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奈米技術

市場調查報告書

商品編碼

1532983

奈米管市場 – 2024 年至 2029 年預測

Nanotubes Market - Forecasts from 2024 to 2029

出版日期: 2024年07月05日 | 出版商:

Knowledge Sourcing Intelligence | 英文 146 Pages | 商品交期: 最快1-2個工作天內

價格

簡介目錄

預計在預測期（2024-2029年）奈米管市場將以15.82%的複合年成長率成長。

由於具有電阻、超導性、超疏水性和高熱穩定性等特性的多個領域的應用不斷增加，奈米管市場預計在未來幾年將擴大。這些材料在可再生能源領域有應用。這些材料可用於太陽能電池、鋰離子電池、工程聚合物、藥物傳輸、燃料電池、生物感測器、化學感測器等。

歐盟(EU)太陽能發電容量預計將從2022年的204.09GW激增至2023年的259.99GW，成長21.50%，到2030年將達到600GW。這種容量的增加需要電池存儲，而這主要是國內容量。預計未來幾年將顯著成長。這就是奈米管材料在光伏生產中不斷增加的原因。

奈米管市場促進因素：

碳奈米技術的進展

2023年4月，NEC開發出全球第一個高靈敏度非製冷紅外線影像感測器，該感測器在紅外線探測區域使用高純度半導體奈米碳管（CNT）。這項新知識擴展了奈米碳管管技術的應用。該公司計劃於 2025 年將該影像感測器實用化。紅外線將光線轉換為電訊號以獲得必要的資訊，可用於飛機導航支援系統和安全攝影機中的夜視。

此外，2022年4月，兼松投資了新興企業CARBON FLY。奈米碳管（“CNT”）具有物理（機械、電、熱）和化學特性，使其在許多行業中受到青睞。例如，抗張強度是鋼的100倍，楊氏模數是鋼的5倍，密度約為鋁的一半。此外，CARBON FLY 正在推動這種材料的工業應用，包括航太設備、汽車、醫療設備和相關系統以及先進的體育用品。奈米碳管管的這些發展是未來吸引更多應用和關注這種材料的重要因素。

對再生能源來源的需求不斷增加

不同類型的奈米管可用於不同類型的工業應用，包括可再生能源領域。這些材料由於其優異的性能而被用於能源儲存和轉換應用。隨著可再生能源領域的擴大，奈米管的使用也在擴大，電池中使用的奈米管混合增加了產生的電子數量。

2023年，美國太陽能新增裝置率將達54%。 5.6%為太陽能發電年發電量。根據美國人口普查資料，2023年組件進口量為55.6GWdc，電池進口量為3.7GWdc。這些資料顯示太陽能發電實用化普遍，家庭的需求也增加。開發這種太陽能發電能力需要許多原料，包括製造過程中使用的奈米管。

電子和半導體產業的需求不斷成長

奈米管在鋰離子電池中用作導電劑，需要抗靜電和電磁波對策。鋰離子電池用於電子設備、電氣設備、電動車、個人數位助理、智慧型手機、筆記型電腦、手錶等。行動電話是最常見的網路存取設備，使用鋰離子電池。

根據電訊（ITU）預測，到2023年，亞太地區擁有行動電話的個人比例將高達75%，阿拉伯國家為82%，歐洲為93%。公司正在使用奈米管來改進電池技術並增加容量以獲得更好的性能。

根據IEA（國際能源總署）預測，2023年電動車電池需求量將達到750GWh，較2022年成長40%。電動汽車電池的增加增加了製造應用中對奈米管的需求。

在預測期內，亞太地區將主導奈米管市場。

中國、日本、印度、韓國等主要經濟體在亞太地區佔據主導地位。一些成長最快的新興經濟體位於該地區，例如東南亞國協。印度於 2024 年 1 月推出的 Pradhan Mantri Surydaya Yojana 等政府舉措計劃在 1,000 萬戶家庭的屋頂安裝太陽能。此外，到2023年，印度電子業的國內生產將佔1,550億美元市場總額的65%。

此外，中國是全球最大的新型電動車市場。中國政府制定了交通氣候政策，有嚴格的法規和政策。中國目前在全球交通氣候政策中發揮主導作用。這些政策使電動車變得更便宜、更實惠。 2023年電動車國內銷售佔有率將超過35%，高於2022年的29%。在各種應用的鋰離子電池製造中，各種工業和製造應用市場對奈米管的需求將會增加。

