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Complex-Oxide Nanomaterials - Global Strategic Business Report

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    Report

  • 196 Pages
  • December 2024
  • Region: Global
  • Global Industry Analysts, Inc
  • ID: 5139692
The global market for Complex-Oxide Nanomaterials was estimated at US$1.5 Billion in 2023 and is projected to reach US$3.2 Billion by 2030, growing at a CAGR of 12.0% from 2023 to 2030. This comprehensive report provides an in-depth analysis of market trends, drivers, and forecasts, helping you make informed business decisions.

How Are Complex-Oxide Nanomaterials Shaping the Future of Advanced Materials Science?

Complex-oxide nanomaterials are a class of advanced materials composed of metal oxides with complex crystal structures, often engineered at the nanoscale to exhibit unique physical, chemical, and electronic properties. These materials have garnered significant attention in recent years due to their remarkable versatility and potential for applications across multiple fields, including electronics, energy storage, catalysis, and environmental remediation. The ability to manipulate their structure and composition at the atomic level allows scientists to tailor the properties of these nanomaterials for specific uses. For instance, complex-oxide nanomaterials such as perovskites have shown immense promise in photovoltaic applications, offering an efficient and cost-effective alternative to traditional silicon-based solar cells. Similarly, in the field of electronics, materials like complex-oxide ferroelectrics and multiferroics are being explored for next-generation memory devices due to their ability to exhibit multiple functional properties, such as electrical conductivity and magnetism, simultaneously. Their small size, combined with high surface area and tunable properties, makes them especially suitable for catalysis and environmental applications, where they can accelerate chemical reactions or break down pollutants more effectively than bulk materials.

What Technological Advancements Have Pushed the Development of Complex-Oxide Nanomaterials?

The development of complex-oxide nanomaterials has been significantly accelerated by advancements in nanotechnology, material synthesis techniques, and computational modeling. One of the key innovations in this field is the ability to control the structure and composition of these materials at the atomic level through techniques such as atomic layer deposition (ALD) and molecular beam epitaxy (MBE). These methods allow for the precise fabrication of thin films and nanostructures with tailored properties, which is crucial for optimizing their performance in applications such as catalysis, sensors, and energy storage devices. Another important advancement is the use of advanced characterization tools, such as transmission electron microscopy (TEM) and scanning tunneling microscopy (STM), which enable scientists to observe and manipulate materials at the atomic scale. These tools have provided deeper insights into the fundamental properties of complex-oxide nanomaterials, such as how their electronic, magnetic, and optical behaviors change when their size is reduced to the nanoscale. In addition, computational modeling and machine learning algorithms are now being used to predict the behavior of complex-oxide nanomaterials, accelerating the discovery of new materials with desirable properties. The integration of these technologies is pushing the boundaries of what is possible in material design, enabling researchers to develop highly optimized materials for specific industrial and technological applications.

How Are Complex-Oxide Nanomaterials Applied Across Various Industries?

Complex-oxide nanomaterials are increasingly finding applications across diverse industries due to their exceptional functional properties, which can be fine-tuned for specific needs. In the energy sector, these materials are making a substantial impact, particularly in the development of more efficient and sustainable energy storage and conversion devices. For example, complex oxides like lithium cobalt oxide (LCO) are essential components in lithium-ion batteries, while other complex oxides are being investigated as catalysts for fuel cells and electrolyzers in hydrogen production. In electronics, complex-oxide materials such as transparent conducting oxides (TCOs) are widely used in display technologies, touch screens, and solar cells due to their unique combination of transparency and electrical conductivity. Additionally, complex-oxide nanomaterials play a crucial role in environmental applications, particularly in photocatalysis and water purification. For instance, titanium dioxide (TiO2), a well-known complex oxide, is used in photocatalytic processes to degrade harmful pollutants and purify water under UV light. The medical field is also beginning to explore the potential of these materials, particularly in drug delivery systems and bioimaging, where their biocompatibility and tunable surface properties are advantageous. The ability to fine-tune their magnetic, electronic, and catalytic properties has made complex-oxide nanomaterials a game-changer in a wide range of industrial applications, from enhancing renewable energy technologies to improving environmental sustainability and healthcare solutions.

What Factors Are Driving the Growth of the Complex-Oxide Nanomaterials Market?

