市場調査レポート
商品コード
1467596
量子ドットの市場レポート:加工技術、用途、材料、最終用途産業、地域別、2024~2032年Quantum Dots Market Report by Processing Techniques, Application, Material, End-Use Industry, and Region 2024-2032 |
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カスタマイズ可能
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量子ドットの市場レポート:加工技術、用途、材料、最終用途産業、地域別、2024~2032年 |
出版日: 2024年04月08日
発行: IMARC
ページ情報: 英文 137 Pages
納期: 2~3営業日
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世界の量子ドット市場規模は2023年に81億米ドルに達しました。今後、IMARC Groupは、市場が2032年までに478億米ドルに達し、2024~2032年の間に21.1%の成長率(CAGR)を示すと予測しています。材料合成技術の急速な進歩、発光特性を精密に調整する能力、安定性を向上させた高品質材料への需要の高まりなどが、市場を後押しする主要要因となっています。
量子ドットはナノスケールの半導体粒子であり、通常、制御された環境でセレン化カドミウムや硫化鉛などの半導体材料を合成することによって作られます。これらの粒子のサイズを注意深く制御することで、そのバンドギャップを正確に調整し、異なる波長の光を放出することができます。量子ドットは量子力学の原理に基づいており、電子が小さな空間に閉じ込められることで、エネルギー準位がばらばらになり、効率的な発光が可能になります。量子ドットのコンポーネントには、光を放出する半導体コアと、安定性を高め、発光特性を制御するのに役立つシェルがあります。この注目すべきナノ結晶は、高輝度、狭い発光スペクトル、可変性など、数多くの利点を備えています。ディスプレイ、照明、太陽電池、生物医療イメージングなど、さまざまなセグメントで応用されています。量子ドットには、コロイド量子ドット、エピタキシャル量子ドット、自己組織化量子ドットなどさまざまな種類があり、それぞれに独自の特性と製造技術があります。
世界の量子ドット市場は、エネルギー効率の高いディスプレイや照明ソリューションに対する需要の高まりなど、多くの要因によって支えられています。医療セグメントでは、バイオイメージング、ドラッグデリバリー、疾病診断などの用途で量子ドットの採用が拡大しており、市場の成長を後押ししています。さらに、エネルギー変換効率を向上させる量子ドットの太陽電池への応用拡大も市場成長を後押ししています。さらに、高度なディスプレイや照明システムのために自動車産業で量子ドットの使用が拡大していることが、市場の成長を後押ししています。これに伴い、量子ドットベースの量子コンピューティングの人気の高まりや、エレクトロニクス業界の大手企業による研究開発(R&D)活動への投資の急増が市場成長を後押ししています。これとは別に、環境モニタリングや産業用途向けの量子ドットベースのセンサーの出現、量子ドットベースの光起電力デバイスやLED照明の需要の急増が、市場に有利な機会を生み出しています。
エネルギー効率の高いディスプレイと照明ソリューションに対する需要の増加
ディスプレイや照明に使用される従来の技術は、正確な色再現と高いエネルギー効率を同時に達成するのに苦労することが多いです。しかし、量子ドットはこの課題に対する有力な解決策を記載しています。このナノ結晶をディスプレイや照明機器に組み込むと、高純度で鮮やかな色を発光させることができ、色再現性が向上します。量子ドットはまた、光をより効率的に変換するユニークな特性を持っており、その結果、従来技術に比べてエネルギー効率が高くなります。量子ドット・ディスプレイの需要は、消費者が鮮やかで忠実な色を求める高解像度テレビやスマートフォンの人気が高まっていることが特に後押ししています。さらに、省エネルギーに対する意識の高まりや環境に優しいソリューションへのニーズが、消費電力が少なく二酸化炭素排出量の削減に貢献する量子ドットのディスプレイや照明への採用を後押ししています。
医療セグメントでの製品採用の増加
量子ドットは、バイオイメージング、ドラッグデリバリー、疾病診断など、様々な医療用途で計り知れない可能性を示しています。バイオイメージングでは、量子ドットは強力な蛍光プローブとして機能し、特定の生物学的構造に照準を合わせることができるため、細胞や組織、生きた生物の高解像度イメージングが可能になります。高い輝度と光安定性を含むその優れた光学特性は、生体システム内の複雑な細部を可視化するのに理想的です。量子ドットはまた、特定の分子で機能化し、標的ドラッグデリバリーのキャリアとして機能させることもできます。量子ドットの小さなサイズ、大きな表面積、調整可能な特性は、正確かつ制御された薬剤放出を可能にし、治療効果を高める。さらに、量子ドットは、がんや感染症など様々な病気に関連するバイオマーカーを検出する高感度プローブとして使用できるため、疾病診断のセグメントでも有望視されています。正確で高感度な検出が可能な量子ドットは、早期診断や患者の予後改善に貢献し、医療セグメントでの採用をさらに後押しします。
量子ドットの太陽電池への応用拡大
太陽エネルギーはクリーンで再生可能な電力源であり、その普及には太陽電池の効率向上が不可欠です。量子ドットは、太陽電池のエネルギー変換効率を向上させることで、有望なソリューションを記載しています。これらのナノ結晶を太陽電池の構造に組み込むことで、可視光や赤外線の波長を含む、より広いスペクトルの光を取り込むことができます。太陽光スペクトルの大部分を効果的に吸収することで、量子ドットは太陽光をより効率的に電気に変換することができます。さらに、量子ドットは調整可能なバンドギャップを示すように設計できるため、特定の太陽電池設計に合わせて吸収・発光特性をカスタマイズできます。この調整可能性により、太陽電池の性能を最適化し、全体的な効率を高めることができます。クリーンエネルギーへの需要が高まり続ける中、量子ドットを太陽電池に組み込むことで、より効率的で費用対効果の高い太陽光発電システムへの道が開かれ、量子ドットの採用が促進され、量子ドット市場の成長を後押ししています。
The global quantum dots market size reached US$ 8.1 Billion in 2023. Looking forward, IMARC Group expects the market to reach US$ 47.8 Billion by 2032, exhibiting a growth rate (CAGR) of 21.1% during 2024-2032. Rapid advancements in material synthesis techniques, the ability to precisely tune emission properties, and increasing demand for high-quality materials with improved stability are some of the major factors propelling the market.
Quantum dots are nanoscale semiconductor particles that are typically made by synthesizing semiconductor materials, such as cadmium selenide or lead sulfide, in a controlled environment. By carefully controlling the size of these particles, their bandgap can be precisely tuned to emit light of different wavelengths. Quantum dots work on the principles of quantum mechanics, where the confinement of electrons in a small space allows for discrete energy levels and efficient light emission. The components of quantum dots include the semiconductor core, which emits light, and a shell that helps in enhancing stability and controlling the emission properties. These remarkable nanocrystals offer numerous advantages, including high brightness, narrow emission spectra, and tunability. They find applications in various fields, such as displays, lighting, solar cells, and biomedical imaging. There are different types of quantum dots, including colloidal quantum dots, epitaxial quantum dots, and self-assembled quantum dots, each with its own unique properties and fabrication techniques.
