Healthcare // Analytical & Scientific Instrumentation
The global Biological Safety Cabinet market
is foreseen to grow by 8.6%, from USD 261.32 Million in 2022 to USD 505.60
Million in 2030 favorable regulations, increased risk of pandemics and
communicable diseases, increasing number of R&D activities in
pharmaceutical and biopharmaceutical companies is to drive the market for the
upcoming forecast period. However, alternative containment cabinets, high cost
of biological safety cabinets remains one factor hindering the market growth
over the anticipated period.
Market Definition
What Is Biological Safety Cabinet?
Market Overview
In the world of life science research and
laboratory safety, the Biological Safety Cabinet (BSC) stands as a crucial
piece of equipment. This essay explores the concept of the Biological Safety
Cabinet, its significance in protecting researchers, samples, and the
environment, and the top impacting factors and government policies that
influence its adoption.
Understanding Biological Safety Cabinet (BSC)
A Biological Safety Cabinet (BSC) is a
specialized containment device designed to provide a safe working environment
for researchers handling biological materials. It offers three primary
functions: protecting personnel from exposure to hazardous agents, safeguarding
the environment from contaminants, and preventing cross-contamination between
samples. BSCs utilize high-efficiency particulate air (HEPA) filters to create
a clean, sterile workspace, making them essential tools in biotechnology,
pharmaceutical, healthcare, and research laboratories.
The Significance of Biological Safety Cabinet
(BSC)
a. Ensuring Personnel Safety: The primary
function of BSCs is to protect researchers from exposure to biohazards. The
laminar airflow and HEPA filters within the cabinet create a containment
barrier, reducing the risk of inhalation or contact with harmful agents during
experiments.
b. Preserving Sample Integrity: BSCs maintain
the sterility and integrity of samples by preventing external contaminants from
entering the work area. This is vital in research involving delicate cell
cultures, genetic materials, and infectious agents.
c. Environmental Protection: BSCs minimize
the release of hazardous materials into the laboratory environment,
contributing to the overall safety of laboratory personnel and reducing
potential contamination risks.
Top Impacting Factors on BSC Adoption
a. Stringent Safety Regulations: Government
and industry standards, such as the Biosafety in Microbiological and Biomedical
Laboratories (BMBL) guidelines in the Designed States and the European
Biosafety Standard EN 12469, mandate the use of BSCs in laboratories handling
biological materials. Compliance with these regulations drives the adoption of
BSCs in research facilities.
b. Advancements in Technology: The continuous
advancement in BSC technology has led to the development of more efficient and
user-friendly models. Innovations such as advanced airflow systems,
touch-screen controls, and built-in safety alarms make BSCs more attractive to
researchers seeking state-of-the-art equipment.
c. Research and Development Activities: The
growth of life science research, particularly in biotechnology and
pharmaceutical industries, fuels the demand for BSCs. The need to handle
various biological materials safely and efficiently drives the adoption of
these cabinets in research institutions and laboratories.
Government Policies Promoting BSC
Implementation
a. Occupational Health and Safety
Regulations: Governments worldwide enforce occupational health and safety
regulations that emphasize the importance of laboratory safety. These
regulations often require the use of BSCs to protect researchers from exposure
to hazardous biological agents.
b. Biosafety and Biosecurity Initiatives:
Government policies aimed at enhancing biosafety and biosecurity measures in
research facilities encourage the adoption of BSCs as a crucial component of a
comprehensive safety strategy.
Dynamics of Biological Safety Cabinet Market
Drivers in Biological Safety Cabinet Market
Rising Focus on Laboratory Safety and
Biosafety Regulations: With increasing awareness about laboratory safety and
the importance of adhering to biosafety regulations, the demand for effective
containment solutions like Biological Safety Cabinets has been on the rise.
Stringent regulatory frameworks and guidelines drive laboratories to invest in
advanced biosafety equipment to prevent the potential release of hazardous
materials. The biopharmaceutical and healthcare sectors have been experiencing
robust growth. As research and development activities, along with drug
manufacturing processes, intensify, the demand for Biological Safety Cabinets
for handling potentially infectious materials, cell cultures, and biohazardous
agents also increases. Advancements in life sciences, biotechnology, and
medical research have driven an increase in research activities involving
potentially harmful biological agents. Laboratories require safe environments
for handling and manipulating such agents, boosting the demand for BSCs.
Outbreaks of emerging infectious diseases, such as the COVID-19 pandemic, have
highlighted the need for stringent biosafety measures. Laboratories and
healthcare facilities around the world have invested in BSCs to ensure the safe
handling and processing of samples and specimens. Continuous innovations in BSC
design, filtration technology, and airflow management have led to the
development of more efficient and user-friendly cabinets. These advancements
attract laboratories looking to upgrade their equipment to the latest
standards. Government investments in scientific research and healthcare
infrastructure have fueled the growth of laboratory facilities, thereby driving
the demand for Biological Safety Cabinets. The expansion of biotechnology and
genomics research involves working with sensitive biological materials. BSCs
provide a controlled environment for handling DNA, RNA, and other biomolecules.
Various global health initiatives, along with the expansion of diagnostic and
research laboratories, contribute to the demand for BSCs, as they play a
critical role in controlling contamination and protecting laboratory personnel.
Collaborations between academic institutions and industries in research and
development activities have led to an increase in laboratory setups, boosting
the demand for BSCs.