奈米管市場挑戰：

生產規模已成為工業企業面臨的主要挑戰，因為大規模生產帶來了多項挑戰，例如去除材料中的雜質。這使得奈米管的成本變得複雜。製造奈米管材料的成本增加。

奈米管市場的主要發展：

2024 年 1 月，萊斯大學的科學家發現了一種去除氮化硼奈米管中雜質的新方法。使用磷酸並微調反應，研究人員可以去除氮化硼奈米管中的雜質。
2023 年 10 月，Birla Carbon 宣布收購 Nanocyl SA。 Nanocyl SA 是一家多壁奈米碳管(MWCNT) 製造公司，總部位於比利時桑布雷維爾。此次收購將使博拉炭黑在能源系統市場佔據主導地位。這是鋰離子電池性能以及其他導電應用的關鍵材料。博拉炭黑正為長期應用培育多種創新機會。
2023年9月，OCSiAl宣佈在塞爾維亞貝爾格萊德附近建立奈米管生產設施。該廠預計於2024年運作，年產能為120噸。這有利於物流並降低供應鏈成本。奈米管生產該工廠將生產用於鋰離子電池的奈米管懸浮液。這足以提升100萬輛電動車的產能，每輛平均電池容量為75度。 OCSiAl奈米管可以在活性材料顆粒之間形成電網路並改善關鍵的電池性能。這些石墨烯奈米管具有高矽含量陽極、厚LFP陰極和快速充電石墨陽極等新型電池技術。
2022年12月，Canatu與歐洲太空總署（ESA）簽署了一項開發專有奈米碳管（CNT）遮光濾光片的協議，該濾鏡可應用於ATHENA（高能量天文物理高級望遠鏡）望遠鏡。光學阻擋濾光片可讓 X光通過並阻擋其他波長，以便準確地對天體進行成像。 Canatu 開發了一種完全基於 CNT 的 X光過濾器，具有新穎的 CNT 支撐結構，與金屬網相比，該結構具有更高的 X光透射率。

奈米管市場細分與分析如下：

按最終用戶產業

電子/半導體
能源儲存
結構複合材料
可再生能源
其他行業

按類型

BCN奈米管
氮化硼奈米管
奈米碳管
氮化鎵奈米管
其他（DNA奈米管、非奈米碳管、鈦奈米管）

按地區

北美洲
美國
加拿大
墨西哥
南美洲
巴西
阿根廷
南美洲其他地區
歐洲
英國
德國
法國
義大利
西班牙
其他歐洲國家
中東/非洲
沙烏地阿拉伯
UAE
其他中東/非洲
亞太地區
中國
印度
日本
韓國
台灣
泰國
印尼
其他亞太地區

世界概況
北美洲
- 美國
- 加拿大
- 墨西哥
南美洲
- 巴西
- 阿根廷
- 南美洲其他地區
歐洲
- 英國
- 德國
- 法國
- 義大利
- 西班牙
- 其他歐洲國家地區
中東/非洲
- 沙烏地阿拉伯
- 阿拉伯聯合大公國
- 其他中東/非洲地區
亞太地區
- 中國
- 印度
- 日本
- 韓國
- 台灣
- 泰國
- 印尼
- 其他亞太地區

第8章競爭環境及分析

主要企業及策略分析
市場佔有率分析
合併、收購、協議和合作
競爭對手儀表板

第9章公司簡介

Carbon fly, inc.
Canatu
Ocsial
Arkema sA
Cabot corporation
Chasm Advanced Materials Inc.
Cheap tubes
Jiangsu tiannai technology co. Ltd.
Klean Industries Inc.
Kumho petrochemical
BNNano, Inc.
BNNT Materials.
Lg chem
Nanoshel
Merck KGaA, Darmstadt,
American Elements
Nanocyl sa
Nanostructured & Amorphous Materials Inc.
Novarials Corporation
Hongwu International Group Ltd

簡介目錄

Product Code: KSI061616993

The nanotubes market is expected to grow at a compound annual growth rate (CAGR) of 15.82% during the forecast period (2024-2029).

The market for nanotubes is expected to expand in the coming years with its increasing application in multiple domains with properties like electrical resistivity, superconductivity, superhydrophobicity, and high thermal stability. These materials find application in the renewable energy sectors. These materials can be utilized in photovoltaic cells, lithium-ion batteries, engineered polymers, drug delivery, fuel cells, biosensors, chemical sensors, etc.

