Market Overview
Global
Mycelium
Brick Market was
valued at USD 1.18 Billion in 2024 and is expected to reach USD 1.85 Billion by
2030 with a CAGR of 7.59% during the forecast period.
The global
Mycelium Brick Market is gaining rapid traction as sustainable construction
practices continue to reshape the building materials industry. Mycelium, the
root-like structure of fungi, is being increasingly explored for its ability to
produce biodegradable, lightweight, and insulating bricks that offer a
compelling alternative to conventional materials such as concrete, plastic, and
foam. As environmental concerns and carbon reduction commitments rise,
developers, architects, and governments are turning to eco-innovative materials
like mycelium composites to reduce construction-related emissions and promote
circular economies. The market is driven by key advantages of mycelium bricks,
including their fire resistance, thermal insulation properties, lightweight
composition, and ability to be grown from agricultural and organic waste, thus
significantly lowering raw material costs and carbon footprint.
Technological
advancements and growing research and development investments are accelerating
product innovation in this space. Leading companies such as Ecovative Design,
Mogu S.r.l., MycoWorks, and Biohm are pioneering the development of durable,
mold-resistant, and structurally stable mycelium bricks suited for a range of
applications in residential and commercial construction. These materials are
also being used in interior architecture, modular structures, acoustic panels,
and even temporary art installations. A growing number of startups and research
labs are entering the market, attracted by the scalability potential of
low-energy, low-cost biofabrication techniques. Moreover, government support in
the form of green building certifications, carbon offset incentives, and
sustainability mandates is creating a favorable regulatory landscape,
particularly in North America and Europe.
Key Market Drivers
Reduced Environmental
Impact
Mycelium bricks offer a
significantly lower environmental footprint compared to conventional building
materials, making them attractive for sustainable construction practices. The
production of mycelium-based materials requires only about 7.7 MJ of energy per
kilogram, compared to approximately 83.5 MJ/kg for synthetic insulation
products—reflecting a more than 90% reduction in energy consumption. The carbon
emissions associated with their production are also considerably lower,
emitting just 0.37 kg CO₂ per kg, which is about 45%
less than petroleum-based alternatives. When used as insulation in walls, these
materials can reduce a building’s operational greenhouse gas emissions by 72–73%
annually. In construction envelopes, mycelium bricks contribute up to 89% of
total thermal resistance in masonry systems and 91% in timber-frame systems,
underscoring their efficiency. Additionally, scaling production from laboratory
to industry level can reduce overall environmental impact by another 68%,
strengthening the market's drive toward decarbonization and eco-certification
alignment.
High Thermal and Acoustic
Insulation Performance
Mycelium bricks provide strong
thermal and acoustic insulation, which is essential for energy-efficient
buildings. When applied at an 8 cm thickness, they can reduce heating energy
use by 87.4% in winter and cooling loads by 55.9% in summer. By optimizing
thickness, total HVAC-related energy savings can reach up to 93%, depending on
the climate zone. In walls, they can reduce yearly CO₂
emissions by as much as 72%. Thermal conductivity is significantly lower than
many traditional materials; adding 15% mycelium to composites reduces
conductivity from 0.77 W/m·K to 0.29 W/m·K, achieving a 62% reduction. On the
acoustic side, these materials can absorb 70–75% of frequencies under 1500 Hz,
making them well-suited for commercial and residential applications requiring
sound control. Their dual-function as a thermal and acoustic insulator makes
mycelium bricks especially valuable in urban green building designs.
Cost-Efficiency and
Lightweight Benefits
Mycelium bricks utilize
low-cost inputs, primarily agricultural residues like straw, coir, or sawdust,
which can reduce raw material costs by up to 90% compared to conventional
construction materials. Energy demand during production is extremely low—just 7.7
MJ/kg, compared to synthetic materials requiring tenfold energy input. Mycelium
bricks are lightweight, often 50–60% lighter than concrete or fired-clay
bricks, lowering transport and labor costs. Their production process consumes 40%
less electricity and 90% less water than conventional materials such as
polystyrene, contributing to long-term operational cost savings. Production
cycles are also shorter, with full brick growth and curing possible in 5–7 days,
accelerating project timelines. These economic advantages make mycelium bricks
especially attractive for affordable housing, modular buildings, and
prefabricated architecture where material efficiency and speed are critical.
