Market Size (2015)
2015
$5402.07B
Vertical: CNMBase Year: 201712 Sections
Market Size (2015)
2015
$5402.07B
Projected (2030)
2030
$13725.27B
CAGR (2015–2030)
6.4%
6.4%Key Players
109+
The global silicon dioxide market is poised to witness lucrative growth during the forecast period, 2018–2030. The global market was valued at USD 6,022 million in 2017 and is projected to register a CAGR of 6.60% to reach USD 13,725.3 million by the end of 2030. In terms of volume, the global market was sized at 3,733.1 thousand tons in 2017 and is likely to exhibit a CAGR of 5.46% to reach 7,397.3 thousand tons by the end of 2030. The abundant availability of silicon dioxide in natural form is the primary factor expected to fuel the growth of the global silicon dioxide market. Besides, the high demand for sand in the building & construction industry and increasing use of high-purity silicon dioxide in the manufacturing of silicon wafers are the other factors expected to boost the global market growth. Furthermore, the growth in the fiber optics market across the globe is likely to provide lucrative opportunities for the players operating in the global silicon dioxide market during the forecast period. However, some of the challenging factors for the players are health hazards associated with the long-term exposure to silicon dioxide, and volatile prices of chemical aids used during the processing of silicon dioxide. Besides, the availability of low-cost substitute is expected to hamper the global market growth to a certain extent during the forecast period.The global silicon dioxide market is poised to witness lucrative growth during the forecast period, 2018–2030. The global market was valued at USD 6,022 million in 2017 and is projected to register a CAGR of 6.60% to reach USD 13,725.3 million by the end of 2030. In terms of volume, the global market was sized at 3,733.1 thousand tons in 2017 and is likely to exhibit a CAGR of 5.46% to reach 7,397.3 thousand tons by the end of 2030. The abundant availability of silicon dioxide in natural form is the primary factor expected to fuel the growth of the global silicon dioxide market. Besides, the high demand for sand in the building & construction industry and increasing use of high-purity silicon dioxide in the manufacturing of silicon wafers are the other factors expected to boost the global market growth. Furthermore, the growth in the fiber optics market across the globe is likely to provide lucrative opportunities for the players operating in the global silicon dioxide market during the forecast period. However, some of the challenging factors for the players are health hazards associated with the long-term exposure to silicon dioxide, and volatile prices of chemical aids used during the processing of silicon dioxide. Besides, the availability of low-cost substitute is expected to hamper the global market growth to a certain extent during the forecast period.
The Silicon Dioxide Market market is projected to grow at a CAGR of 6.4% from 2015 to 2030.
Historical performance and future projections (2020–2030, USD Billion)
Subscribe to Wantstats
Unlock premium reports, insights, blogs, charts and more.
View Subscription PlansMarket Size (USD Mn)
Subscribe to Wantstats
Unlock premium reports, insights, blogs, charts and more.
View Subscription PlansSilicon dioxide (silica) is one of the most commonly found minerals on the earth’s crust and is represented by the molecular formula SiO2. It is transparent to gray, odorless, crystalline or amorphous solid, having high dielectric strength. The amorphous forms of silica are artificially synthesized, whereas the crystalline forms are mostly found on the earth’s crust in the forms of sand or rocks–igneous, metamorphic, and sedimentary. The different types of crystalline silica available on the earth’s crust are quartz, cristobalite, coesite, tridymite, stishovite, lechatelierite, chalcedony, hydrous silica mineral opal, and vitreous (glassy) silica, among others. Among these, quartz is the most commonly found mineral on the earth and is present in nearly all mining operations. However, Keatite form of silica is artificially synthesized. The raw silica, available in the rock or sand form, have varying composition of silicon dioxide. For instance, silica sand available on the river bed has typical purity of around 45–75% SiO2. It is processed to the desired purity standards depending upon the applications.
Silicon dioxide finds use in varying applications ─ building material, glass & ceramics, paints & coatings, adhesives & sealants, food & pharmaceutical additives, silicon wafers, pesticide, noise absorber, water treatment, foundries, plastics & composites, filler, and green tires. Low-grade silicon dioxide is used as a building material in the construction industry, whereas extra high-purity silicon dioxide (99.999% SiO2) is exclusively used for high-end applications, viz. microelectronics, solar panels, and fiber optics.