The European Union has expanded its solar capacity from 204.09 GW in 2022 to 259.99 GW in 2023, showing a jump of 21.50% and anticipated to reach 600 GW by 2030. This increased capacity demands battery storage devices, mainly domestic capacity. It would grow substantially in the upcoming years. This led to an increase in the nanotube material in the manufacturing of solar photovoltaics.

NANOTUBES MARKET DRIVERS:

Advancements in carbon nanotechnology

In April 2023, NEC Corporation developed the world's first high-sensitivity uncooled infrared image sensor using high-purity semiconducting carbon nanotubes (CNTs) in the infrared detection area. This new knowledge expanded the use of carbon nanotube technology. The company will work on the practical application of this image sensor in 2025. Infrared uses the rays into electrical signals to acquire necessary information, which can be utilized in the night vision of the aircraft navigation support systems and security cameras.

Further, in April 2022, Kanematsu invested in CARBON FLY, an emerging company. Carbon nanotubes ("CNTs") have physical (mechanical, electrical, and thermal) and chemical properties that make them likable in many industries. Such as tensile strength 100 times greater than steel, Young's modulus five times greater than steel, and a density about one-half that of aluminum, etc. Further, CARBON FLY is making progress in the industrial applications of this material, in aerospace equipment, automobiles, medical devices and related systems, and state-of-the-art sporting equipment. These developments in the carbon nanotube are a significant factor in drawing more applications and attention to this material in the upcoming time.

Increase in demand for renewable energy sources

Different types of nanotubes find applications in the various types of industrial applications including the renewable energy sector. They are used in energy storage and conversion applications because of their extraordinary properties. With the growing use of the renewable energy sector the use of the nanotube would also expand, nanotube hybrids used in the batteries increase the number of electrons produced.

In the year 2023, the United States saw 54% of new solar electric generation capacity. 5.6% is the annual generation by solar power. According to U.S. Census data, 55.6 GWdc of modules and 3.7 GWdc of cells were imported in 2023. These data suggest the growing application of solar power in day-to-day practical usage and its demand from ordinary households. The development of this solar power capacity needed many raw materials including nanotubes finding application in the manufacturing process.

Expanding demand from the electronic and semiconductor industry

Nanotubes are used as the conductive agents for Lithium-ion batteries, which require antistatic and electromagnetic interference control. The growing use of lithium-ion batteries, in electronic devices, electrical devices, electrical vehicles, personal digital assistants, smartphones, laptops, watches, etc. Mobile phones have been the most common form of internet access device and use lithium-ion batteries.

The percentage of individuals owning a mobile phone in Asia Pacific was 75%, 82% in Arab States, and 93% high in Europe in the year 2023, according to ITU (International Telecommunication Union). The companies are advancing in improving technologies for the batteries and increasing their capacity for better performance by using nanotubes.

According to the IEA (International Energy Agency), the demand for EV batteries will be 750 GWh in 2023, which is 40% up from 2022. This rising number of EV batteries has contributed to the increasing nanotube demand for the application in manufacturing.

Asia Pacific region to dominate the nanotubes market during the forecast period.

The major economies like China, Japan, India, and South Korea dominate the Asia-Pacific region. Some of the fastest-growing emerging economies are from this region such as ASEAN countries. The government initiatives like Pradhan Mantri Suryodaya Yojana in India launched in January 2024, have the plan to put solar power on rooftops in 10 million households, which would need the batteries in the setup too, which would overall drive the market. Further, in the year 2023, India's electronics sector has domestic production accounted for 65% of the US$155 Bn of the total market value.

Moreover, China is the largest market for new electric vehicles, around the world. The government in China has made stringent regulations and policies for the transport climate policy. Now China has been playing a leadership role in global transport climate policy. Due to those policies electric cars have become cheaper and more affordable. The share of electric cars sold in the country for the year 2023, was over 35%, up from 29% in 2022. The need for the nanotube would increase in the market for various industrial and manufacturing applications in lithium-ion battery production for various applications.

Nanotubes market challenges:

The scale of production has been a major challenge for the industrial players as there are several challenges like removing impurities from the materials at a large scale. Thus creating cost complications for the nanotube. The cost of manufacturing of the nanotube materials rises.