Restrictions in Biological Safety Cabinet
Market
High Initial Investment Costs: Biological
Safety Cabinets can be expensive to purchase and install, which can pose a
financial challenge for laboratories, especially smaller ones with limited
budgets. BSCs require regular maintenance and filter replacements to ensure
their proper functioning. These ongoing costs can add up over time, affecting
the overall operating budget of laboratories. Proper installation and
positioning of BSCs are critical for their perFunctionalityance. The complex
installation process may require specialized professionals and can sometimes
disrupt laboratory operations. Laboratories must adhere to strict biosafety
regulations and guidelines when using BSCs. Ensuring compliance can be
challenging, especially in regions with rapidly changing regulations or
inconsistent enforcement. BSCs are large pieces of equipment that require
dedicated space within the laboratory. This can limit the flexibility of
laboratory layout and space utilization. Proper training is essential for
personnel who use BSCs to ensure their safe and effective operation. Inadequate
training can lead to improper usage, potentially compromising safety. Despite
the containment capabilities of BSCs, there is always a risk of biological
contamination or cross-contamination if not used correctly. Proper protocols
and practices must be followed to mitigate these risks. Airflow patterns within
the laboratory environment can impact the effectiveness of BSCs. Crossdrafts,
inadequate ventilation, or disruptions in airflow can compromise containment.
Traditional BSCs consume a significant amount of energy due to their constant
airflow and filtration requirements. Energy-efficient models may be limited,
potentially increasing energy costs. Maintenance and repair of BSCs require
skilled technicians who are knowledgeable about the equipment's complexities. A
shortage of such technicians can lead to delays in servicing. Advancements in
technology can quickly make older BSC models obsolete, requiring laboratories
to invest in upgrades or replacements to maintain compliance and efficiency.
The BSC industry, like many others, can be impacted by disruptions in the
global supply chain, affecting the availability of components, materials, and
equipment.
OpportDesignies in Biological Safety Cabinet
Market
The biotechnology and pharmaceutical
industries are witnessing significant growth, leading to an increased demand
for high-quality biological safety cabinets. As these industries focus on
research and development of new drugs, vaccines, and therapies, the need for
proper containment and protection of biological materials is paramount. With
rising concerns about laboratory safety and the handling of hazardous
biological agents, regulatory bodies are enforcing stringent safety guidelines.
Biological safety cabinets that adhere to international standards, such as
NSF/ANSI 49 and EN 12469, present opportDesignies for manufacturers to cater to
the increasing demand for compliant equipment. Continuous technological
advancements in biological safety cabinets are creating opportDesignies for
innovative features such as smart control systems, remote monitoring, and
real-time data logging. These advancements appeal to laboratories looking to
improve efficiency, accuracy, and data management. The expansion of healthcare
facilities, including hospitals, clinics, and diagnostic centers, is creating a
demand for biological safety cabinets for various applications, such as sample
preparation, diagnostic testing, and pathogen research. As biosafety level
(BSL) containment requirements vary based on the type of biological materials
being handled, there is a growing need for specialized biological safety
cabinets tailored to meet specific BSL requirements. Manufacturers can seize
opportDesignies by providing cabinets that meet various BSL levels. Research
institutions, universities, and government laboratories are conducting
extensive research on infectious diseases, genetic engineering, and
biotechnology. This surge in research activities translates into a higher
demand for biological safety cabinets for safe handling and containment of
biological materials. The COVID-19 pandemic has highlighted the importance of
biosafety measures in laboratories and healthcare settings. Governments and
institutions are likely to invest more in upgrading laboratory infrastructure,
including the installation of modern and efficient biological safety cabinets.
Challenges in Biological Safety Cabinet
Market
Proper Usage and Training: One of the primary
challenges is ensuring that laboratory personnel are well-trained in the
correct usage of BSCs. Improper use or lack of training can lead to compromised
containment, increased risk of contamination, and decreased overall
effectiveness. A study published in the "American Journal of Infection
Control" found that around 60% of BSC users were not using them correctly,
highlighting the importance of training. Regular maintenance and certification
are essential to ensure that BSCs are functioning properly and providing the
required level of containment. However, compliance with maintenance schedules
can be challenging due to budget constraints and competing priorities. A survey
published in the "Journal of Occupational and Environmental Hygiene"
indicated that only 47% of BSCs were being certified annually as recommended.
Working inside a BSC for extended periods can be physically demanding and uncomfortable.
Researchers may experience fatigue, discomfort, and musculoskeletal issues. A
study published in "Applied Ergonomics" reported that BSC users often
faced ergonomic challenges, which could affect both their safety and
productivity. Achieving and maintaining proper airflow and containment within
the BSC is critical. Any disruption in airflow patterns can compromise the
containment of hazardous materials. An article in the "Journal of
Laboratory Automation" highlighted that maintaining consistent and
unidirectional airflow can be challenging, particularly in busy laboratory
environments. While BSCs are designed to prevent cross-contamination, the risk
still exists if not used correctly. A study published in the "Journal of
Clinical Microbiology" noted that improper techniques and handling of
materials can lead to cross-contamination incidents, which can compromise
experimental results and introduce false positives. BSCs consume a significant
amount of energy due to their constant airflow requirements. Finding a balance
between providing a safe environment and minimizing energy consumption can be a
challenge. According to the Centers for Disease Control and Prevention (CDC),
BSCs are among the highest energy-consuming laboratory equipment. High-quality
BSCs come with a substantial upfront cost. Additionally, the cost of ongoing
maintenance, certification, and replacement parts can add up. Laboratories,
especially those with limited budgets, may find it challenging to invest in
state-of-the-art BSCs. Laboratories often struggle with limited space, and
accommodating BSCs within the available area can be a challenge. This can lead
to suboptimal placements that may compromise the effectiveness of the BSC.