The growth in the complex-oxide nanomaterials market is driven by several factors, including technological advancements, increasing demand for high-performance materials, and the push for sustainability in industrial processes. One of the most significant drivers is the rising demand for efficient energy solutions, particularly in the fields of renewable energy storage and conversion. As the world transitions to greener energy sources, complex-oxide nanomaterials are being explored as key components in batteries, fuel cells, and solar cells due to their ability to enhance performance, efficiency, and durability. Another important factor driving market growth is the miniaturization of electronic devices, which requires materials with high functionality at the nanoscale. Complex-oxide nanomaterials, with their ability to exhibit multiple properties such as ferroelectricity, magnetism, and superconductivity, are ideal candidates for use in next-generation electronics, particularly in memory storage and processing technologies. Additionally, the increasing focus on environmental sustainability is pushing industries to adopt materials that can facilitate cleaner and more efficient processes. Complex-oxide nanomaterials, particularly in catalytic and environmental applications, offer solutions for reducing pollution and waste, further boosting their demand. Advances in nanotechnology and material science have also lowered the production costs of these materials, making them more accessible for commercial use. As industries continue to prioritize innovation and sustainability, the demand for complex-oxide nanomaterials is expected to rise, fueled by their broad application potential and unique functional properties.

Key Insights:

  • Market Growth: Understand the significant growth trajectory of the Lithium Titanate segment, which is expected to reach US$1.8 Billion by 2030 with a CAGR of a 12.4%. The Rare Earth Metal Oxide segment is also set to grow at 14.0% CAGR over the analysis period.
  • Regional Analysis: Gain insights into the U.S. market, which was valued at $391.5 Million in 2023, and China, forecasted to grow at an impressive 10.9% CAGR to reach $489.7 Million by 2030. Discover growth trends in other key regions, including Japan, Canada, Germany, and the Asia-Pacific.

Why You Should Buy This Report:

  • Detailed Market Analysis: Access a thorough analysis of the Global Complex-Oxide Nanomaterials Market, covering all major geographic regions and market segments.
  • Competitive Insights: Get an overview of the competitive landscape, including the market presence of major players across different geographies.
  • Future Trends and Drivers: Understand the key trends and drivers shaping the future of the Global Complex-Oxide Nanomaterials Market.
  • Actionable Insights: Benefit from actionable insights that can help you identify new revenue opportunities and make strategic business decisions.

Key Questions Answered:

  • How is the Global Complex-Oxide Nanomaterials Market expected to evolve by 2030?
  • What are the main drivers and restraints affecting the market?
  • Which market segments will grow the most over the forecast period?
  • How will market shares for different regions and segments change by 2030?
  • Who are the leading players in the market, and what are their prospects?

Report Features:

  • Comprehensive Market Data: Independent analysis of annual sales and market forecasts in US$ Million from 2023 to 2030.
  • In-Depth Regional Analysis: Detailed insights into key markets, including the U.S., China, Japan, Canada, Europe, Asia-Pacific, Latin America, Middle East, and Africa.
  • Company Profiles: Coverage of major players such as Altair Nanotechnologies, Inc., American Elements, Dow, Inc., and more.
  • Complimentary Updates: Receive free report updates for one year to keep you informed of the latest market developments.

Select Competitors (Total 46 Featured):

  • Altair Nanotechnologies, Inc.
  • American Elements
  • Dow, Inc.
  • DuPont de Nemours, Inc.
  • Eprui Nanoparticles & Microspheres Co. Ltd.
  • Nanostructured & Amorphous Materials, Inc.
  • Polysciences, Inc.
  • Reinste Nano Ventures Pvt., Ltd.
  • SkySpring Nanomaterials, Inc.

