Summary

Silicon dioxide nanoparticles, also known as nanosilica, offer unique properties that differ from bulk silica. The high surface area to volume ratio of nanosilica particles contributes to their enhanced reactivity and ability to interact with other materials at a molecular level. Nanosilica exhibits remarkable versatility in its applications, finding use in diverse fields such as electronics, healthcare, construction, and materials science. In the electronics industry, it plays a crucial role in semiconductor manufacturing and as a component in advanced sensors. The healthcare sector utilizes nanosilica in drug delivery systems, biomedical imaging, and as a reinforcing agent in dental materials. In construction, these nanoparticles significantly improve the strength and durability of concrete and other building materials. The synthesis of silicon dioxide nanoparticles can be achieved through various methods, including sol-gel processes, flame pyrolysis, and microemulsion techniques.  This comprehensive market report provides an in-depth analysis of the global nanosilica market, offering valuable insights for manufacturers, investors, and stakeholders in the nanotechnology sector. Report contents include: 

• Market Size and Growth Projections: Detailed forecasts of the nanosilica market size and growth rate from 2020 to 2035, segmented by application and region.
• Properties and Synthesis Methods: Comprehensive overview of nanosilica properties and various synthesis techniques, including the Stöber method, microemulsion method, gas phase method, and precipitation method.
• Application Landscape: In-depth analysis of key application areas such as adhesives, biomedicine, catalysts, cement, coatings, composites, electronics, lubricants, and rubber industries.
• Competitive Landscape: Profiles of 28 leading companies and emerging players in the nanosilica space, including their technologies, strategies, and market positioning. Companies profiled include BYK Chemie GmbH, Evonik, Fuji Chemical, Green Resource Co., Ltd., Ionic Mineral Technologies, Kinaltek and Promethean Particles.
• Regulatory and Safety Analysis: Examination of global regulations, toxicity concerns, and safety measures related to nanosilica production and use.
• Emerging Technologies and Innovation:
  • Advanced drug delivery systems and cancer therapies
  • Novel bioimaging techniques and biosensors
  • High-performance catalysts for various chemical processes
  • Innovative coatings with enhanced scratch resistance, anti-reflection, and flame-retardant properties
• Market Drivers and Opportunities
• Challenges and Market Dynamics
• Regional Analysis and Market Opportunities
• Technology Readiness Level (TRL) Analysis
• Price Analysis and Market Value Chain

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Table of Contents

1 EXECUTIVE SUMMARY   8

• 1.1   Properties of nanomaterials 8
• 1.2   Categorization 8
• 1.3   The global market for nanoparticles/powders   9
• 1.4   Silicon dioxide (SiO2) nanoparticles/powders market   12

2 PROPERTIES 14

3 SYNTHESIS METHODS   15

• 3.1   Stöber method   16
• 3.2   Microemulsion method 16
• 3.3   Gas phase method   17
• 3.4   Precipitation method   17
• 3.5   Other Synthesis Methods   17

4 MARKET SEGMENT ANALYSIS   19

• 4.1   Adhesives 19
  • 4.1.1   Motivation for use 20
  • 4.1.2   Applications 20
• 4.2   Biomedicine 21
  • 4.2.1   Motivation for use 21
  • 4.2.2   Applications 21
    • 4.2.2.1 Drug delivery and cancer therapy 22
    • 4.2.2.2 Bioimaging   23
    • 4.2.2.3 Biosensors   24
    • 4.2.2.4 Implants 24
• 4.3   Catalysts   24
  • 4.3.1   Motivation for use 24
  • 4.3.2   Applications 25
• 4.4   Cement   25
  • 4.4.1   Motivation for use 25
  • 4.4.2   Applications 26
• 4.5   Coatings   27
  • 4.5.1   Motivation for use 27
  • 4.5.2   Applications 27
    • 4.5.2.1 Scratch Resistant Coatings  27
    • 4.5.2.2 Anti-reflection Coatings   28
    • 4.5.2.3 Anti-corrosion Coatings   28
    • 4.5.2.4 Flame Retardant Coatings   28
• 4.6   Composites   29
  • 4.6.1   Motivation for use 29
  • 4.6.2   Applications 29
• 4.7   Electronics   30
  • 4.7.1   Motivation for use 30
  • 4.7.2   Applications 30
• 4.8   Lubricants 31
  • 4.8.1   Motivation for use 31
  • 4.8.2   Applications 32
• 4.9   Rubber 32
  • 4.9.1   Motivation for use 32
  • 4.9.2   Applications 33
• 4.10 Other 33
  • 4.10.1 Food additives   33
  • 4.10.2 Cosmetics 34
  • 4.10.3 Printer toners 34
  • 4.10.4 Batteries and supercapacitors 35