Ecosystem of Biological Safety Cabinet Market
The Class III design in biological safety
cabinets stands at the forefront of laboratory safety. Offering the highest
level of containment, these cabinets feature complete isolation through glove
ports, safeguarding researchers from hazardous agents. With an airtight,
gas-tight construction and controlled airflow, Class III cabinets ensure utmost
protection for both personnel and the environment, making them indispensable
for working with highly infectious or toxic materials in critical research
settings.
A PCR enclosure integrated within a
biological safety cabinet (BSC) plays a critical role in safeguarding sensitive
molecular biology processes. Designed for polymerase chain reaction (PCR)
procedures, this specialized enclosure ensures a contaminant-free environment,
shielding samples from external pollutants. With precise airflow control and
HEPA filtration, it guarantees the integrity of DNA amplification, facilitating
accurate and reliable results. The PCR enclosure, a vital tool in modern
laboratories, not only enhances experimental accuracy but also fosters
biosafety by preventing cross-contamination. By seamlessly combining sample
protection and ergonomic design, it empowers researchers to conduct PCR assays
with confidence and precision.
The airflow pattern within a Biological
Safety Cabinet (BSC) is a pivotal factor that influences its perFunctionalityance
and effectiveness. Two common airflow patterns are vertical and horizontal. A
vertical airflow pattern ensures that potentially contaminated air is drawn away
from the operator, safeguarding both personnel and the work being conducted. On
the other hand, a horizontal airflow pattern directs the air across the work
surface, creating a barrier against cross-contamination between samples.
Choosing the right airflow pattern depends on the nature of the work, the level
of protection required, and the specific biosafety guidelines, ensuring optimal
containment and safety in laboratory environments.
The primary containment level in a Biological
Safety Cabinet (BSC) is a crucial aspect that ensures the safety of laboratory
personnel and the environment. BSCs with primary containment are designed to
handle hazardous biological agents and prevent their release into the
surroundings. These cabinets incorporate HEPA filters to capture and retain
potentially harmful particles, offering a barrier against contamination. By
creating a controlled environment, BSCs with primary containment maintain a
secure workspace for researchers to work with pathogens and sensitive materials,
minimizing the risk of exposure and cross-contamination. This containment level
plays a vital role in maintaining biosafety standards and protecting both
researchers and the public.
Microbiological applications in Biological
Safety Cabinets (BSCs) are pivotal for conducting safe and accurate research
involving microorganisms. These specialized cabinets provide a controlled
environment that prevents the release of potentially harmful agents while
safeguarding researchers. With features such as HEPA filtration and controlled
airflow, BSCs ensure the containment of microorganisms and prevent
cross-contamination. Whether culturing, analyzing, or manipulating microbes,
BSCs offer the necessary biosafety measures to protect both laboratory
personnel and the integrity of the research. By facilitating a secure
workspace, BSCs enable scientists to advance microbiological studies with
precision and confidence.
The HEPA (High-Efficiency Particulate Air)
filter in a Biological Safety Cabinet (BSC) is a vital component that ensures a
clean and safe laboratory environment. HEPA filters capture particles as small
as 0.3 microns with a high efficiency of 99.97%, preventing the spread of
contaminants and pathogens. By maintaining an ultra-clean airflow, HEPA filters
create a barrier against cross-contamination, making them indispensable for
protecting both researchers and samples. Whether working with hazardous
materials or sensitive experiments, BSCs equipped with HEPA filters provide the
necessary containment to ensure the accuracy, reliability, and safety of
laboratory work.
Type A2 Biological Safety Cabinets (BSCs)
play a critical role in ensuring laboratory safety and environmental
protection. These cabinets provide personnel and product protection by recirculating
air through HEPA filters. With a precise airflow design, they maintain a
consistent barrier against hazardous agents, preventing their escape into the
surroundings. Type A2 BSCs are equipped with features like adjustable airflow,
alarms, and motorized front sashes, enhancing user comfort and biosafety
compliance. Their versatility and reliability make them essential for working
with biological materials that require a controlled environment. By combining
advanced technology with safety protocols, Type A2 BSCs facilitate accurate
research while prioritizing personnel well-being.
Market Segmentation
For the purpose of this report, the global biological
safety cabinet market segmented on the basis of design, functionality, airflow
pattern, containment level application, filtration type and region:
Design Outlook:
On the basis of design, the market is
segmented into class i bsc, class ii bsc, class iii bsc.
Functionality Outlook:
On the basis of functionality, the market is
segmented into cabinet enclosure bsc, clean bench bsc, pcr enclosure bsc.
Airflow Pattern Outlook:
On the basis of airflow pattern, the market
is segmented into vertical, horizontal.
Containment Level Outlook:
On the basis of containment level, the market
is segmented into primary, secondary.
Application Outlook:
On the basis of application, the market is
segmented into microbiological, chemical, animal handling.
Figure 1 Biological Safety Cabinet Market By Application (Market Size And Forecast By Value - USD Million, 2022 & 2030)
Filtration Type Outlook:
On the basis of filtration type, the market
is segmented into hepa, ulpa filter.
