Market Overview
Aerogel
Market is projected to achieve a value of USD 1.34 billion in 2023, with a
linear behavior in the market growth it is forecasted to achieve a value of USD
4.84 billion by 2033 with a CAGR of 16.45% during the forecast period
2024-2033.
Aerogel
is a unique and highly porous material that is often referred to as
"frozen smoke" or "blue smoke" due to its translucent
appearance. It is one of the lightest solid materials known, composed of a gel
in which the liquid component has been replaced with a gas. This results in a
substance that is extremely lightweight with remarkable thermal insulating
properties.
Aerogels
can be derived from a variety of materials, including silica, polymer, carbon,
and more. Silica aerogels are among the most common and have been widely
studied and utilized. The production of aerogels typically involves the removal
of the liquid component from a gel through a process known as supercritical
drying, leaving behind the porous structure.
Awareness
of aerogel is still low, but it is growing. Only 30% of respondents were
familiar with aerogel, but 70% were interested in learning more about it.
Consumers
are most interested in aerogel for its insulation properties. Over 80% of
respondents said they would be interested in using aerogel to improve the
insulation of their homes or businesses.
Consumers
are concerned about the cost of aerogel. Over 60% of respondents said they
would be willing to pay a premium for aerogel if it was significantly more
effective than traditional insulation materials.
Consumers
are more likely to adopt aerogel if they see it as a sustainable and
environmentally friendly product. Over 70% of respondents said they would be
more likely to purchase aerogel if it was made from recycled materials or if it
had a low carbon footprint.
This
survey possesses a lucrative potential for the overall aerogel market.
Market Scope
Report Attributes |
Description |
Market Size in 2023 |
USD
1.34 Billion |
Market Forecast in 2033 |
USD 4.84
Billion |
CAGR % 2024-2033 |
16.45% |
Base Year |
2023 |
Historic Data |
2016-2022 |
Forecast Period |
2024-2033 |
Report USP |
Production,
Consumption, company share, company heatmap, company production capacity,
growth factors and more |
Segments Covered |
Product, technology, form, end-use,
region |
Growth Drivers |
Aerogels are
utilized in the construction sector for thermal insulation in buildings. As
the construction industry continues to grow globally, there is an increased
demand for innovative and high-performance insulation materials, propelling
the aerogel market forward. The aerospace industry employs aerogels for applications such as lightweight structural components, thermal protection, and insulation in spacecraft and aircraft. The ongoing advancements in aerospace technologies contribute to the expanding use of aerogels in this sector. Aerogels are often considered environmentally friendly due to their low carbon footprint and recyclability. With a growing emphasis on sustainable and eco-friendly materials, aerogels have gained attention as a viable option in various industries. |
Regional Scope |
North America, Europe, APAC, South
America and Middle East and Africa |
Country Scope |
U.S.; Canada;
U.K.; Germany; France; Italy; Spain; Benelux; Nordic Countries; Russia;
China; India; Japan; South Korea; Australia; Indonesia; Thailand; Mexico;
Brazil; Argentina; Saudi Arabia; UAE; Egypt; South Africa; Nigeria |
Key Companies |
Aspen Aerogels, Inc.; Cabot Corporation;
Aerogel Technologies, LLC; Active Aerogels; LDA; BASF SE; JIOS Aerogel
Corporation; Nano Technology Co.; Ltd.; Dow, Inc.; Enersens |
Market Dynamics
The
exceptional thermal insulation properties of aerogels make them attractive for
applications in the construction, oil and gas, and aerospace industries. The
growing demand for efficient thermal insulation in these sectors has been a
significant driver for the aerogel market.
Increased
emphasis on energy efficiency and sustainable building practices has driven the
demand for advanced insulation materials, including aerogels. They contribute
to energy conservation by reducing the need for heating and cooling in
buildings and industrial processes.
Aerogels
are utilized in the aerospace and defense sectors due to their lightweight
nature and thermal insulation properties. They find applications in spacecraft,
satellites, and protective clothing, contributing to the growth of the aerogel
market.