Regulatory Support and
Green Building Policies
Global policy shifts are
increasingly supporting bio-based construction materials such as mycelium
bricks. Green building codes now emphasize energy efficiency and low-embodied
carbon, where mycelium excels. In building walls, insulation typically
contributes to 89–91% of thermal resistance, making it a primary focus of
energy regulations. Policy-driven goals to reduce embodied carbon are pushing
for 20–25% substitution of conventional materials with renewable alternatives. Mycelium-based
products can also meet fire safety standards and sound insulation requirements,
with performance ratings showing up to 75% sound absorption at 1000 Hz and
achieving moderate fire resistance classifications. In regions with active
green certification programs, such as LEED or BREEAM, builders are increasingly
adopting mycelium products to earn sustainability credits. As governments
commit to net-zero targets and mandate carbon reductions in construction, the
role of fungal-based composites in meeting compliance goals is expanding
rapidly.
Design Flexibility and
Modular Innovation
The versatility of mycelium
bricks is a strong driver for architects and builders aiming for custom,
modular, or artistic structures. Mycelium can be grown into any moldable shape,
eliminating the need for post-processing and enabling seamless integration into
customized designs. Brick formation takes just 5 to 7 days, significantly
faster than traditional materials that require energy-intensive firing or
curing. Mycelium was successfully used in a large-scale architectural project
featuring 10,000 biodegradable blocks in a 40-foot tall tower, showcasing its
potential in structural applications. The material’s lightweight
nature—often 30–50% lighter than conventional bricks—facilitates easy handling,
stacking, and transport. Its acoustic absorption rate of 70–75% for mid-range
frequencies supports its use in interior design and sound-sensitive
environments. Additionally, its fire-resistance and anti-fungal properties
allow it to meet safety standards for indoor use. These benefits are propelling
its use in prefab architecture, exhibition pavilions, green office designs, and
even luxury eco-resorts.
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Key
Market Challenges
Limited
Structural Strength for Load-Bearing Applications
One of the most critical
challenges faced by the global Mycelium Brick Market is its limited structural
strength, which restricts its use to non-load-bearing applications. Mycelium
bricks are lightweight and eco-friendly but lack the compressive strength
typically required for load-bearing walls or foundations. While traditional
fired clay bricks or concrete blocks can withstand pressures exceeding 10–20
MPa, mycelium bricks usually exhibit compressive strength in the range of 0.2–1
MPa depending on composition and fabrication. This limitation makes them
unsuitable for structural elements in high-rise or seismic-prone constructions.
This challenge
significantly narrows the customer base to niche segments such as interior
walls, decorative panels, acoustic insulation, and temporary architecture.
Builders and contractors tend to be cautious with new materials, and the
absence of well-established building codes that accept mycelium bricks as
structural components exacerbates the problem. Additionally, insurance
companies and regulators often require proven mechanical properties for
approval in residential and commercial construction.
While R&D is ongoing to
reinforce mycelium with natural fibers or bio-binders to improve its strength,
current solutions remain costly or lack scalability. As a result, widespread
adoption of mycelium bricks for structural purposes remains constrained, which
limits revenue growth and investment appeal in mainstream construction. Unless
major breakthroughs are achieved, this challenge will continue to impede full
integration of mycelium materials into the broader construction materials
market.
Short
Shelf Life and Storage Sensitivity
Mycelium bricks, being
biological and biodegradable, are naturally prone to decomposition if not
properly dried, sealed, and stored. This characteristic, while beneficial for
eco-friendly disposal, creates challenges related to shelf life and storage, particularly
in humid or tropical climates. Exposure to moisture or poor ventilation can
lead to premature fungal regrowth, mold formation, or weakening of the brick’s
internal structure.