Subscribe to Wantstats
Unlock premium reports, insights, blogs, charts and more.
View Subscription PlansSubscribe to Wantstats
Unlock premium reports, insights, blogs, charts and more.
View Subscription PlansSubscribe to Wantstats
Unlock premium reports, insights, blogs, charts and more.
View Subscription PlansResearch ProcessMarket Research Future research is conducted by industry experts who offer insight into industry structure, market segmentations, technology assessment, competitive landscape (CL), penetration, as well as on emerging trends. Besides primary interviews (~ 80%) and secondary research (~ 20%), their analysis is based on their years of professional expertise in respective industries. Our analysts also predict where the market will be headed in the next five to ten years, by analyzing historical trends and current market positions. Furthermore, the varying trends of segments & categories geographically presented are studied and are estimated based on primary & secondary research.
Primary ResearchExtensive primary research was conducted to gain a deeper insight of the market and the industry performance. In this particular report we have conducted primary surveys (interviews) with the key level executives (VP, CEO’s, Marketing Director, Business Development Manager and many more) of the major players who are active in the market. In addition to analyzing the current and historical trends, our analysts predict where the market is headed, over the next five to ten years.
Secondary ResearchSecondary research was mainly used to collect and identify information useful for extensive, technical, market-oriented, and commercial study of the global silicon dioxide market. It was also used to obtain key information about major players, market classification and segmentation according to the industry trends, geographical markets, & developments related to the market and technology perspectives. For this study, analysts have gathered information from various credible sources, such as Association of Synthetic Amorphous Silica Producers (ASASP), The Silica and Moulding Sands Association (SAMSA), The Silica Fume Association (SFA), National Industrial Sand Association (NISA), Mineral Products Association (MPA), Semiconductor Associations and Organizations (SIA), Workshop on Synchronization and Timing Systems (WSTS), annual reports, SEC filings, journals, white papers, corporate presentations, company websites, and some paid databases and many others.
Market Size EstimationBoth, top-down and bottom-up approaches were used to estimate and validate the size of the market and to estimate the size of various other dependent submarkets of the overall global silicon dioxide market. The key players in the market were identified through secondary research and their market contributions in the respective geographies were determined through primary and secondary research. This entire procedure included the study of the annual and financial reports of top market players and extensive interviews for key insights with industry leaders such as CEOs, VPs, directors, and marketing executives. All percentage shares, splits, and breakdowns were determined using secondary sources and verified through primary sources. All the possible parameters that affect the market have been covered in this research study have been accounted for, viewed in extensive detail, verified through primary research, and analyzed to get the final quantitative and qualitative data. This data has been consolidated and added with detailed inputs and analysis from market research future and has been presented in this report. The following figure shows an illustrative representation of the overall market size estimation process employed for the purpose of this study
Base Year
2017
Historical Period
2015 – 2017
Forecast Period
2017 – 2030
Primary Interviews
150+
Historical data (2015–2017) and forecast period (2017–2030)
Our research process spans primary interviews with industry stakeholders combined with comprehensive secondary data analysis, validated through triangulation across multiple independent sources.
Subscribe to Wantstats
Unlock premium reports, insights, blogs, charts and more.
View Subscription PlansMichael Porter’s five forces model gives a framework that models the global silicon dioxide market. The strategic business managers, trying to create an edge over competitive firms in the global silicon dioxide market can utilize this model to comprehend better industry connection in which the firm operates. The components of each of the forces and the degree of impact of each component in the context of the global silicon dioxide market have been broken down and analyzed.
Threat of New Entrants
New entrants are players willing to enter the global silicon dioxide market. New entrants bring new capacity, willingness to gain market share and often substantial resources. Taking all the past and present global market trends, forces, and scenarios into consideration, the threat of new entrants to the existing players is expected to be moderate to high. This can be attributed to the low capital-intensive nature of the low-grade silica sand industry. The growing construction industry and high demand for glass and ceramics, paints and coatings, adhesives and sealants, and composites are providing lucrative opportunities for the new entrants to enter the silica sand market. However, processing silicon dioxide to higher purity (above 99% SiO2 content) requires high capital and advanced technology, which is expected to act as a barrier for new entrants, and thus lower the threat of new entrants to the existing players. Furthermore, the majority of manufacturers of high purity silicon dioxide are tier-1 and tier-2, which hold the majority of the market share and provide stiff competition to new entrants.