In
the oil and gas industry, aerogels are used for thermal insulation in pipelines
and equipment. As the global demand for oil and gas continues, the need for
efficient insulation materials in this sector is expected to drive the aerogel
market.
Ongoing
research and development efforts to improve the properties of aerogels, such as
flexibility, durability, and cost-effectiveness, contribute to market growth.
Technological advancements make aerogels more applicable to a broader range of
industries and applications.
The
eco-friendly and recyclable nature of aerogels aligns with the increasing
global focus on sustainability. Industries seeking environmentally friendly
solutions have shown interest in aerogels as a green alternative in various
applications.
The
construction industry's expansion, particularly in emerging economies, has
driven the demand for advanced building materials. Aerogels, with their
lightweight and insulating properties, are increasingly used in construction
applications, such as insulation in walls and roofs.
Aerogels
find applications in the electronics and automotive industries due to their low
dielectric constant and lightweight characteristics. They are used in
electronics for insulation purposes and in automotive components to reduce
weight and improve fuel efficiency.
The
medical and consumer goods sectors are exploring the use of aerogels in
applications such as drug delivery systems, wound dressings, and lightweight
consumer products. These emerging applications contribute to the growth of the
aerogel market.
Continued
investment in research and development activities by companies and institutions
to explore new applications, enhance aerogel properties, and optimize
manufacturing processes contributes to aerogel market expansion.
The
production of aerogels involves sophisticated and energy-intensive processes,
including supercritical drying. These processes contribute to high production
costs, making aerogels relatively expensive compared to traditional insulation materials.
Product Analysis
Silica
aerogel is the most common type of aerogel, accounting for over 65% of the
global aerogel market. It is made from silicon dioxide, a natural material
found in sand. Silica aerogel is known for its excellent insulation properties,
high strength, and low weight. It is used in a wide range of applications,
including insulation for buildings, packaging materials, and personal care
products.
Polymer
aerogel is made from synthetic polymers, such as polystyrene or polyurethane.
It is less common than silica aerogel, but it is becoming increasingly popular
due to its ease of processing and wide range of properties. Polymer aerogel can
be tailored to have specific properties, such as high flammability resistance
or low thermal conductivity. It is used in a variety of applications, including
automotive components, aerospace structures, and medical devices.
Carbon
aerogel is made from carbon fibers or nanoparticles. It is the most expensive
type of aerogel, but it also has the best properties. Carbon aerogel is
extremely strong, lightweight, and has excellent electrical conductivity. It is
used in a variety of high-performance applications, such as batteries, fuel
cells, and supercapacitors.
Technology Analysis
Supercritical
drying is the most common method of producing aerogel, accounting for over 73%
of the global aerogel market. This method involves using a supercritical fluid,
such as carbon dioxide, to dissolve a material and then slowly remove the
fluid, leaving behind a porous aerogel structure. Supercritical drying is a
relatively expensive process, but it produces aerogels with excellent
properties.
There
are a number of other drying methods that can be used to produce aerogel,
including ambient pressure drying, freeze drying, and sol-gel drying. These
methods are generally less expensive than supercritical drying, but they can
produce aerogels with lower properties.
Form Analysis
Blanket
aerogel is a flexible, sheet-like form of aerogel. It is made by drying a gel
in a thin layer. Blanket aerogel is the most common form of aerogel, accounting
for over 55% of the global aerogel market. It is used in a wide range of
applications, including insulation for buildings, packaging materials, and
personal care products.
Particle
aerogel is a granular form of aerogel. It is made by drying a gel into small
particles. Particle aerogel is less common than blanket aerogel, but it is
becoming increasingly popular due to its ease of use and ability to be filled
into tight spaces. It is used in a variety of applications, including
insulation for buildings, packaging materials, and drug delivery systems.
Panel
aerogel is a rigid, board-like form of aerogel. It is made by drying a gel in a
mold. Panel aerogel is the least common form of aerogel, but it is becoming
increasingly popular due to its high strength and stiffness. It is used in a
variety of applications, including insulation for buildings, structural
components, and fire protection materials.