Nanotubes Market Key Developments:

In January 2024, The scientists of Rice University finds a new way to rid boron nitride nanotubes of impurities. The researchers can remove impurities in boron nitride nanotubes using phosphoric acid and fine-tuning the reaction by this new method.
In October 2023, Birla Carbon announced the acquisition of Nanocyl SA. Nanocyl SA is a company manufacturing multi-wall carbon nanotubes (MWCNTs) based in Sambreville, Belgium. This acquisition would put Birla Carbon in the leadership position in the energy systems market. This is needed for the material critical to Lithium Ion battery performance along with other conductive applications. Birla Carbon nurturing several innovative opportunities for long-term applications. Nanocyl brings a range of solutions for conductive applications.
In September 2023, OCSiAl, announced to creation of the nanotube production facility near Belgrade, Serbia. This plant will be launched in 2024 with a planned annual capacity of 120 tonnes per year. This would facilitate logistics and lower supply chain costs. With the manufacturing of the nanotubes, the facility will manufacture nanotube suspensions for lithium-ion batteries. This would be enough to enhance the production capacity of the 1 million electric cars with an average battery capacity of 75 kWh per car. OCSiAl nanotubes can create electrical networks between active material particles, improving key battery characteristics. These graphene nanotubes have new battery technologies, including high-silicon content anodes, thick LFP cathodes, fast-charging graphite anodes, etc. It can be applied to the dry battery electrode coating process and solid-state batteries.
In December 2022, Canatu and the European Space Agency (ESA) signed the contract for the development of the optical blocking filter using a unique carbon nanotube (CNT) for its applicability to the ATHENA (Advanced Telescope for High Energy Astrophysics) telescope. The optical blocking filter is made to let X-rays pass through blocking out other wavelengths, for precise imaging of celestial objects. Canatu developed a fully CNT-based X-ray filter with a new CNT support structure for higher transmittance at X-ray compared to metal mesh.

The nanotubes market is segmented and analyzed as follows:

By End User Industry

Electronics & Semiconductor
Energy Storage
Structural Composites
Renewable Energy
Others Industries

By Type

BCN nanotube
Boron nitride nanotube
Carbon nanotube
Gallium nitride nanotube
Others (DNA nanotube, Non-carbon nanotube, Titanium nanotubes)

By Geography

North America
USA
Canada
Mexico
South America
Brazil
Argentina
Rest of South America
Europe
United Kingdom
Germany
France
Italy
Spain
Rest of Europe
Middle East and Africa
Saudi Arabia
UAE
Rest of the Middle East and Africa
Asia Pacific
China
India
Japan
South Korea
Taiwan
Thailand
Indonesia
Rest of Asia-Pacific

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
1.8. Key benefits for the stakeholders

2. RESEARCH METHODOLOGY

2.1. Research Design
2.2. Research Process

3. EXECUTIVE SUMMARY

3.1. Key Findings
3.2. Analyst View

4. MARKET DYNAMICS

4.1. Market Drivers
- 4.1.1. Advancements in carbon nanotechnology
- 4.1.2. Increase in demand for renewable energy sources
- 4.1.3. Expanding demand from the electronic and semiconductor industry
4.2. Market Restraints
- 4.2.1. Scale of production and price allocation
4.3. Porter's Five Forces Analysis
- 4.3.1. Bargaining Power of Suppliers
- 4.3.2. Bargaining Power of Buyers
- 4.3.3. The 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. NANOTUBES MARKET BY END-USER INDUSTRY

5.1. Introduction
5.2. Electronics & Semiconductor
5.3. Energy Storage
5.4. Structural Composites
5.5. Renewable Energy
5.6. Other Industries

6. NANOTUBES MARKET BY TYPE

6.1. Introduction
6.2. BCN nanotube
6.3. Boron nitride nanotube
6.4. Carbon nanotube
6.5. Gallium nitride nanotube
6.6. Others (DNA nanotube, Non-carbon nanotube, Titanium nanotubes)

7. NANOTUBES MARKET BY GEOGRAPHY

7.1. Global Overview
7.2. North America
- 7.2.1. United States
- 7.2.2. Canada
- 7.2.3. Mexico
7.3. South America
- 7.3.1. Brazil
- 7.3.2. Argentina
- 7.3.3. Rest of South America
7.4. Europe
- 7.4.1. United Kingdom
- 7.4.2. Germany
- 7.4.3. France
- 7.4.4. Italy
- 7.4.5. Spain
- 7.4.6. Rest of Europe
7.5. Middle East and Africa
- 7.5.1. Saudi Arabia
- 7.5.2. United Arab Emirates
- 7.5.3. Rest of Middle East and Africa
7.6. Asia-Pacific
- 7.6.1. China
- 7.6.2. India
- 7.6.3. Japan
- 7.6.4. South Korea
- 7.6.5. Taiwan
- 7.6.6. Thailand
- 7.6.7. Indonesia
- 7.6.8. Rest of Asia-Pacific