Intensity of Competitive Rivalry
The global silicon dioxide market is likely to witness a low to moderate intensity of competitive rivalry as the global market is fragmented with the presence of a significant number of tier-1, tier-2, and tier-3 players. There are established consumer bases in each region with efficient distribution networks to cater to the demand from end users. Furthermore, long-term contracts with buyers ease the competition to some extent. However, there is some competition among manufacturers based on the quality, variety, and price of the product.
Threat of Substitutes
The threat of substitutes in the global silicon dioxide market is observed to be low–moderate. This is mainly due to the lack of substitutes in the global market on a large-scale. Copper slag is an alternative material used instead of silica sand as a construction additive. However, keeping in mind the high demand of construction materials, copper slag may not be able to replace silica sand at least during the forecast period, however, the silicon dioxide market may witness a marginal decrease in size during the forecast period. Furthermore, there is no substitute for high purity silicon dioxide in the market. However, constant R&D may bring a new substitute in the coming years. But, as of now, the threat to substitute to the global silicon dioxide market is expected to be low–medium.
Bargaining Power of Suppliers
The bargaining power of suppliers is estimated to be low as there is a large number of efficient suppliers in the market. Silicon dioxide finds use in a varying range of applications such as construction materials, glass & ceramics, paints & coatings, adhesives & sealants, food & pharmaceutical additives, silicon wafers, and others. The production cost of silicon dioxide for each application varies drastically, so does the final selling price. Furthermore, there are a large number of suppliers with varying size and provide varying varieties of silicon dioxide. This allows the buyers with switching choices, which increases their bargaining power. Furthermore, the switching cost for silicon dioxide is also low, which also affects the bargaining power of suppliers.
Bargaining Power of Buyers
The bargaining power of buyers is estimated to be high. This is due to a large number of buyers of silicon dioxide. The size of each consignment of silicon dioxide is generally high, which supports the buyers bargaining power. Furthermore, low switching cost, especially for low-grade silicon dioxide, also increases the buyers’ power. However, long-term contracts with suppliers hinder the switching process, and the buyers have to stick to the same supplier and agree to their terms and conditions.
Market estimates by geography (2030)
InsightAsia Pacific leads with $7048.11B by 2030.
Subscribe to Wantstats
Unlock premium reports, insights, blogs, charts and more.
View Subscription Plans| REGION | 2015 | 2017 | 2030 | CAGR | SHARE |
|---|---|---|---|---|---|
| Asia Pacific | $2545.33B | $4294.85B | $7048.11B | 7.0% | 51% |
| South America | $461.74B | $710.43B | $1075.43B | 5.8% | 8% |
| Europe | $1310.64B | $1998.38B | $3001.18B | 5.7% | 22% |
| North America | $866.54B | $1365.79B | $2111.57B | 6.1% | 15% |
| Middle East and Africa | $217.82B | $328.62B | $488.98B | 5.5% | 4% |
| Total | $5402.07B | $8698.07B | $13725.27B | 6.4% | 100% |
Subscribe to Wantstats
Unlock premium reports, insights, blogs, charts and more.
View Subscription PlansTotal Market Size
$13725.27B
| APPLICATION | REVENUE ($B) | GROWTH RATE | MARKET PENETRATION |
|---|---|---|---|
| Amorphous | $5968.72B | 6.4% | 60% |
| Quartz | $5950.56B | 6.4% | 53% |
| Cristobalite | $579.19B | 6.4% | 66% |
| Coesite | $395.87B | 6.4% | 72% |
| Tridymite | $365.94B | 6.4% | 60% |
| Keatite | $255.02B | 6.4% | 72% |
* Revenue projections based on 2025 estimates. Growth rates represent CAGR 2024–2030. Market penetration indicates current adoption rate within addressable market segments.
Subscribe to Wantstats
Unlock premium reports, insights, blogs, charts and more.
View Subscription PlansSee plans for professionals or small and medium businesses.

Analytical insights on Silicon Dioxide Market covering market dynamics, competitive landscape, and strategic outlook.