Monolith
aerogel is a solid, block-like form of aerogel. It is made by drying a gel in a
mold. Monolith aerogel is the most expensive form of aerogel, but it also has
the best properties. It is extremely strong, lightweight, and has excellent
thermal conductivity. It is used in a variety of high-performance applications,
such as batteries, fuel cells, and supercapacitors.
End-Use Analysis
The
oil & gas industry is the largest end-use market for aerogel, accounting
for over 40% of the global aerogel market. Aerogel is used in a variety of
applications in the oil & gas industry, including insulation for pipelines,
valves, and storage tanks. It is also used in fire protection materials and oil
spill cleanup products.
The
building & construction industry is the second-largest end-use market for
aerogel, accounting for over 28% of the global market. Aerogel is used in a
variety of applications in the building & construction industry, including
insulation for walls, roofs, and attics. It is also used in windows, doors, and
seals.
The
automotive industry is the third-largest end-use market for aerogel, accounting
for over 15% of the global aerogel market. Aerogel is used in a variety of
applications in the automotive industry, including insulation for engine
compartments, exhaust systems, and battery packs. It is also used in
soundproofing materials and vibration dampers.
The
aerospace & marine industry is the fourth-largest end-use for aerogel
market, accounting for over 10% of the global market. Aerogel is used in a
variety of applications in the aerospace & marine industry, including
insulation for aircraft and spacecraft, cryogenic storage tanks, and thermal
protection systems. It is also used in batteries, fuel cells, and
supercapacitors.
Regional Analysis
North
America is the largest market for aerogel, accounting for over 45% of the
global aerogel market. This is due to a number of factors, including the
region's strong demand for energy-efficient materials, its well-developed
aerospace and automotive industries, and its growing adoption of aerogel in the
building & construction industry.
Europe
is the second-largest market for aerogel, accounting for over 32% of the global
market. This is due to a number of factors, including the region's strong
environmental regulations, its focus on sustainability, and its growing
adoption of aerogel in the oil & gas industry.
Asia
Pacific is the fastest-growing market for aerogel, accounting for over 18% of
the global aerogel market. This is due to a number of factors, including the
region's rapid economic growth, its increasing demand for energy-efficient
materials, and its growing adoption of aerogel in a variety of industries,
including automotive, aerospace & marine, and electronics.
Competitive Analysis
Aspen
Aerogels is the largest aerogel company in the world, with a market share of
25%. The company is a leading producer of silica aerogel, which is used in a
wide range of applications, including insulation for buildings, packaging
materials, and personal care products.
BASF
SE is the second-largest aerogel company in the world, with a market share of
20%. The company is a leading producer of polymer aerogel, which is used in a
variety of applications, including insulation for automotive components,
aerospace structures, and medical devices.
Cabot
Corporation is the third-largest aerogel company in the world, with a market
share of 15%. The company is a leading producer of carbon aerogel, which is
used in a variety of high-performance applications, such as batteries, fuel
cells, and supercapacitors.
Research Report Following Segments:
By Product
·       Â
Silica
·       Â
Polymers
·       Â
Carbon
·       Â
Others
By Technology
·       Â
Supercritical Drying
·       Â
Others
By Form
·       Â
Blanket
·       Â
Particle
·       Â
Panel
·       Â
Monolith
By End-Use
·       Â
Oil & Gas
·       Â
Building &
Construction
·       Â
Automotive, Aerospace
& Marine
·       Â
Performance Coatings
·       Â
Others
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Global Aerogel market was valued at USD 1.34 Billion in 2023 and is estimated to reach value of 4.84 Billion by 2033.
India, china, South Korea, Japan and France, are the fastest growing countries within the global market.
Aspen Aerogels, Inc.; Cabot Corporation; Aerogel Technologies, LLC; Active Aerogels; LDA; BASF SE; JIOS Aerogel Corporation; Nano Technology Co.; Ltd.; Dow, Inc.; and Enersens are some of the major companies in the market.
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