The global quantum dots market is bolstered by a multitude of factors, including the rising demand for energy-efficient displays and lighting solutions. The escalating adoption of quantum dots in the healthcare sector for applications, such as bioimaging, drug delivery, and disease diagnosis, is fueling the market growth. Additionally, the expanding application of quantum dots in solar cells, where they improve energy conversion efficiency, is propelling the market growth. Furthermore, the growing use of quantum dots in the automotive industry for advanced displays and lighting systems is boosting the market growth. In line with this, the rising popularity of quantum dot-based quantum computing and burgeoning investments in research and development (R&D) activities by major players in the electronics industry are driving the market growth. Apart from this, the emergence of quantum dot-based sensors for environmental monitoring and industrial applications and the surging demand for quantum dot-based photovoltaic devices and LED lighting are creating lucrative opportunities for the market.
Increasing demand for energy-efficient displays and lighting solutions
Traditional technologies used in displays and lighting often struggle to achieve accurate color reproduction and high energy efficiency simultaneously. Quantum dots, however, offer a compelling solution to this challenge. These nanocrystals, when incorporated into displays and lighting devices, can emit highly pure and vibrant colors, resulting in enhanced color reproduction. Quantum dots also possess unique properties that allow them to convert light more efficiently, resulting in higher energy efficiency compared to conventional technologies. The demand for quantum dot displays is particularly driven by the increasing popularity of high-resolution televisions and smartphones, where consumers seek vibrant and true-to-life colors. Moreover, the rising awareness of energy conservation and the need for eco-friendly solutions are driving the adoption of quantum dots in displays and lighting, as they consume less power and contribute to a reduced carbon footprint.
Rising product adoption in the healthcare sector
Quantum dots have demonstrated immense potential in various healthcare applications such as bioimaging, drug delivery, and disease diagnosis. In bioimaging, quantum dots act as powerful fluorescent probes that can be targeted to specific biological structures, enabling high-resolution imaging of cells, tissues, and live organisms. Their superior optical properties, including high brightness and photostability, make them ideal for visualizing intricate details within biological systems. Quantum dots can also be functionalized with specific molecules to act as carriers for targeted drug delivery. Their small size, large surface area, and tunable properties allow for precise and controlled drug release, enhancing therapeutic efficacy. Furthermore, quantum dots show promise in disease diagnosis, where they can be used as sensitive probes for detecting biomarkers associated with various diseases, including cancer and infectious diseases. The ability of quantum dots to provide precise and sensitive detection contributes to early diagnosis and improved patient outcomes, further driving their adoption in the healthcare sector.