Manufacturers often need to
subject mycelium bricks to heat treatment or dehydration to prevent microbial
activity. However, these additional steps raise production costs and energy
usage, partially offsetting the material’s sustainability advantage. Moreover,
the lack of standardized post-treatment techniques across manufacturers creates
quality inconsistency in the final product.
In distribution and
warehousing, special care must be taken to maintain dry, cool conditions,
adding to logistical expenses. Extended shelf life is critical for global
shipping, especially for export-focused companies. In the absence of
well-established cold chain logistics for construction materials, retailers may
hesitate to stock mycelium bricks, fearing product degradation or return
complaints.
This fragility also affects
large-scale procurement for infrastructure or institutional projects, where
material delivery must align with phased construction schedules. The fear of
spoilage or brittleness over time often leads to lower adoption in public
tenders. Until significant improvements are made in preservation technologies
or on-site growing techniques, the issue of limited shelf life will continue to
be a major hurdle for market scalability and reliability.
Lack of
Regulatory Standardization
The global Mycelium Brick
Market faces a significant challenge due to the absence of comprehensive and
universally accepted regulatory standards. Most countries lack specific
building codes or safety certifications tailored to bio-fabricated construction
materials like mycelium. As a result, approval for construction projects using
these materials often becomes complex, time-consuming, and expensive.
Without clear testing
protocols for fire resistance, structural integrity, and long-term durability,
many government bodies hesitate to include mycelium bricks in public
infrastructure projects. The same uncertainty affects architects and
contractors, who prefer working with code-compliant, pre-certified materials.
The inconsistent or nonexistent regulatory framework makes it difficult for
startups and manufacturers to scale operations across borders.
In addition, insurance
companies are reluctant to underwrite properties made with materials not backed
by proven performance data. This lack of confidence further slows adoption.
While some countries have begun promoting green materials, most certifications—like
LEED or BREEAM—offer only indirect support and don’t specifically include
mycelium-based products under recognized categories.
To address this, industry
coalitions or standard-setting bodies must collaborate to develop technical
specifications, quality benchmarks, and durability indices. Until such
protocols are implemented, the absence of regulation will continue to create
uncertainty, limit procurement opportunities, and dampen investor interest in
mycelium brick enterprises—especially in more risk-averse markets such as North
America and the Middle East.
High
Production Costs and Limited Economies of Scale
Despite their environmental
benefits, mycelium bricks remain more expensive than conventional construction
materials due to high production costs and limited industrial-scale
manufacturing. Currently, most mycelium bricks are produced in small batches or
pilot facilities, which drives up labor and energy costs per unit.
Additionally, the time-intensive growing process (typically 5–10 days per
brick) reduces throughput compared to conventional kilning or extrusion methods
used in clay and concrete manufacturing.
The lack of automated
bio-fabrication infrastructure further limits production efficiency. Processes
like sterilization of substrates, growth environment control, and
post-processing treatments require manual handling or specialized equipment.
While such precision is necessary to maintain quality and consistency, it adds
to capital and operational expenditure, making the end product less competitive
in price-sensitive markets.
Furthermore, the supply
chain for key components—such as high-quality fungal strains, sterilized
agricultural residues, or custom molds—is still in its infancy. This increases
input costs and makes it difficult to achieve volume discounts. As a result, the
final price of a mycelium brick can be 30–100% higher than that of traditional
bricks, depending on geography and application.
Unless scalable
bio-manufacturing technologies or decentralized production hubs are developed,
it will remain difficult for producers to reduce cost per unit. This pricing
disadvantage hinders adoption, especially in regions where affordability is a
primary concern, such as affordable housing or rural construction markets.