Regional Outlook (Revenue, USD Million; 2022 & 2030)
Regional Outlook (Revenue, USD Million; 2020-2030) |
|
North America |
U.S. |
Canada |
|
Europe |
Germany |
U.K. |
|
France |
|
Spain |
|
Italy |
|
Rest of the Europe |
|
Asia Pacific |
India |
Japan |
|
China |
|
South Korea |
|
Australia |
|
Rest of Asia-Pacific |
|
Middle East & Africa |
UAE |
Saudi Arabia |
|
South Africa |
|
Rest of Middle East &
Africa |
|
Latin America |
Brazil |
Mexico |
|
Argentina |
|
Rest of Latin America |
Europe has a well-established and mature
market for laboratory equipment, including BSCs. The region is home to numerous
research institutions, pharmaceutical companies, and academic laboratories that
drive the demand for BSCs. The emphasis on biosafety and compliance with
stringent regulations has fueled the adoption of BSCs in various applications,
such as microbiology, biotechnology, and healthcare.
North America:
North America led the market in 2019 and
accounted for 32.7% of the global market share. It is expected to retain its
leading position throughout the forecast period. Increasing incidences of
chronic diseases, quick adoption of advanced technologies, and extensive
R&D by major companies in North America contribute to the growth of the
regional market. North America, especially the United States, has a significant
market for BSCs due to its strong research and biopharmaceutical sectors. The
presence of advanced laboratories, research universities, and pharmaceutical
companies has contributed to the robust demand for BSCs. Biosafety regulations
from organizations like the Centers for Disease Control and Prevention (CDC)
drive the adoption of BSCs for safe handling of biological agents.
South America:
The adoption of BSCs in South America varies
across countries and industries. Brazil and Argentina, with their growing
healthcare and biotechnology sectors, have witnessed increasing demand for
BSCs. However, challenges related to economic conditions and varying levels of
regulatory enforcement can impact the growth of the BSC market in this region.
Africa:
Africa's BSC market has been evolving as the
region invests in healthcare infrastructure and scientific research. Countries
with emerging biopharmaceutical industries, such as South Africa, have shown
increased demand for BSCs. However, challenges related to funding,
infrastructure, and awareness about biosafety practices may impact the market
growth in some areas.
APAC (Asia-Pacific):
The APAC region has been experiencing
significant growth in the BSC market. Rising investments in research and
development, increasing healthcare spending, and the growth of
biopharmaceutical industries have contributed to the demand for BSCs. Countries
like China and India have been driving the adoption of BSCs, supported by their
expanding life sciences and biotechnology sectors. The Asia Pacific region is
expected to witness the fastest CAGR over the forecast period. This is
attributed to the rising expenditure by domestic and foreign firms, a great
pool of skilled labor, governments shift towards promoting basic research, and
entrepreneurship.
Companies Considered And Profiled In This Market Study
The players operating in the market have
undertaken several strategies related to the market in the period 2020-2022.
some of the prominent players in the Biological Safety Cabinet market include
·
THERMO FISHER
SCIENTIFIC
·
KEWAUNEE SCIENTIFIC
·
LABCONCO
·
ESCO MICRO
·
THE BAKER COMPANY
·
NUAIRE
·
GERMFREE
LABORATORIES
·
CRUMA
·
AIR SCIENCE
·
BERNER
INTERNATIONAL
·
AZBIL TELSTAR
·
LABOGENE
·
BIOLAB SCIENTIFIC
·
LAMSYSTEMS GMBH
·
FASTER S.R.L.
·
MRC LABORATORY
EQUIPMENT
·
NANBEI INSTRUMENT
LIMITED
·
THERMOLAB
·
LABMATE
·
TOPAIR SYSTEMS,
INC.
·
ALBIAN GROUP
·
THOMAS SCIENTIFIC
·
ZHEJIANG FUXIA
MEDICAL TECHNOLOGY CO., LTD.
·
STERICOX
Global Biological Safety Cabinet Market Report Scope
Historical data |
2020 - 2022 |
Base year for estimation |
2022 |
Forecast period |
2023 - 2030 |
Market size value in 2022 |
USD 261.32 Million |
Revenue forecast in 2030 |
USD 505.60 Million |
Growth Rate |
CAGR of 8.6% from 2023 to 2030 |
Quantitative Designs |
Revenue in USD Million/Billion & CAGR from 2023 to 2030 |
Report coverage |
Revenue forecast, company share,
competitive landscape, growth factors, and trends |
Segments covered |
Design, Functionality, Airflow Pattern, Containment Level Application Filtration
Type |
Key companies profiled |
Thermo Fisher Scientific, Kewaunee
Scientific, Labconco |
Regional Scope |
North America, Europe, Asia Pacific, Middle East & Africa, Latin
America |
Country Scope |
U.S., Canada, Germany, U.K., France, Italy,
Spain, India, Japan, China, Australia, South Korea, Saudi Arabia, UAE, South
Africa, Brazil, Mexico, Argentina |
Customization scope |
Free report customization (equivalent to up to 8 analysts’ working
days) with purchase. Addition or alteration to country, regional &
segment scope. |
Design Outlook (Revenue,
USD Million/Billion; 2020-2030)
·
Class I BSC
·
Class II BSC
·
Class III BSC
Functionality Outlook
(Revenue, USD Million/Billion; 2020-2030)
·
Cabinet Enclosure
BSC
·
Clean Bench BSC
·
PCR Enclosure BSC
Airflow Pattern Outlook
(Revenue, USD Million/Billion; 2020-2030)
·
Vertical
·
Horizontal
Containment Level Outlook
(Revenue, USD Million/Billion; 2020-2030)
·
Primary
·
Secondary
Application
Outlook (Revenue, USD Million/Billion; 2020-2030)
·
Microbiological
·
Chemical
·
Animal Handling
Filtration Type
Outlook (Revenue, USD Million/Billion; 2020-2030)
·
HEPA
·
ULPA Filter
Regional Outlook (Revenue,
USD Million/Billion; 2020-2030)
·
North America
o
U.S.