Expanding application of quantum dots in solar cells
Solar energy is a clean and renewable source of power, and enhancing the efficiency of solar cells is crucial for its widespread adoption. Quantum dots offer a promising solution by improving the energy conversion efficiency of solar cells. These nanocrystals can be integrated into the structure of solar cells to capture a broader spectrum of light, including visible and infrared wavelengths. By effectively absorbing a larger portion of the solar spectrum, quantum dots enable a more efficient conversion of sunlight into electricity. Furthermore, quantum dots can be engineered to exhibit tunable bandgaps, allowing for the customization of absorption and emission properties to match specific solar cell designs. This tunability enables the optimization of solar cell performance and enhances overall efficiency. As the demand for clean energy continues to rise, the integration of quantum dots into solar cells offers a pathway to more efficient and cost-effective photovoltaic systems, driving their adoption and fueling the growth of the quantum dots market.
IMARC Group provides an analysis of the key trends in each segment of the global quantum dots market report, along with forecasts at the global, regional and country levels from 2024-2032. Our report has categorized the market based on processing techniques, application, material and end-use industry.
Colloidal Synthesis
Fabrication
Lithography
Electron Beam Lithography
Soft Lithography
Stencil Lithography
Nanolithography
Photopatternable Arrays
Bio-Molecular Self-Assembly
Viral Assembly
Electrochemical Assembly
Others
Colloidal synthesis dominate the market
The report has provided a detailed breakup and analysis of the market based on the processing techniques. This includes colloidal synthesis, fabrication (lithography, electron beam lithography, soft lithography, stencil lithography, nanolithography, and photopatternable arrays), bio-molecular self-assembly, viral assembly, electrochemical assembly, and others. According to the report, colloidal synthesis represented the largest segment.
Colloidal synthesis is a commonly used technique where quantum dots are synthesized in a colloidal solution through chemical reactions. This method allows for precise control over the size and composition of the quantum dots. One of the major factors driving the market of this segment is their broad applications in various industries such as pharmaceuticals, cosmetics, food and beverage, and nanotechnology. In pharmaceuticals and cosmetics, colloids are used for their improved solubility and bioavailability, while in the food industry, they aid texture modification and stability. Additionally, advancements in nanotechnology, which heavily relies on colloidal synthesis to produce nanoparticles, fuels market expansion. The rise of green synthesis methods, employing eco-friendly substances, also contributes to market growth. Apart from this, increased research and development (R&D) activities supported by substantial funding are accelerating technological advancements in the field. Furthermore, the growing demand for efficient drug delivery systems and high-quality consumer products necessitates the application of colloids.
Medical Devices
Displays
Solar Cells
Photodetectors Sensors
Lasers
LED Lights
Batteries & Energy Storage Systems
Transistors
Others
Displays hold the largest share in the market
A detailed breakup and analysis of the market based on the application has also been provided in the report. This includes medical devices, displays, solar cells, photodetectors sensors, lasers, LED lights, batteries & energy, storage systems, transistors, and others. According to the report, displays accounted for the largest market share.
Quantum dots find diverse applications across several segments. In the medical devices industry, quantum dots are utilized for advanced imaging techniques, enabling improved diagnostics and targeted drug delivery systems. In the displays segment, quantum dots offer high-quality color reproduction and enhanced brightness, resulting in vibrant and energy-efficient displays for televisions, smartphones, and monitors. Solar cells benefit from the use of quantum dots as they enable efficient light absorption and improved power conversion, leading to enhanced solar energy harvesting. Photodetector sensors leverage the sensitivity and tunability of quantum dots to detect and measure light in various applications such as optical communication and imaging systems. Quantum dots are also employed in lasers, where their unique optical properties enable precise control over emission wavelengths, making them ideal for applications in telecommunications, medicine, and research.
Cadmium Based QD
Cadmium Selenide
Cadmium Sulfide
Cadmium Telluride
Cadmium Free QD
Indium Arsenide
Silicon
Graphene
Lead Sulfide
Cadmium based QD hold the largest share in the market
A detailed breakup and analysis of the market based on the material has also been provided in the report. This includes cadmium based QD (cadmium selenide, cadmium sulfide, and cadmium telluride) and cadmium free QD (indium arsenide silicon, graphene, and lead sulfide). According to the report, cadmium based QD accounted for the largest market share.