The Silicon Dioxide Market market is projected to reach $13725.27B by 2030, growing at 6.4% CAGR. The Amorphous segment holds the largest share.
The global silicon dioxide market is expected to register a remarkable CAGR of 6.60% during the forecast period, 2018–2030. Abundant availability of silicon dioxide in natural form is expected to be the key driver to the growth of the global market. The high demand for sand, that is, low-grade silicon dioxide, in the construction industry is also expected to boost the growth of the global market. Besides, the increasing use of high-purity silicon dioxide in the manufacturing of silicon wafers is expected to ensure a stable revenue source to the global market growth. Furthermore, the growth in the fiber optics market is likely to provide lucrative growth opportunities to the players operating in the global silicon dioxide market. However, the availability of low-cost substitute is expected to restrain the market growth during the forecast period. Some of the challenging factors for the producers of silicon dioxide are health hazards associated with the long-term exposure to silicon dioxide, and volatile prices of chemical aids used during the processing of silicon dioxide.
The fiber optics market is growing rapidly due to the increasing demand in applications such as telecom, cable television (CATV), sensors, and the internet (which includes Internet of Things (IoT), over-the-top content, and video streaming). Fiber optic cables transmit data more quickly, reliably, and over greater distances with less loss and are also immune to electromagnetic interference. This makes fiber optics preferable for long-range data exchanges over metal cables, such as copper-based cables.
Fiber optic cables are made of several hundred fine fibers, which comprise a transparent silica core infused with boron and germanium and surrounded by a transparent silica cladding material with a lower refractive index. High-purity silicon dioxide is used by the majority of players to make superior-quality fiber optics. China is exhibiting strong demand for fiber optics and government initiatives, such as tri-networks integration, Broadband China, 5G Construction, and Internet Plus, are providing unprecedented opportunities for the players operating in the Chinese fiber optics market.
Thus, the growing fiber optics market is expected to create lucrative opportunities for the producers of silicon dioxide during the forecast period.
Copper slag is an eco-friendly by-product of copper extraction by smelting. During smelting, impurities float on the molten metal as a slag. This slag, when quenched in water, produces angular granules, which is called as copper slag. It is the most widely accepted alternative to the natural aggregate (silica sand, crushed from natural rocks) in the construction industry for concrete applications. It is non-hazardous, non-toxic, non-leachable material, and relatively more economical than natural aggregates viz. silica, which facilitates its suitability in construction activities. Besides, it eliminates the need for recovery of sand and rocks from river beds and mountains, and thus, conserves the environment by preventing the depletion of topography. It is finding increasing operational acceptance by concrete and cement manufacturers across the world. For instance, BIS IS 383:2016 (Bureau of Indian Standards) prescribed its use as a construction material, which is boosting its demand in government road projects for the past 3 years in India. Currently, it is being employed in the Madurai–Tuticorin Industrial Corridor Project.
Thus, the availability of economical substitute is expected to restrain the growth of the global silicon dioxide market to an extent during the forecast period.
Near-term growth will likely concentrate in modular bioreactor lines and closed-system media workflows that shorten validation cycles while preserving batch traceability.
Partnerships between CDMOs and instrumentation vendors should accelerate standard datasets for comparability across sites, improving forecasting models used in capacity planning.
Longer horizon, organoid and microphysiological adoption may reshape segment mix; teams that invest early in assay interoperability and cloud QC hooks are better positioned to capture upside without fragmenting their analytics stack.
Profiles of 109 companies operating in the Silicon Dioxide Market market, including revenue, employee count, and market positioning where available.
Showing 109 of 109 companies
Aluflor AB
Company Headquarters: Helsingborg, Sweden Founded: 1973 Workforce: ~NA Company Working: Alufluor AB (Alufluor) primarily produces aluminum fluoride for aluminum smelters. It also produces calcium fluoride and silicon dioxide. It has four product lines including aluminium fluoride, aluhydrate, aluspar, and alusilica. Its products are used in various applications including optical glass, catalyst, ceramics and enamel, aluminium metal processing, and end-use industries including aluminium industry and cement industry. It sells its products in Europe and across the globe.
Gelest Inc.