Table of Contents

I. METHODOLOGYII. EXECUTIVE SUMMARY
1. MARKET OVERVIEW
  • Influencer Market Insights
  • Global Economic Update
  • Complex-Oxide Nanomaterials - Global Key Competitors Percentage Market Share in 2024 (E)
  • Competitive Market Presence - Strong/Active/Niche/Trivial for Players Worldwide in 2024 (E)
2. FOCUS ON SELECT PLAYERS
3. MARKET TRENDS & DRIVERS
  • Advancements in Nanotechnology Propel Growth of Complex-Oxide Nanomaterials in Advanced Applications
  • Rising Demand for Energy Storage Solutions Expands Addressable Market for Complex-Oxide Nanomaterials
  • Increased Focus on Sustainable and Renewable Energy Sources Throws the Spotlight on Complex-Oxide Nanomaterials in Solar Cells
  • Technological Innovations in Catalysis Drive Adoption of Complex-Oxide Nanomaterials in Chemical Processing
  • Emergence of Next-Generation Electronics Spurs Growth of Complex-Oxide Nanomaterials for Enhanced Conductivity
  • Growing Use of Complex-Oxide Nanomaterials in Environmental Remediation Strengthens Business Case for Water and Air Purification Solutions
  • Rising Applications in Biomedical Devices and Drug Delivery Accelerate Demand for Complex-Oxide Nanomaterials
  • Advances in Superconductivity Research Propel Growth of Complex-Oxide Nanomaterials in Quantum Computing
  • Growing Role of Complex-Oxide Nanomaterials in Hydrogen Production Expands Market Opportunities in Energy Transition
4. GLOBAL MARKET PERSPECTIVE
  • Table 1: World Complex-Oxide Nanomaterials Market Analysis of Annual Sales in US$ Thousand for Years 2014 through 2030
  • Table 2: World Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2023 through 2030 and % CAGR
  • Table 3: World Historic Review for Complex-Oxide Nanomaterials by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 4: World 16-Year Perspective for Complex-Oxide Nanomaterials by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets for Years 2014, 2024 & 2030
  • Table 5: World Recent Past, Current & Future Analysis for Lithium Titanate by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2023 through 2030 and % CAGR
  • Table 6: World Historic Review for Lithium Titanate by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 7: World 16-Year Perspective for Lithium Titanate by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2014, 2024 & 2030
  • Table 8: World Recent Past, Current & Future Analysis for Rare Earth Metal Oxide by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2023 through 2030 and % CAGR
  • Table 9: World Historic Review for Rare Earth Metal Oxide by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 10: World 16-Year Perspective for Rare Earth Metal Oxide by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2014, 2024 & 2030
  • Table 11: World Recent Past, Current & Future Analysis for Silica Hydride by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2023 through 2030 and % CAGR
  • Table 12: World Historic Review for Silica Hydride by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 13: World 16-Year Perspective for Silica Hydride by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2014, 2024 & 2030
  • Table 14: World Recent Past, Current & Future Analysis for Calcium Phosphate by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2023 through 2030 and % CAGR
  • Table 15: World Historic Review for Calcium Phosphate by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 16: World 16-Year Perspective for Calcium Phosphate by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2014, 2024 & 2030
III. MARKET ANALYSIS
UNITED STATES
  • Complex-Oxide Nanomaterials Market Presence - Strong/Active/Niche/Trivial - Key Competitors in the United States for 2024 (E)
  • Table 17: USA Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate - Independent Analysis of Annual Sales in US$ Thousand for the Years 2023 through 2030 and % CAGR
  • Table 18: USA Historic Review for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 19: USA 16-Year Perspective for Complex-Oxide Nanomaterials by Product - Percentage Breakdown of Value Sales for Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate for the Years 2014, 2024 & 2030
CANADA
  • Table 20: Canada Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate - Independent Analysis of Annual Sales in US$ Thousand for the Years 2023 through 2030 and % CAGR
  • Table 21: Canada Historic Review for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 22: Canada 16-Year Perspective for Complex-Oxide Nanomaterials by Product - Percentage Breakdown of Value Sales for Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate for the Years 2014, 2024 & 2030
JAPAN
  • Complex-Oxide Nanomaterials Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Japan for 2024 (E)
  • Table 23: Japan Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate - Independent Analysis of Annual Sales in US$ Thousand for the Years 2023 through 2030 and % CAGR
  • Table 24: Japan Historic Review for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 25: Japan 16-Year Perspective for Complex-Oxide Nanomaterials by Product - Percentage Breakdown of Value Sales for Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate for the Years 2014, 2024 & 2030
CHINA
  • Complex-Oxide Nanomaterials Market Presence - Strong/Active/Niche/Trivial - Key Competitors in China for 2024 (E)
  • Table 26: China Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate - Independent Analysis of Annual Sales in US$ Thousand for the Years 2023 through 2030 and % CAGR
  • Table 27: China Historic Review for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 28: China 16-Year Perspective for Complex-Oxide Nanomaterials by Product - Percentage Breakdown of Value Sales for Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate for the Years 2014, 2024 & 2030
