情後獲得發展動力。

奈米感測器市場趨勢

醫療保健產業大幅成長

醫療保健產業佔據奈米感測器市場的大部分佔有率。診斷醫學的一個關鍵方面是快速、靈敏和準確的檢測。早期診斷疾病至關重要，因為許多疾病可能不會出現症狀，直到發展到難以治癒的階段。即時監測是奈米感測器在診斷中的常用方法，可以快速診斷疾病。

預計全球皮膚癌發生率的上升將推動市場的發展。例如，皮膚癌每天影響美國約 9,400 人，每小時導致兩人以上死亡。根據美國癌症協會（ACS）估計，到2023年，美國皮膚黑色素瘤病例數將達到男性58,120人，女性39,490人。

應用奈米藥物治療皮膚癌。透過這種方式，可以有效地用藥物和其他醫學療法治療目標腫瘤部位和目標細胞，同時最大限度地減少副作用。一種名為 NanoFlare 的新技術已經開發出來，它利用奈米藥物來檢測血液中的惡性細胞。因此，預測期內的市場擴張預計受到奈米感測器在治療皮膚惡性腫瘤的藥物中的日益廣泛的應用的推動。

此外，在皮膚癌治療中使用奈米感測器可以有效地將藥物和其他治療方法輸送到特定的腫瘤部位和目標細胞，幾乎沒有危險的副作用。此外，智慧藥丸是指模型和設計與藥物錠劑相似的奈米級電子設備，但具有更先進的感測、成像和藥物傳輸功能。迄今為止，奈米技術已幫助開發了各種類型的智慧錠劑，例如藥丸攝影機、帶有微型攝影機的膠囊以及劑量感應錠劑。

由於奈米感測器能夠在不需要外部症狀的情況下早期識別疾病，因此在該地區的診斷醫學應用中具有巨大的前景。理想的奈米感測器實現將嘗試結合診斷和抵抗反應功能，模仿體內免疫細胞的反應並提供允許監測感測器輸入和響應的資料。此外，奈米感測器還可用於檢查器官植入物是否受到污染。如果注意到植入周圍細胞受到污染，嵌入的奈米感測器就會向醫生或其他醫療保健提供者發送電訊號。奈米感測器可以確定細胞是否健康、發炎或被細菌污染。

此外，許多地區性公司正致力於利用奈米技術平台開發抗逆轉錄病毒藥物的治療方案，最終推動奈米感測器市場的發展。奈米技術在藥物開發和輸送中的應用使得開發具有藥理學優勢的藥物成為可能，這些藥物利用了奈米尺度上與塊體、原子或分子尺度不同的材料特性。治療相關的問題。

北美佔據主要市場佔有率

全球奈米感測器市場的最大佔有率最終將屬於北美市場。該地區現有的基礎設施和重要的奈米感測器供應商是造成這種情況的主要原因。該地區的奈米感測器製造商正在探索如何進一步將奈米感測器應用於各個行業。這可能促進先進奈米感測器產品的開發。

推動北美奈米感測器市場發展的首要因素是軍事和國防安全保障領域對奈米感測器的需求不斷增加，因為它們可用於檢測輻射和生物毒素。該地區（尤其是美國）不斷增加的國防預算預計將推動對奈米感測器的需求，因為奈米感測器還可以幫助軍方開發輕型車輛和自修復帳篷等先進的戰場裝備，使軍方受益。。例如，據美國國防部稱，2022會計年度申請預算為7,220億美元，比2021年國防預算增加170億美元。

此外，由於美國是民航機和軍用飛機的主要製造商和消費者，因此飛機上奈米感測器的使用也將推動該地區的需求。例如，在飛機中，感測器對於感知各種指標（包括燃油水平、環境條件和性能更新）非常重要。在這樣的感測器系統中添加奈米感測器可以提高靈敏度並減輕整體重量。

此外，奈米感測器小型化帶來的具成本效益製造預計將推動奈米感測器市場的積極改善。此外，對更小、更快和可攜式的診斷感測系統的需求不斷成長是推動北美生物醫學和醫療保健領域奈米技術成長的主要因素。所有這些因素都導致北美對奈米感測器的需求不斷增加。

此外，該地區的公司正專注於創造智慧包裝，這是該地區最安全的食品包裝選擇之一。它屬於智慧包裝類別，使用奈米感測器對包裝內食品樣品的物理或化學變化做出反應，從而避免污染或劣化。