Limited
Awareness and Skilled Workforce
Awareness of mycelium
bricks and their applications remains low outside of academic circles and
eco-conscious design firms. The broader construction industry—especially in
developing countries—has limited exposure to bio-based materials. Most civil
engineers, architects, and contractors are trained to work with concrete,
steel, or wood, and lack familiarity with mycelium’s unique handling, curing,
and design characteristics.
The knowledge gap is
compounded by a shortage of skilled workers who understand how to grow, mold,
and preserve mycelium composites. Unlike traditional materials that rely on
mechanical mixing and shaping, mycelium requires biological nurturing in controlled
environments. Mistakes during cultivation can lead to incomplete colonization,
weak structures, or contamination.
This shortage of skilled
talent increases labor costs and reduces the likelihood of consistent product
quality. Construction firms also hesitate to train workers for a niche product
that hasn’t yet achieved mainstream status. As a result, deployment is limited
to experimental projects or custom installations, rather than standardized
workflows.
The challenge is further
amplified in emerging markets, where vocational training and R&D support
for green construction materials are lacking. Without institutional support for
curriculum development or awareness campaigns, the industry may struggle to
build a talent pipeline capable of supporting large-scale mycelium brick
deployment.
Key
Market Trends
Integration into Green
Building Certifications and ESG Goals
As global investors and developers
increasingly align with Environmental, Social, and Governance (ESG) frameworks,
there is a growing demand for materials that actively reduce environmental
impact. Mycelium bricks, being compostable, low-emission, and produced from
agricultural waste, are gaining traction among companies seeking green building
certifications such as LEED, BREEAM, WELL, and Living Building Challenge.
These certifications often
reward the use of renewable, low-carbon, and non-toxic materials in
construction projects. While mycelium bricks are still emerging, their
potential to replace chemically intensive insulation panels or synthetic
acoustic tiles makes them attractive in projects aiming for higher
sustainability scores. Architects and designers are beginning to specify
mycelium-based panels and bricks in projects targeting platinum or gold
ratings, even if only for interior cladding, ceiling panels, or decorative
partitions.
Moreover, ESG-conscious
investors are actively seeking supply chains that demonstrate biodiversity
preservation, waste valorization, and minimal carbon output. Mycelium brick
manufacturing—if scaled responsibly—checks all these boxes, making it attractive
for venture capital firms, green infrastructure funds, and public procurement
agencies.
Many companies are also
including material traceability and life cycle analysis (LCA) as part of their
procurement mandates. Mycelium bricks, grown with full transparency and minimal
emissions, enable easier compliance with such corporate standards. This is
accelerating experimentation in corporate campuses, educational institutions,
and municipal buildings.
In summary, the rise of ESG
and sustainability-led investment strategies is pushing companies to adopt
biogenic materials like mycelium bricks—not just for environmental compliance
but as a branding and market positioning tool. This trend is expected to fuel
demand in sectors where sustainability is becoming non-negotiable.
Growing Demand in Interior
and Temporary Architecture Segments
Due to their lightweight
nature, customizability, and biodegradability, mycelium bricks are finding
strong demand in niche architectural segments such as interior applications,
temporary structures, pop-up installations, and event-based constructions.
Designers are drawn to their natural aesthetic, organic textures, and
insulation properties, which make them highly suitable for creative interior
designs and wellness-oriented spaces.
In museums, exhibition
halls, and corporate events, where temporary installations need to be visually
engaging yet sustainable, mycelium bricks offer a compelling alternative to
foam, plastics, or MDF panels. They can be grown into specific shapes or combined
with bio-resins for added strength, allowing for stunning, biodegradable
displays that leave no waste footprint post-event.
In residential
construction, mycelium bricks are being used for feature walls, acoustic
ceiling panels, decorative room dividers, and indoor planters. These
applications require lower structural strength but high visual impact—areas
where mycelium thrives. Their ability to be molded into intricate forms enables
architects to push the boundaries of traditional materials and deliver unique,
earthy interiors aligned with biophilic design trends.