Company Headquarters: Pennsylvania, US Founded: 1988 Workforce: ~NA Company Working: Gelest, Inc (Gelest) manufactures and supplies silane, silicone, organosilicon, and metal-organic compounds. It provides its products through distributors based in Japan, UK, France, Singapore, India, and China. Its products are used in a variety of applications including adhesives and sealants, ceramics, batteries and dielectric materials, biotechnology, blocking agents, catalysts, chemical vapor deposition, coatings, conductive coatings, cosmetic materials, coupling agents and composites, hydrophilic and hydrophobic materials, membrane, metallization, and microarrays.
Tokuyama Corporation
Company Headquarters: Yamaguchi, Japan Founded: 1973 Workforce: ~4,889 Company Working: Tokuyama Corporation is engaged in the production and sale of a range of chemical products in Japan and internationally. It operates through five business segments: chemicals; specialty products; cement; life & amenity; and others. The specialty products segment provides polycrystalline silicon; fumed silica and tetrachlorosilane; aluminum nitride; high-purity chemicals; and methylene chloride for metal cleaning. It sells fumed silica, the main product of this business segment, under the brand name-‘REOLOSIL”. It spent USD 8,927.91 million on research and development in the fiscal year 2018. Among this, USD 2,211.93 million was spent on the specialty products segment.
Solvay
Company Headquarters: Brussels, Belgium Founded: 1863 Workforce: ~22,000 Company Working: Solvay is a chemicals and materials company engaged in the manufacturing and marketing of chemical and plastic products. The company operates in three business segments that are Materials, Chemicals, Solutions, and Corporate and Business Services. The material segment includes specialty polymers and composite materials businesses. The chemical segment is engaged in chemical intermediates that are used in end products with the help of various technology, applications, and industrial innovations for optimized cost, this segment includes mainly mono technology, including Peroxides, Coatis, Soda Ash, the Rusvinyl joint venture as well as Silica. The last solution segment provides various formulations and applications experts by customized specialty also. This segment includes Novecare, Technology Solutions, Aroma, and Special Chem businesses, which operate in diverse niche markets. The company also serves various applications like aerospace, automotive, agriculture & feed, batteries, building, consumer goods, electronics, food industry, healthcare, and various other industries. The company also owns more than 200 brands few of which are Abex, acetone, actizone, aeropaste, bicar, caso, cerox, and many more.
American Elements
Company Headquarters: California, US Founded: 1997 Workforce: ~NA Company Working: American Elements is involved in the manufacturing and sale of engineered and advanced materials. It sells its products to manufacturers based in the US and internationally. It also sells the products to foreign national laboratories and universities. It manufactures a wide range of metals, compounds, and crystalline structures, which include elements other than elemental gases; macro, meso, and nanoscale powders; ultra-high purity forms of metals and compounds; complex single-phase doped structures; unique alloys and metal parts; and custom-grown single and polycrystalline crystal materials. Its products include green technology and alternative energy materials, sputtering targets, nanotechnology, rare earths, fuel cells, ultra-high purity materials, solar energy products, biomedical-grade metals and alloys, metal foams, hydrogen storage materials, and battery technology materials. The products are served across various industries including electronics, energy, defense, automotive, aerospace, optics, green technologies, and pharmaceuticals/cosmetics. Its products are promoted through a network of foreign sales offices present worldwide. It has warehouses and manufacturing locations in the US, China, Mexico, and the UK.
Evonik Industries AG
Company Headquarters: Essen, Germany Founded: 2007 Workforce: ~36,043 Company Working: Evonik Industries AG (Evonik Industries) is one of the leading producers of sodium methylate in the world. It is the largest specialty chemical company and has production sites in 28 countries across the globe. Evonik Industries operates through the following business segments—resource efficiency, nutrition & care, services, and performance materials. The company produces sodium methylate under the performance materials business segment. The company marks presence in 100 countries across Asia-Pacific, North America, Europe, and Africa. It has three major production sites in the US, Germany, and Argentina, with an annual production capacity of approximately 200 kilotons to ensure optimal deliveries of sodium methylate. The company held assets worth USD 23,952.13 million in 2018.
Powering the world's best teams.
From next-gen startups to established enterprises.
Trusted by forward-thinking businesses
for data-driven intelligence
Silicon Dioxide Market