奈米感測器產業概況

奈米感測器市場競爭激烈，領先的公司提供先進的產品來滿足市場需求和佔有率。為了進一步擴大市場佔有率，領先的供應商預計將在技術方面進行大量投資，以保持當前的競爭優勢。主要市場參與者包括三星電子、安捷倫科技公司和應用奈米探測器有限公司。

2024 年 1 月，麻省理工學院 (MIT) 的研究人員開發了一種基於尿液的就地檢驗，使用吸入器或霧化器將吸入的氣溶膠奈米感測器輸送給患者。當感測器遇到肺部的癌症相關蛋白質時，它會產生訊號，該訊號會在尿液中積聚，可以用簡單的紙質測試紙檢測到。
在 2023 年 2 月發表在美國化學學會(ACS) 奈米雜誌上的一項研究中，研發團隊利用對汞敏感的碲奈米線陣列創建了一種自供電奈米感測器，稱為摩擦電奈米感測器(TENS )。據研究人員介紹，此奈米感測器可以檢測水和食物中的微量汞離子並立即報告結果。
2022年8月，SenseSecure與美國通用電氣合作，開發出全球首個一氧化碳奈米感測器密封件「Sense-PRO 1」。根據該公司介紹，新型 NanoSensor 是一款智慧、無線 CO 感光元件貼紙，無需電源即可運作。它厚度為0.1毫米，直徑為22毫米，可以貼在智慧型手機背面，將其轉換為一氧化碳偵測器和分析儀。

其他福利：

Excel 格式的市場預測 (ME) 表
3 個月的分析師支持

公司簡介
- Agilent Technologies, Inc.
- Nanowear, Inc.
- AerBetic
- Applied Nanodetectors Ltd
- BreathDX Ltd
- Inanon Bio Inc.
- LamdaGen Corporation
- Vista Therapeutics, Inc.
- Bruker Corporation
- GBS Inc
- Applied Nanotech, Inc.（PEN Inc.）
- Oxonica Limited
- Beijing ALT Technology Ltd. Co.
- Nanoworld AG
- Samsung Electronics co., Limited

第8章投資分析

第9章市場機會與未來趨勢

簡介目錄

Product Code: 52814

The Nanosensors Market size is estimated at USD 0.98 trillion in 2025, and is expected to reach USD 1.68 trillion by 2030, at a CAGR of 11.35% during the forecast period (2025-2030).

The miniaturization of semiconductors and sensors has fueled nanotechnology and nanomaterial applications for sensor manufacturing, giving rise to nanosensors. Demand is anticipated to be primarily driven by the extensive use across industries, with applications in diagnostics and healthcare playing a significant role.

Key Highlights

Nanosensors are widely employed in various industries, including electronics, healthcare, manufacturing, aerospace, and defense, as they can gather data at the nanoscale that would be difficult to handle with bigger sensors. The main factors driving demand are anticipated to be this widespread use and the expansion in government support for research and production.
A variety of sectors around the world have adopted sensor applications for parameter detection and monitoring. The only difference between nanosensors and conventional sensors is their production process, which uses nanomaterial. However, sophisticated technologies have always fueled new prospects and continued development. Continuous R&D on cutting-edge technologies, such as nanotechnology and nanomaterial, can give nanosensor manufacturers a competitive edge.
For instance, over the years, the market for nanosensors has seen some significant advancements and innovations in nanotechnology, such as the production of carbon nanotubes, nanowires, etc., which had a significant impact on the industry and served as the cornerstone for numerous development paths. With several research and development works currently underway, the studied market will witness further technological innovations in the next few years, which will influence the landscape of the studied market.
Market expansion is being fueled by advances in nanotechnology backed by government programs. Initiatives such as Nanotechnology Signature Initiatives highlight critical areas and the vision for accelerating nanoscale science and technology advancement to address needs and exploit opportunities from research through commercialization. Similarly, the Indian Nanoelectronics Users Programme-Idea to Innovation (INUP-i2i) initiated by MeitY is being implemented at the Centre of Excellence in Nanoelectronics (CEN) at IISc, IIT Delhi, IIT Bombay, IIT Madras, among others has provided significant opportunities for R&D community all over the country for accessing the state of the art nanofabrication facilities for undertaking skill development and research initiatives in Nanoelectronics.
Additionally, the market is expanding due to the trend of shrinking and the use of tiny goods in numerous industries. However, the difficulty of producing nanosensors and certain consumers' resistance to using nanosensors because of a cautious attitude toward embracing new technologies are impeding the market's expansion.
Due to the growing need for testing, tracing, and tracking the virus, the nanosensors industry will experience a considerable increase in demand due to the COVID-19 epidemic, as diagnostic labs require several capabilities to test thousands of samples daily. The pandemic has impacted the principal Nanosensors Market Demand, and manufacturers worldwide have suffered, particularly in European nations and the Asia-Pacific regions (India, China, and South Korea) due to shaky supply chains during the lockdown. However, the market is anticipated to gain traction in the post-covid period owing to an anticipated growth in R&D to develop innovative medical devices and procedures that use nanosensors.