Cadmium-based QDs, such as cadmium selenide (CdSe) and cadmium sulfide (CdS), have been extensively studied and utilized due to their excellent optical properties. These QDs offer precise control over the emission wavelength by varying the particle size, making them ideal for applications like high-quality displays and lighting. However, concerns about the potential toxicity of cadmium have led to the development of cadmium-free quantum dots. These alternative materials, including indium phosphide (InP) and lead sulfide (PbS), offer comparable or even superior optical properties without the use of cadmium. Cadmium-free QDs have gained traction in industries focused on sustainability and regulatory compliance. Moreover, they find applications in fields such as bioimaging and photovoltaics, where their low toxicity is a significant advantage.
Healthcare
Optoelectronics
LED Lighting
Solar Modules
Others
Healthcare holds the largest share in the market
A detailed breakup and analysis of the market based on the end-use industry has also been provided in the report. This includes healthcare, optoelectronics, LED lighting, solar modules, and others. According to the report, healthcare accounted for the largest market share.
Quantum dots find applications in the healthcare industry for advanced biomedical imaging techniques and diagnostics, enabling precise visualization and detection of diseases. They also play a role in targeted drug delivery systems, enhancing the effectiveness of therapies. In optoelectronics, quantum dots are used in displays, LEDs, and lasers due to their high color purity, brightness, and tunability. They enable vibrant and energy-efficient displays, high-quality lighting solutions, and efficient laser systems for various applications. Quantum dots are also incorporated into LED lighting systems to enhance color accuracy, efficiency, and brightness. They enable the production of high-quality lighting products with a wide color gamut and improved energy efficiency compared to traditional lighting technologies. Quantum dots offer potential advantages in solar cell technology, including improved light absorption and tunable bandgaps. By incorporating quantum dots into solar modules, efficiency and power generation can be enhanced, contributing to the development of more efficient and cost-effective solar energy solutions.
North America
United States
Canada
Asia Pacific
China
Japan
India
South Korea
Australia
Indonesia
Others
Europe
Germany
France
United Kingdom
Italy
Spain
Russia
Others
Latin America
Brazil
Mexico
Argentina
Colombia
Chile
Peru
Others
Middle East and Africa
Turkey
Saudi Arabia
Iran
United Arab Emirates
Others
North America exhibits a clear dominance, accounting for the largest quantum dots market share
The report has also provided a comprehensive analysis of all the major regional markets, which include North America (the United States and Canada); Europe (Germany, France, the United Kingdom, Italy, Spain, Russia, and others); Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, and others); Latin America (Brazil, Mexico, and others); and the Middle East and Africa.
One of the key factors driving the North America quantum dots market is the increasing adoption of the technology in a wide array of applications, including displays, solar cells, and medical imaging. Their superior properties, like high brightness, pure color, and energy efficiency, make quantum dots a highly sought-after solution, particularly in the consumer electronics industry for next-generation display technology. Additionally, vigorous research and development (R&D) activities in the region, backed by substantial governmental and private funding, are advancing quantum dot technology. The presence of several key market players in North America also contributes to regional market growth. Furthermore, progressive regulatory policies, combined with favorable economic conditions, are promoting the use of quantum dots.
The competitive landscape of the quantum dots market is characterized by intense competition among key players. Companies are actively involved in research, development, and commercialization of quantum dot technologies. These companies are focusing on strategic partnerships, collaborations, and product innovations to gain a competitive edge in the market. Additionally, manufacturers are emphasizing improving production processes, enhancing product quality, and expanding their product portfolios to cater to diverse industry needs. Moreover, the market is witnessing the entry of new players, which further intensifies the competition. Rising investments in quantum dot technologies by both established players and startups indicate potential growth opportunities in the market.
Altairnano
ams-OSRAM International GmbH
LG Display Co. Ltd
Nanoco Group plc
Nanosys Inc.
Ocean NanoTech LLC
QD Laser
Quantum Materials Corp.
Samsung Display Co. Ltd. (Samsung Electronics Co. Ltd)
Thermo Fisher Scientific Inc.
In June, 2023, Premstaetten and ams-OSRAM introduced improved blue and green lasers based on a new generation of its diode emitter chip. The chip's superior performance enables manufacturers to increase the value of laser modules and devices aimed at applications such as leveling and scanning.
In April, 2023, Samsung Display signed a memorandum of understanding (MOU) with Ferrari to develop a display solution for implementation in Ferrari's next-generation models.
In June, 2023, Thermo Fisher Scientific Inc. announced to acquire CorEvitas, LLC ("CorEvitas"), a leading provider of regulatory-grade, real-world evidence for approved medical treatments and therapies.