Additionally, educational
institutions and experimental housing projects are using mycelium for modular
classrooms, disaster shelters, or emergency housing units that can be deployed
quickly and decomposed safely. Their low weight also makes transportation
cost-effective, especially in off-grid or remote locations.
This shift from structural
to aesthetic or short-duration applications is helping mycelium bricks carve
out a viable market niche, offering proof-of-concept that could later expand
into more permanent building uses. As more designers and clients prioritize
sustainability and flexibility, demand in these segments is expected to rise
steadily.
Technological Innovations
in Mycelium Growth and Composite Engineering
Rapid advancements in biotechnology
and materials engineering are transforming the mycelium brick market. Startups
and research labs are developing enhanced mycelium composites by combining
fungal growth with fibers like hemp, flax, jute, or biochar, thereby improving
mechanical strength, water resistance, and insulation performance. These
innovations are addressing some of the historical limitations of the material.
Controlled environment
agriculture (CEA) techniques are also being applied to optimize fungal growth
conditions—automating temperature, humidity, and light exposure to ensure
faster colonization and consistency. AI-driven monitoring systems are being tested
to reduce human intervention and enable precision growth cycles, which can lead
to scale efficiencies.
On the materials side,
hybrid mycelium formulations—where mycelium is fused with natural polymers or
reinforced with nanocellulose—are emerging. These composites not only boost
physical performance but also expand the range of applications, from structural
panels to waterproof cladding. The possibility of tuning mycelium’s properties
based on end use is opening doors to customizable building components.
3D-printing with mycelium
paste or pre-formed mycelium molds is another breakthrough being explored.
These techniques allow designers to achieve intricate forms and reduce waste,
with implications for modular construction and prefabricated eco-homes.
These innovations are also
making it easier for manufacturers to secure funding and partnerships with
universities, venture capital firms, and green building companies. As R&D
matures, the cost-performance ratio of mycelium bricks is expected to improve,
accelerating their commercialization across both developed and developing
markets.
Increased Use in
Carbon-Neutral and Off-Grid Housing Projects
The global push toward carbon-neutral
housing and off-grid living is boosting interest in alternative construction
materials like mycelium bricks. These projects often prioritize low-energy
manufacturing, locally sourced inputs, and minimal environmental
footprint—criteria that mycelium bricks naturally fulfill.
Builders focused on
net-zero energy buildings are seeking alternatives to carbon-intensive
materials like concrete, steel, and glass. Mycelium bricks, grown using
agricultural waste and minimal energy, offer a practical solution. They not
only store carbon during growth but also require no mining, kilning, or
chemical treatment, making them ideal for carbon-neutral architecture.
Off-grid housing
developers—particularly in eco-resorts, sustainable tourism, or rural
revitalization initiatives—are increasingly experimenting with biodegradable
and renewable construction modules. Mycelium bricks can be locally cultivated
using farming residues, making them suitable for regions with limited access to
industrial infrastructure.
In some cases, communities
are even using on-site mycelium growth systems, where bricks are cultivated at
the building site using locally available substrates and spore cultures. This
decentralization reduces logistics costs and fosters community ownership of the
construction process.
Moreover, the bricks’
thermal and acoustic insulation capabilities are ideal for structures in both
temperate and hot climates. Their breathability and low toxicity align with
wellness design standards, enhancing indoor air quality.
This trend is particularly
strong in Europe, Southeast Asia, and parts of Latin America where eco-tourism,
green housing policies, and sustainable community development are on the rise.
As awareness and cost-efficiency improve, mycelium bricks could become a
cornerstone material for the next generation of regenerative, circular, and
resilient housing models.
Segmental
Insights
Product Type Insights
Pure mycelium
bricks segment dominates in the Global Mycelium Brick market in 2024 primarily
driven by its sustainability profile, lightweight nature, and increasing demand
for biodegradable construction materials. Unlike composite versions that mix
mycelium with other fibers or substrates, pure mycelium bricks are composed
almost entirely of fungal mycelium grown on organic waste, ensuring they are
100% biodegradable and free of synthetic binders. This characteristic has
positioned them as the material of choice for green-certified buildings,
temporary structures, and low-impact housing models.