o
Canada
·
Europe
o
Germany
o
U.K.
o
France
o
Spain
o
Italy
o
Rest of the Europe
·
Asia Pacific
o
India
o
Japan
o
China
o
South Korea
o
Australia
o
Rest of
Asia-Pacific
·
Middle East &
Africa
o
UAE
o
Saudi Arabia
o
South Africa
o
Rest of Middle East
& Africa
·
Latin America
o
Brazil
o
Mexico
o
Argentina
o
Rest of Latin
America
Recent Developments In Biological Safety Cabinet Market:
In February 2021, Thermo Fisher Scientific, a
leading company in the life sciences industry, announced its acquisition of
Mesa Biotech Inc., a molecular diagnostic company. The deal was valued at
approximately $450 million. Mesa Biotech specializes in the development of
nucleic acid-based tests, including polymerase chain reaction (PCR) assays.
Thermo Fisher Scientific's acquisition of Mesa Biotech aimed to strengthen its
position in the point-of-care molecular diagnostics market and enhance its
offerings in the field of biological safety cabinets.
Erlab, a global leader in the development of
chemical filtration solutions, and Labconco Corporation, a renowned manufacturer
of laboratory equipment, announced a partnership to advance the safety and
efficiency of laboratory operations. The partnership aimed to combine Erlab's
expertise in chemical filtration with Labconco's extensive range of biological
safety cabinets. This collaboration aimed to offer innovative and comprehensive
solutions for laboratory safety, ensuring that researchers and lab personnel
can work with hazardous substances safely and effectively.
In May 2018, Baker, a leading manufacturer of
biological safety cabinets and clean-air containment enclosures, was acquired
by the Esco Group. Esco Group is a global leader in laboratory and
pharmaceutical equipment. The acquisition aimed to expand Esco Group's product
portfolio in the field of biosafety and containment solutions and enhance its
presence in the global market.
In May 2021, Labconco (US) introduced the
latest version of axiom biosafety cabinets, enhancing laboratory safety and
functionality.
In December 2020, Labconco (US) revealed an
expanded class II enclosure with a remarkable 65% increase in size, specially
tailored to accommodate laboratory instrumentation.
In May 2019, Labconco (US) showcased the
enhanced logic+ biosafety cabinets, incorporating exclusive safety features,
ergonomic advancements, and an updated operational system.
Biological Safety Cabinets (BSCs) play an
indispensable role in safeguarding researchers, samples, and the environment in
life science research and laboratory settings. Their ability to provide a
sterile and secure working environment ensures personnel safety, preserves
sample integrity, and prevents contamination risks. With stringent safety
regulations, technological advancements, and an upsurge in life science
research activities, BSCs continue to be essential tools in the pursuit of
scientific advancement and safer laboratory practices. As governments and
institutions prioritize laboratory safety, BSCs will remain at the forefront of
ensuring the protection of life and the advancement of scientific knowledge..
Chapter
1. Introduction |
|
1.1. Market Definition |
|
1.2. Research Scope |
|
1.2.1. Markets Covered |
|
1.2.2. Years Considered for
Study |
|
Chapter
2. Executive Summary |
|
2.1. Summary Snapshot Market Size
and Forecast, 2020-2030 |
|
2.2. Biological Safety Cabinet Market
Share by Design, 2022 vs 2030 (USD Million) |
|
2.3. Biological Safety Cabinet Market
Share by Functionality, 2022 vs 2030 (USD Million) |
|
2.4. Biological Safety Cabinet Market
Share by Airflow Pattern, 2022 vs 2030 (USD Million) |
|
2.5. Biological Safety Cabinet Market
Share by Containment Level, 2022 vs 2030 (USD Million) |
|
2.6. Biological Safety Cabinet Market
Share by Application, 2022 vs 2030 (USD Million) |
|
2.7. Biological Safety Cabinet Market
Share by Filtration Type, 2022 vs 2030 (USD Million) |
|
2.8. Biological Safety Cabinet Market
Share by Region, 2022 vs 2030 (USD Million) |
|
Chapter
3. Key Insights |
|
Chapter
4. Biological Safety Cabinet Market Segmentation & Impact Analysis |
|
4.1. Biological Safety Cabinet Market
Indicators Analysis |
|
4.1.1. Market Drivers
Analysis |
|
4.1.1.1. Favorable
regulations |
|
4.1.1.2. Increased
risk of pandemics and communicable diseases |
|
4.1.1.3. Increasing
number of R&D activities in pharmaceutical and biopharmaceutical
companies |
|
4.1.2. Market Restraint
Analysis |
|
4.1.2.1. Alternative
containment cabinets |
|
4.1.2.2. High cost of biological safety
cabinets |
|
4.1.3. Market Opportunity
Analysis |
|
4.1.3.1. Emerging
markets offer lucrative growth opportunities |
|
4.2. Regulatory Analysis |
|
4.2.1. North America |
|
4.2.1.1. U.S. |
|
4.2.1.2. Canada |
|
4.2.2. Europe |
|
4.2.3. Asia Pacific |
|
4.2.3.1. India |
|
4.2.3.2. Japan |
|
4.2.3.3. China |
|
4.3. Technological Insights |
|
4.4. COVID-19 Impact analysis on
Biological Safety Cabinet Market |
|
4.5. Porter’s Five Forces Analysis |
|
4.5.1. Bargaining Power of
Buyers/Consumers |
|
4.5.2. Bargaining Power of
Suppliers |
|
4.5.3. Threat of New Entrants |
|
4.5.4. Threat of Substitute
Products |
|
4.5.5. Intensity of Competitive