Nanosensors Market Trends

Healthcare Industry to Show Significant Growth

The healthcare industry holds a significant share of the nanosensor market. A crucial aspect of diagnostic medicine is making quick, sensitive, and accurate detections. Since many conditions have symptoms that may not manifest until the condition has advanced to stages that may be challenging to cure, early diagnosis of diseases is crucial. Real-time monitoring is a popular method of using nanosensors in diagnostics to quickly diagnose disorders.

The market is anticipated to be driven by the increasing prevalence of skin cancer worldwide. For instance, skin cancer affects roughly 9,400 individuals in the United States daily, and over two people pass away every hour. According to the American Cancer Society (ACS), in 2023, the estimated number of melanoma of skin cases in the United States is anticipated to reach 58,120 in males and 39,490 in females.

Skin cancer is treated with the application of nanomedicine. In this manner, targeted tumor locations and target cells can be effectively treated with drugs and other medical therapies while minimizing adverse effects. A new technique dubbed Nano Flares for detecting malignant cells in the blood was developed using nanomedicine. Thus, market expansion during the forecast period is anticipated to be driven by the increased use of nanosensors in medications to treat skin malignancies.

Additionally, using nanosensors in skin cancer treatment allows for the effective delivery of medications and other treatments to particular tumor locations and target cells with little in the way of hazardous side effects. Moreover, Smart pills refer to nano-level electronic devices modeled and designed like pharmaceutical pills but perform more sophisticated sensing, imaging, and drug delivery functions. Nanotechnology has previously helped the development of various types of smart pills, such as the PillCam, capsules with mini-video cameras, and dose-sensing pills.

Due to their ability to identify diseases early without the need for external indications, nanosensors have tremendous promise for use in diagnostic medicine in the region. Ideal nanosensor implementations attempt to imitate the response of immune cells in the body by combining diagnostic and resistant response features, providing data to enable monitoring of the sensor input and response, and so on. Additionally, organ implants can be inspected with nanosensors for contamination. When it notices contamination in the cells surrounding the implant, the implanted nanosensor transmits an electric signal to a physician or other healthcare provider. The nanosensor determines whether the cells are healthy, irritated, or contaminated with bacteria.

Furthermore, many regional companies focus on developing therapeutic options using nanotechnology platforms for dispensing antiretroviral drugs, ultimately driving the nanosensor market. Nanotechnological applications in drug development and delivery promise to combat and resolve problems related to HIV treatment by enabling the development of drugs with pharmacological advantages pioneered by different materials properties at the nanoscale compared to the bulk, atomic scale, or molecular dimensions.

North America to Hold a Significant Market Share

The global nanosensor market's largest share ultimately belonged to the North American market. The area's existing infrastructure and significant Nano Sensors providers are among the major reason behind this. Manufacturers of nanosensors in the area are researching how nanosensors may be used further in various industries. This could lead to the development of advanced nanosensor products.

The primary factor driving the nanosensors market in North America is a growing demand for nanosensors in the military and homeland security, as they are used for detecting radiation and biotoxins. As nanosensors have also benefited the military by helping develop advanced Warfield gear, such as lighter vehicles and self-repairing tents, the increased defense budget of the region, specifically the United States, is expected to drive the demand for nanosensors. For instance, according to the United States Department of Defense, the budget for a request for the fiscal year 2022 rose to USD 722 billion, which earns a defense budget increase of USD 17 billion from 2021.

Furthermore, using nanosensors in aircraft also drives their demand in the region, as the United States is among the leading manufacturers and consumers of commercial and military aircraft. For instance, in aircraft, sensors are crucial for sensing a variety of indicators, including fuel levels, environmental conditions, and performance updates. When added to these sensor systems, nanosensors can increase their sensitivity and reduce their overall weight.