5 MARKET VALUE CHAIN   37

6 REGULATIONS AND SAFETY 38

• 6.1   Regulations 38
  • 6.1.1   Europe   39
  • 6.1.2   North America   39
  • 6.1.3   Asia-Pacific   40
• 6.2   Toxicity and safety   42

7 TECHNOLOGY READINESS LEVEL (TRL) CHART 43

8 PRICE AND PRICE DRIVERS 44

9 GLOBAL MARKET DEMAND FOR SILICON DIOXIDE NANOPARTICLES/POWDERS 45

• 9.1   Demand in tons, 2020-2035 45
  • 9.1.1   Total global demand 45
  • 9.1.2   Demand by market 2020-2035   46
  • 9.1.3   Demand by region   47

10   PRODUCER AND SUPPLIER PROFILES 48 (28 company profiles)

11   APPENDICES  63

• 11.1 Research methodology 63
• 11.2 Aims and objectives of the study   63
• 11.3 Technology Readiness Level (TRL) 64

12   REFERENCES 66

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List of Tables/Graphs

List of Tables

• Table 1. Categorization of nanomaterials.  8
• Table 2. The Global market for nanomaterials in 2024 in tons, market characteristics and growth prospects. 10
• Table 3. Market overview for Silicon dioxide (SiO2) nanoparticles/powders -Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications.   13
• Table 4. Silicon Dioxide Nanoparticles (SiO2-NPs) Properties and Applications. 14
• Table 5. Comparison of the SiO2-NPs synthesis processes.   15
• Table 6. Other Synthesis Methods for Silicon Dioxide (SiO2) Nanoparticles/Powders. 17
• Table 7. Markets, benefits and applications of silicon oxide nanoparticles/powders. 19
• Table 8. Motivation for Use in Adhesives.   20
• Table 9. Applications in Adhesives. 20
• Table 10. Motivation for Use in Biomedicine.   21
• Table 11. Applications of silicon dioxide NPs in biomedicine. 21
• Table 12. Comparison of the SiO2- NPs-based drug delivery systems. 22
• Table 13. Motivation for Use in Catalysts. 24
• Table 14. Applications of silicon dioxide NPs in catalyst.  25
• Table 15. Motivation for Use in Cement.   25
• Table 16. Applications of silicon dioxide NPs in cement-based materials. 26
• Table 17. Motivation for Use in Coatings.   27
• Table 18. Applications of silicon dioxide NPs in coatings. 27
• Table 19. Motivation for Use in Composites.   29
• Table 20. Applications of silicon dioxide NPs in composites.   29
• Table 21. Motivation for Use in Electronics. 30
• Table 22. Applications of silicon dioxide NPs in Electronics.   30
• Table 23. Motivation for Use in Lubricants. 31
• Table 24. Applications of silicon dioxide NPs in Lubricants. 32
• Table 25. Motivation for Use in Rubber.   32
• Table 26. Applications of silicon dioxide NPs in Rubber. 33
• Table 27. Market value chain for Silicon dioxide nanoparticles/powders. 37
• Table 28. Regulations for Silicon Dioxide Nanoparticles/Powders   38
• Table 29. Global demand for Silicon dioxide nanoparticles/powders, conservative and optimistic estimates (tons), 2020-2035. 45
• Table 30. Global demand for Silicon dioxide nanoparticles/powders, by market 2020-2035 (tons). 46
• Table 31. Global demand for Silicon dioxide nanoparticles/powders, by region 2020-2035 (tons). 47
• Table 32. Technology Readiness Level (TRL) Examples.   64

List of Figures

• Figure 1. Schematic diagram representing the history and development of silica particles and silica nanoparticles (SNP) with different surface morphology and modifications. 12
• Figure 2. Technology Readiness Level for Silicon Dioxide Nanoparticles/Powders.   43
• Figure 3. Global demand for Silicon dioxide nanoparticles/powders, conservative and optimistic estimates (tons), 2020-2035. 45
• Figure 4. Global demand for Silicon dioxide nanoparticles/powders, by market 2020-2035 (tons).   46
• Figure 5. Global demand for Silicon dioxide nanoparticles/powders, by region 2020-2035 (tons).   47