Rivalry |
|
4.6. Competitive Metric Space Analysis |
|
Chapter
5. Biological Safety Cabinet Market, By Design (Market Size and Forecast
by Value - USD Million, 2020 - 2030) |
|
5.1. Biological Safety Cabinet Market,
By Design (Market Size and Forecast by Value - USD Million, 2022 & 2030) |
|
5.1.1. Class I BSC |
|
5.1.1.1. Class I BSC Market Estimates and Forecast,
2020-2030 (USD Million) |
|
5.1.1.2. Class I BSC Market Estimates and Forecast,
By Region, 2020-2030 (USD Million) |
|
5.1.2. Class II BSC |
|
5.1.2.1. Class II
BSC Market Estimates and Forecast, 2020-2030 (USD Million) |
|
5.1.2.2. Class II BSC
Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
|
5.1.3. Class III BSC |
|
5.1.3.1. Class III
BSC Market Estimates and Forecast, 2020-2030 (USD Million) |
|
5.1.3.2. Class III
BSC Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
|
Chapter
6. Biological Safety Cabinet Market, By Functionality (Market Size and
Forecast by Value - USD Million, 2020 - 2030) |
|
6.1. Biological Safety Cabinet Market,
By Functionality (Market Size and Forecast by Value - USD Million, 2022 &
2030) |
|
6.1.1. Cabinet Enclosure BSC |
|
6.1.1.1. Cabinet Enclosure BSC Market Estimates and
Forecast, 2020-2030 (USD Million) |
|
6.1.1.2. Cabinet Enclosure BSC Market Estimates and
Forecast, By Region, 2020-2030 (USD Million) |
|
6.1.2. Clean Bench BSC |
|
6.1.2.1. Clean Bench BSC Market Estimates and
Forecast, 2020-2030 (USD Million) |
|
6.1.2.2. Clean Bench BSC Market Estimates and
Forecast, By Region, 2020-2030 (USD Million) |
|
6.1.3. PCR Enclosure BSC |
|
6.1.3.1. PCR
Enclosure BSC Market Estimates and Forecast, 2020-2030 (USD Million) |
|
6.1.3.2. PCR
Enclosure BSC Market Estimates and Forecast, By Region, 2020-2030 (USD
Million) |
|
Chapter
7. Biological Safety Cabinet Market, By Airflow Pattern (Market Size and
Forecast by Value - USD Million, 2020 - 2030) |
|
7.1. Biological Safety Cabinet Market,
By Airflow Pattern (Market Size and Forecast by Value - USD Million, 2022
& 2030) |
|
7.1.1. Vertical |
|
7.1.1.1. Vertical Market Estimates and Forecast,
2020-2030 (USD Million) |
|
7.1.1.2. Vertical Market Estimates and Forecast, By
Region, 2020-2030 (USD Million) |
|
7.1.2. Horizontal |
|
7.1.2.1. Horizontal Market Estimates and Forecast,
2020-2030 (USD Million) |
|
7.1.2.2. Horizontal Market Estimates and Forecast,
By Region, 2020-2030 (USD Million) |
|
Chapter
8. Biological Safety Cabinet Market, By Containment Level (Market Size
and Forecast by Value - USD Million, 2020 - 2030) |
|
8.1. Biological Safety Cabinet Market,
By Containment Level (Market Size and Forecast by Value - USD Million, 2022
& 2030) |
|
8.1.1. Primary |
|
8.1.1.1. Primary Market Estimates and Forecast,
2020-2030 (USD Million) |
|
8.1.1.2. Primary Market Estimates and Forecast, By
Region, 2020-2030 (USD Million) |
|
8.1.2. Secondary |
|
8.1.2.1. Secondary Market Estimates and Forecast,
2020-2030 (USD Million) |
|
8.1.2.2. Secondary Market Estimates and Forecast,
By Region, 2020-2030 (USD Million) |
|
Chapter 9. Biological
Safety Cabinet Market, By Application (Market Size and Forecast by Value -
USD Million, 2020 - 2030) |
|
9.1. Biological Safety Cabinet Market,
By Application (Market Size and Forecast by Value - USD Million, 2022 &
2030) |
|
9.1.1. Microbiological |
|
9.1.1.1. Microbiological Market Estimates and
Forecast, 2020-2030 (USD Million) |
|
9.1.1.2. Microbiological Market Estimates and
Forecast, By Region, 2020-2030 (USD Million) |
|
9.1.2. Chemical |
|
9.1.2.1. Chemical Market Estimates and Forecast,
2020-2030 (USD Million) |
|
9.1.2.2. Chemical Market Estimates and Forecast, By
Region, 2020-2030 (USD Million) |
|
9.1.3. Animal Handling |
|
9.1.3.1. Animal
Handling Market Estimates and Forecast, 2020-2030 (USD Million) |
|
9.1.3.2. Animal
Handling Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
|
Chapter
10. Biological Safety Cabinet Market, By Filtration Type (Market Size
and Forecast by Value - USD Million, 2020 - 2030) |
|
10.1. Biological Safety Cabinet Market,
By Filtration Type (Market Size and Forecast by Value - USD Million, 2022
& 2030) |
|
10.1.1. HEPA |
|
10.1.1.1. HEPA Market Estimates and Forecast,
2020-2030 (USD Million) |
|
10.1.1.2. HEPA Market Estimates and Forecast, By
Region, 2020-2030 (USD Million) |
|
10.1.2. ULPA Filter |
|
10.1.2.1. ULPA Filter Market Estimates and Forecast,
2020-2030 (USD Million) |
|
10.1.2.2. ULPA Filter Market Estimates and Forecast,
By Region, 2020-2030 (USD Million) |
|
Chapter
11. Biological Safety Cabinet Market, By Region (Market Size and Forecast by
Value - USD Million, 2020 - 2030) |
|
11.1. Biological Safety Cabinet Market,
By Region (Market Size and Forecast by Value - USD Million, 2022 & 2030) |
|
11.2. North America |
|
11.2.1. North America
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.2.2. North America
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.2.3. North America
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.2.4. North America
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.2.5. North America
Biological Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.2.6. North America