Moreover, cost-effective manufacturing due to the compactness of nanosensors is set to bring about a positive transition in the nanosensors market. Moreover, the increasing demand for smaller and faster portable diagnostic sensing systems is the primary factor driving the growth of nanotechnology in North America's biomedical and healthcare segment. All these factors contribute to the increasing demand for nanosensors in North America.

Additionally, businesses in the area are concentrating on creating smart packaging, one of the region's safest food packaging options. It belongs to the smart packaging category, which uses nanosensors to react to physical or chemical changes in food samples held within the packaging to avoid contamination or deterioration.

Nanosensors Industry Overview

The nanosensors market is competitive, with major players occupying the market demand and share with their advanced product offerings. To expand their market presence further, major vendors are expected to invest heavily in technology to maintain the competitive advantage that they are currently witnessing. Some key market players include Samsung Electronics Co., Limited, Agilant Technologies Inc., and Applied Nanodetectors Ltd.

Jan 2024, researchers at MIT developed a urine-based point-of-care test using inhaled aerosolized nanosensors delivered to patients by an inhaler or nebulizer. If the sensors encounter cancer-linked proteins in the lungs, they produce a signal that accumulates in the urine, which can be detected with a simple paper test strip.
In February 2023, researchers reporting in the American Chemical Society (ACS) Nano developed a self-powered nanosensor triboelectric nanosensor (TENS) using an array of mercury-sensitive tellurium nanowires. According to researchers, these nanosensors can discover small amounts of mercury ions in water or food and report the result immediately.
In August 2022, sense-secure developed the world's first carbon monoxide Nano Sensor Sticker called, Sense-PRO 1 in partnership with General Electric Research, USA. According to the company, the new nanosensor is a smart, wireless CO sensor sticker that can operate without any power source. Its 0.1mm thickness and 22mm in diameter make it smartphone-friendly, allowing the users to attach the sensor to the back of their smartphones and convert them into a Carbon monoxide detector and analyzer.

Additional Benefits:

The market estimate (ME) sheet in Excel format
3 months of analyst support

1 INTRODUCTION

1.1 Study Assumptions and Market Definition
1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

4.1 Market Overview
4.2 Industry Attractiveness - Porter's Five Forces Analysis
- 4.2.1 Bargaining Power of Suppliers
- 4.2.2 Bargaining Power of Consumers
- 4.2.3 Threat of New Entrants
- 4.2.4 Intensity of Competitive Rivalry
- 4.2.5 Threat of Substitute Products
4.3 Nanotechnology Industry Value Chain Analysis
4.4 Impact of COVID-19 on the Market

5 MARKET DYNAMICS

5.1 Market Drivers
- 5.1.1 Rising Miniaturization trend and Use of Miniaturized Products
5.2 Market Challenges
- 5.2.1 Complex Manufacturing Processes of Nanosensors
5.3 Market Opportunities

6 MARKET SEGMENTATION

6.1 By Type
- 6.1.1 Biological Nanosensors
- 6.1.2 Chemical Nanosensors
- 6.1.3 Physical Nanosensors
6.2 By End-use Verticals
- 6.2.1 Aerospace and Defense
- 6.2.2 Automotive and Industrial
- 6.2.3 Consumer Electronics
- 6.2.4 Healthcare
- 6.2.5 Power Generation
- 6.2.6 Other End-use Verticals
6.3 By Geography
- 6.3.1 North America
- 6.3.2 Europe
- 6.3.3 Asia Pacific
- 6.3.4 Latin America
- 6.3.5 Middle East & Africa

7 COMPETITIVE LANDSCAPE

7.1 Company Profiles
- 7.1.1 Agilent Technologies, Inc.
- 7.1.2 Nanowear, Inc.
- 7.1.3 AerBetic
- 7.1.4 Applied Nanodetectors Ltd
- 7.1.5 BreathDX Ltd
- 7.1.6 Inanon Bio Inc.
- 7.1.7 LamdaGen Corporation
- 7.1.8 Vista Therapeutics, Inc.
- 7.1.9 Bruker Corporation
- 7.1.10 GBS Inc
- 7.1.11 Applied Nanotech, Inc. (PEN Inc.)
- 7.1.12 Oxonica Limited
- 7.1.13 Beijing ALT Technology Ltd. Co.
- 7.1.14 Nanoworld AG
- 7.1.15 Samsung Electronics co., Limited