One of the
primary factors boosting demand is the growing adoption of circular
construction and bio-fabrication models, particularly in Europe and North
America, where government policies strongly support eco-friendly building
materials. Pure mycelium bricks typically have a density of around 200–300
kg/m³, making them five to seven times lighter than traditional clay or
concrete bricks, easing transportation and installation. Moreover, their excellent
thermal and acoustic insulation properties make them attractive in
energy-efficient architecture.
Architectural
applications such as modular pavilions, art installations, and temporary
housing are increasingly choosing pure mycelium due to its 5–7 day rapid growth
cycle, low embodied energy, and post-use compostability. In comparison to
composites, which often require additional processing or chemical treatments,
pure mycelium bricks maintain their structural and ecological integrity with
minimal external intervention.
Furthermore,
technological improvements in controlled-environment cultivation have enhanced
the mechanical stability and uniformity of pure bricks, allowing them to meet
performance benchmarks for non-load-bearing walls, insulation panels, and green
facades. In 2024, increased awareness and pilot projects—particularly in
university-led sustainability initiatives and architecture expos—helped elevate
this segment’s visibility and scalability, cementing its leadership position in
the market.
Form Insights
Bricks &
Blocks segment dominated the Global Mycelium Brick market in 2024 due to its adaptability to
conventional construction formats. Builders and designers are increasingly
using standardized mycelium bricks and blocks for partition walls, cladding,
acoustic barriers, and thermal insulation layers. Their modularity and
compatibility with traditional masonry techniques accelerated adoption across
residential, commercial, and institutional projects. Additionally, their lightweight
structure, fast growth time, and ease of transport made them ideal for
prefabrication and sustainable architecture prototypes. The segment benefited
from significant use in green-certified buildings and temporary structures,
pushing demand higher than panels and custom forms.
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Regional
Insights
Largest Region
North America dominates the Global Mycelium Brick
market in 2024 propelled
by strong environmental regulations, rising sustainable construction demand,
and a flourishing biodesign ecosystem. The United States and Canada have
witnessed a surge in pilot projects integrating mycelium-based building
materials, particularly in sectors like modular housing, disaster-relief
shelters, and public installations. Government initiatives such as LEED
(Leadership in Energy and Environmental Design) and California’s low-carbon
construction mandates have accelerated the adoption of low-impact materials
like mycelium bricks.
A robust R&D
infrastructure—anchored by institutions such as MIT, Stanford, and the
University of British Columbia—has played a pivotal role in optimizing mycelium
growth conditions, developing novel formulations, and scaling production
systems. In 2024, many North American startups commercialized pure mycelium and
hybrid bricks, with consistent funding from sustainability-focused venture
capital firms. The average production time per mycelium unit has decreased to
under 10 days in well-optimized U.S. facilities, increasing output volumes
significantly.
The region also
benefits from high public awareness of eco-conscious living and circular
economies. Green building certifications, which are mandatory for several
public projects, emphasize VOC-free, biodegradable, and low-embodied-energy
materials—all strengths of mycelium bricks. Furthermore, local governments
across California, Oregon, and New York have funded trials to integrate
mycelium-based construction materials into municipal housing and civic
infrastructure.
In terms of
applications, North America saw a rise in mycelium bricks being used for sound-insulating
office partitions, temporary disaster shelters, mobile construction units, and
artistic installations. A growing network of myco-material manufacturers and
waste biomass suppliers also supports a well-integrated local value chain,
keeping production sustainable and cost-competitive. Overall, North America’s
mix of policy support, innovation leadership, and early consumer acceptance has
solidified its dominance in the global mycelium brick market.