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.2.7. North America
Biological Safety Cabinet Market, By Country, 2020-2030 (USD Million) |
|
11.2.8. U.S. |
|
11.2.8.1. U.S.
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.2.8.2. U.S.
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.2.8.3. U.S.
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.2.8.4. U.S. Biological
Safety Cabinet Market, By Containment Level, 2020-2030 (USD Million) |
|
11.2.8.5. U.S.
Biological Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.2.8.6. U.S.
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.2.9. Canada |
|
11.2.9.1. Canada
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.2.9.2. Canada Biological Safety
Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.2.9.3. Canada
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.2.9.4. Canada Biological Safety Cabinet
Market, By Containment Level, 2020-2030 (USD Million) |
|
11.2.9.5. Canada
Biological Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.2.9.6. Canada
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.3. Europe |
|
11.3.1. Europe Biological
Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.3.2. Europe Biological
Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.3.3. Europe Biological Safety
Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.3.4. Europe Biological
Safety Cabinet Market, By Containment Level, 2020-2030 (USD Million) |
|
11.3.5. Europe Biological
Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.3.6. Europe Biological
Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.3.7. Europe Biological
Safety Cabinet Market, By Country, 2020-2030 (USD Million) |
|
11.3.8. Germany |
|
11.3.8.1. Germany
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.3.8.2. Germany
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.3.8.3. Germany Biological
Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.3.8.4. Germany
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.3.8.5. Germany Biological Safety
Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.3.8.6. Germany
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.3.9. U.K. |
|
11.3.9.1. U.K.
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.3.9.2. U.K.
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.3.9.3. U.K.
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.3.9.4. U.K.
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.3.9.5. U.K. Biological
Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.3.9.6. U.K.
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.3.10. France |
|
11.3.10.1. France
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.3.10.2. France
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.3.10.3. France Biological
Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.3.10.4. France
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.3.10.5. France Biological
Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.3.10.6. France
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.3.11. Spain |
|
11.3.11.1. Spain
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.3.11.2. Spain
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.3.11.3. Spain
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.3.11.4. Spain
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.3.11.5. Spain
Biological Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.3.11.6. Spain
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.3.12. Italy |
|
11.3.12.1. Italy
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.3.12.2. Italy
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.3.12.3. Italy
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.3.12.4. Italy Biological
Safety Cabinet Market, By Containment Level, 2020-2030 (USD Million) |
|
11.3.12.5. Italy
Biological Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.3.12.6. Italy Biological Safety
Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.3.13. Rest of Europe |
|
11.3.13.1. Rest
of Europe Biological Safety Cabinet Market, By Design, 2020-2030 (USD
Million) |
|
11.3.13.2. Rest
of Europe Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
|
11.3.13.3. Rest
of Europe Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030
(USD Million) |
|
11.3.13.4. Rest
of Europe Biological Safety Cabinet Market, By Containment Level, 2020-2030
(USD Million) |
|
11.3.13.5. Rest
of Europe Biological Safety Cabinet Market, By Application, 2020-2030 (USD
Million) |
|
11.3.13.6. Rest
of Europe Biological Safety Cabinet Market, By Filtration Type, 2020-2030
(USD Million) |
|
11.4. Asia Pacific |
|
11.4.1. Asia Pacific Biological
Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.4.2. Asia Pacific Biological
Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.4.3. Asia Pacific Biological
Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.4.4. Asia Pacific Biological
Safety Cabinet Market, By Containment Level, 2020-2030 (USD Million) |
|
11.4.5. Asia Pacific Biological
Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.4.6. Asia Pacific Biological
Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.4.7. Asia Pacific Biological
Safety Cabinet Market, By Country, 2020-2030 (USD Million) |
|
11.4.8. India |
|
11.4.8.1. India
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.4.8.2. India
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.4.8.3. India
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.4.8.4. India
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.4.8.5. India
Biological Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.4.8.6. India
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.4.9. Japan |
|
11.4.9.1. Japan
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.4.9.2. Japan
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.4.9.3. Japan
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.4.9.4. Japan
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.4.9.5. Japan Biological
Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.4.9.6. Japan
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.4.10. China |
|
11.4.10.1. China
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.4.10.2. China
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.4.10.3. China
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.4.10.4. China Biological
Safety Cabinet Market, By Containment Level, 2020-2030 (USD Million) |
|
11.4.10.5. China
Biological Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.4.10.6. China Biological Safety
Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.4.11. South Korea |
|
11.4.11.1. South
Korea Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.4.11.2. South
Korea Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
|
11.4.11.3. South Korea
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.4.11.4. South
Korea Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.4.11.5. South
Korea Biological Safety Cabinet Market, By Application, 2020-2030 (USD
Million) |
|
11.4.11.6. South
Korea Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD
Million) |
|
11.4.12. Australia |
|
11.4.12.1.