EUROPE
  • Complex-Oxide Nanomaterials Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Europe for 2024 (E)
  • Table 29: Europe Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Geographic Region - France, Germany, Italy, UK and Rest of Europe Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2023 through 2030 and % CAGR
  • Table 30: Europe Historic Review for Complex-Oxide Nanomaterials by Geographic Region - France, Germany, Italy, UK and Rest of Europe Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 31: Europe 16-Year Perspective for Complex-Oxide Nanomaterials by Geographic Region - Percentage Breakdown of Value Sales for France, Germany, Italy, UK and Rest of Europe Markets for Years 2014, 2024 & 2030
  • Table 32: Europe Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate - Independent Analysis of Annual Sales in US$ Thousand for the Years 2023 through 2030 and % CAGR
  • Table 33: Europe Historic Review for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 34: Europe 16-Year Perspective for Complex-Oxide Nanomaterials by Product - Percentage Breakdown of Value Sales for Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate for the Years 2014, 2024 & 2030
FRANCE
  • Complex-Oxide Nanomaterials Market Presence - Strong/Active/Niche/Trivial - Key Competitors in France for 2024 (E)
  • Table 35: France Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate - Independent Analysis of Annual Sales in US$ Thousand for the Years 2023 through 2030 and % CAGR
  • Table 36: France Historic Review for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 37: France 16-Year Perspective for Complex-Oxide Nanomaterials by Product - Percentage Breakdown of Value Sales for Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate for the Years 2014, 2024 & 2030
GERMANY
  • Complex-Oxide Nanomaterials Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Germany for 2024 (E)
  • Table 38: Germany Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate - Independent Analysis of Annual Sales in US$ Thousand for the Years 2023 through 2030 and % CAGR
  • Table 39: Germany Historic Review for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 40: Germany 16-Year Perspective for Complex-Oxide Nanomaterials by Product - Percentage Breakdown of Value Sales for Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate for the Years 2014, 2024 & 2030
ITALY
  • Table 41: Italy Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate - Independent Analysis of Annual Sales in US$ Thousand for the Years 2023 through 2030 and % CAGR
  • Table 42: Italy Historic Review for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 43: Italy 16-Year Perspective for Complex-Oxide Nanomaterials by Product - Percentage Breakdown of Value Sales for Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate for the Years 2014, 2024 & 2030
UNITED KINGDOM
  • Complex-Oxide Nanomaterials Market Presence - Strong/Active/Niche/Trivial - Key Competitors in the United Kingdom for 2024 (E)
  • Table 44: UK Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate - Independent Analysis of Annual Sales in US$ Thousand for the Years 2023 through 2030 and % CAGR
  • Table 45: UK Historic Review for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 46: UK 16-Year Perspective for Complex-Oxide Nanomaterials by Product - Percentage Breakdown of Value Sales for Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate for the Years 2014, 2024 & 2030
REST OF EUROPE
  • Table 47: Rest of Europe Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate - Independent Analysis of Annual Sales in US$ Thousand for the Years 2023 through 2030 and % CAGR
  • Table 48: Rest of Europe Historic Review for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 49: Rest of Europe 16-Year Perspective for Complex-Oxide Nanomaterials by Product - Percentage Breakdown of Value Sales for Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate for the Years 2014, 2024 & 2030
ASIA-PACIFIC
  • Complex-Oxide Nanomaterials Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Asia-Pacific for 2024 (E)
  • Table 50: Asia-Pacific Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate - Independent Analysis of Annual Sales in US$ Thousand for the Years 2023 through 2030 and % CAGR
  • Table 51: Asia-Pacific Historic Review for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 52: Asia-Pacific 16-Year Perspective for Complex-Oxide Nanomaterials by Product - Percentage Breakdown of Value Sales for Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate for the Years 2014, 2024 & 2030
REST OF WORLD
  • Table 53: Rest of World Recent Past, Current & Future Analysis for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate - Independent Analysis of Annual Sales in US$ Thousand for the Years 2023 through 2030 and % CAGR
  • Table 54: Rest of World Historic Review for Complex-Oxide Nanomaterials by Product - Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2014 through 2022 and % CAGR
  • Table 55: Rest of World 16-Year Perspective for Complex-Oxide Nanomaterials by Product - Percentage Breakdown of Value Sales for Lithium Titanate, Rare Earth Metal Oxide, Silica Hydride and Calcium Phosphate for the Years 2014, 2024 & 2030
IV. COMPETITION

Companies Mentioned

  • Altair Nanotechnologies, Inc.
  • American Elements
  • Dow, Inc.
  • DuPont de Nemours, Inc.
  • Eprui Nanoparticles & Microspheres Co. Ltd.
  • Nanostructured & Amorphous Materials, Inc.
  • Polysciences, Inc.
  • Reinste Nano Ventures Pvt., Ltd.
  • SkySpring Nanomaterials, Inc.