Emerging Region
Europe is the emerging region in the Global Mycelium
Brick market in the coming period due to its aggressive climate policies, focus on circular
economy principles, and public-private support for bio-based construction. EU
regulations now encourage carbon-neutral materials, with countries like the
Netherlands, Germany, and Denmark hosting major mycelium R&D pilots and
live architecture installations. Academic institutions and green architecture
firms collaborate to build low-emission homes and modular structures using
mycelium bricks. Additionally, Europe’s rising urban sustainability goals and EU
Bioeconomy Strategy are pushing the adoption of alternatives to cement and
traditional bricks, positioning the region for substantial market expansion in
the coming years.
Recent
Developments
- In July 2024, the Haryana
government's decision to permit construction up to stilt plus four floors in
residential sectors is expected to stimulate housing demand in Gurgaon and
mitigate rising property prices, according to experts. This reversal, following
last year's prohibition on constructing fourth floors, is anticipated to open
avenues for both homebuyers and developers. It will bolster supply in
sought-after locations such as Gurgaon, thereby fostering a favorable
environment for the real estate market and prospective homeowners alike.
- In November
2024, Emaar India had invested approximately USD 116 million to construct
a new luxury housing project in Gurugram, driven by strong demand for premium
residential properties. The company had launched the 'Amaris' project in
Sector 62 along the Golf Course Extension Road in Gurugram. The project aimed
to develop 522 apartments across a 6.2-acre site, with a total development
potential of 15 lakh square feet. The estimated total revenue potential from
the project was around USD 291 million.
- In October 2024, KBC
Global Ltd, a key player in construction and real estate, had announced the
commencement of a new project in Deolali, Nashik. Located at Survey No.
87/2/2B, Plot No. 4, on Jai Bhavani Road, the project spanned over a 31,998 sq.
ft. area and included both residential and commercial spaces. With six
commercial units and twenty-two residential units, this project reinforced KBC
Global's commitment to supporting the local community through thoughtfully
planned infrastructure.
- In November 2024, NBCC
(India) Ltd, the government of India’s construction company, had sought to take
on the role of a developer and expand its presence in the real estate sector.
The company aimed to undertake the redevelopment of state projects and
distressed assets with the goal of more than doubling its revenue to USD 2911
million over the next five years.
Key
Market Players
- Ecovative Design
- Mogu S.r.l.
- MycoWorks
- Biohm
- GROWN bio
- Mycotech
- Biomyc Ltd
- Mushroom Material LLC
- Mycelia NV / BVBA
- Mushlabs GmbH
|
By Product Type
|
By Form
|
By Application
|
By Region
|
- Pure
mycelium bricks
- Mycelium
agricultural waste composites
- Mycelium
wood waste composites
- Others
|
- Bricks &
Blocks
- Panels &
Boards
- Insulation
Materials
- 3D printed
or custom forms
- Others
|
- Residential
- Commercial
- Institutional
& Public Buildings
- Others
|
- North
America
- Europe
- South
America
- Middle East
& Africa
- Asia Pacific
|
Report Scope:
In this report, the Global Mycelium Brick Market
has been segmented into the following categories, in addition to the industry
trends which have also been detailed below:
- Mycelium Brick Market, By Product
Type:
o Pure mycelium bricks
o Mycelium agricultural waste composites
o Mycelium wood waste composites
o Others
- Mycelium Brick Market, By Form:
o Bricks & Blocks
o Panels & Boards
o Insulation Materials
o 3D printed or custom forms
o Others
- Mycelium Brick Market, By Application:
o Residential
o Commercial
o Institutional & Public Buildings
o Others
- Mycelium Brick Market, By
Region:
o North America
§
United
States
§
Canada
§
Mexico
o Europe
§
Germany
§
France
§
United
Kingdom
§
Italy
§
Spain
o South America
§
Brazil
§
Argentina
§
Colombia
o Asia-Pacific
§
China
§
India
§
Japan
§
South
Korea
§
Australia
o Middle East & Africa
§
Saudi
Arabia
§
UAE
§
South
Africa
Competitive Landscape
Company Profiles: Detailed analysis of the major companies
present in the Global Mycelium Brick Market.
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