Australia Biological Safety Cabinet Market, By Design, 2020-2030 (USD
Million) |
|
11.4.12.2.
Australia Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
|
11.4.12.3.
Australia Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030
(USD Million) |
|
11.4.12.4.
Australia Biological Safety Cabinet Market, By Containment Level, 2020-2030
(USD Million) |
|
11.4.12.5.
Australia Biological Safety Cabinet Market, By Application, 2020-2030 (USD
Million) |
|
11.4.12.6.
Australia Biological Safety Cabinet Market, By Filtration Type, 2020-2030
(USD Million) |
|
11.4.13. Rest of Asia Pacific |
|
11.4.13.1. Rest
of Asia Pacific Biological Safety Cabinet Market, By Design, 2020-2030 (USD
Million) |
|
11.4.13.2. Rest
of Asia Pacific Biological Safety Cabinet Market, By Functionality, 2020-2030
(USD Million) |
|
11.4.13.3. Rest
of Asia Pacific Biological Safety Cabinet Market, By Airflow Pattern,
2020-2030 (USD Million) |
|
11.4.13.4. Rest
of Asia Pacific Biological Safety Cabinet Market, By Containment Level,
2020-2030 (USD Million) |
|
11.4.13.5. Rest
of Asia Pacific Biological Safety Cabinet Market, By Application, 2020-2030
(USD Million) |
|
11.4.13.6. Rest
of Asia Pacific Biological Safety Cabinet Market, By Filtration Type,
2020-2030 (USD Million) |
|
11.5. Middle East & Africa |
|
11.5.1. Middle East &
Africa Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.5.2. Middle East &
Africa Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
|
11.5.3. Middle East &
Africa Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD
Million) |
|
11.5.4. Middle East &
Africa Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.5.5. Middle East &
Africa Biological Safety Cabinet Market, By Application, 2020-2030 (USD
Million) |
|
11.5.5. Middle East &
Africa Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD
Million) |
|
11.5.7. Middle East &
Africa Biological Safety Cabinet Market, By Country, 2020-2030 (USD Million) |
|
11.5.8. UAE |
|
11.5.8.1. UAE
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.5.8.2. UAE
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.5.8.3. UAE
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.5.8.4. UAE
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.5.8.5. UAE
Biological Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.5.8.6. UAE
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.5.9. Saudi Arabia |
|
11.5.9.1. Saudi
Arabia Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.5.9.2. Saudi
Arabia Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
|
11.5.9.3. Saudi Arabia
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.5.9.4. Saudi
Arabia Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.5.9.5. Saudi
Arabia Biological Safety Cabinet Market, By Application, 2020-2030 (USD
Million) |
|
11.5.9.6. Saudi
Arabia Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD
Million) |
|
11.5.10. South Africa |
|
11.5.10.1. South
Africa Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.5.10.2. South
Africa Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
|
11.5.10.3. South
Africa Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD
Million) |
|
11.5.10.4. South
Africa Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.5.10.5. South
Africa Biological Safety Cabinet Market, By Application, 2020-2030 (USD
Million) |
|
11.5.10.6. South
Africa Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD
Million) |
|
11.5.11. Rest of Middle East
& Africa |
|
11.5.11.1. Rest
of Middle East & Africa Biological Safety Cabinet Market, By Design,
2020-2030 (USD Million) |
|
11.5.11.2. Rest
of Middle East & Africa Biological Safety Cabinet Market, By
Functionality, 2020-2030 (USD Million) |
|
11.5.11.3. Rest
of Middle East & Africa Biological Safety Cabinet Market, By Airflow
Pattern, 2020-2030 (USD Million) |
|
11.5.11.4. Rest
of Middle East & Africa Biological Safety Cabinet Market, By Containment
Level, 2020-2030 (USD Million) |
|
11.5.11.5. Rest of
Middle East & Africa Biological Safety Cabinet Market, By Application,
2020-2030 (USD Million) |
|
11.5.11.6. Rest
of Middle East & Africa Biological Safety Cabinet Market, By Filtration
Type, 2020-2030 (USD Million) |
|
11.6. Latin America |
|
11.6.1. Latin America
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.6.2. Latin America
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.6.3. Latin America Biological
Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.6.4. Latin America
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.6.5. Latin America
Biological Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.6.6. Latin America
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.6.7. Latin America
Biological Safety Cabinet Market, By Country, 2020-2030 (USD Million) |
|
11.6.8. Brazil |
|
11.6.8.1. Brazil
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.6.8.2. Brazil
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.6.8.3. Brazil
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.6.8.4. Brazil
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.6.8.5. Brazil
Biological Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.6.8.6. Brazil
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.6.9. Mexico |
|
11.6.9.1. Mexico
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
|
11.6.9.2. Mexico
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
|
11.6.9.3. Mexico
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
|
11.6.9.4. Mexico
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
|
11.6.9.5. Mexico
Biological Safety Cabinet Market, By Application, 2020-2030 (USD Million) |
|
11.6.9.6. Mexico
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.6.10. Argentina |
|
11.6.10.1.
Argentina Biological Safety Cabinet Market, By Design, 2020-2030 (USD
Million) |
|
11.6.10.2.
Argentina Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
|
11.6.10.3.
Argentina Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030
(USD Million) |
|
11.6.10.4.
Argentina Biological Safety Cabinet Market, By Containment Level, 2020-2030
(USD Million) |
|
11.6.10.5.
Argentina Biological Safety Cabinet Market, By Application, 2020-2030 (USD
Million) |
|
11.6.10.6. Argentina
Biological Safety Cabinet Market, By Filtration Type, 2020-2030 (USD Million) |
|
11.6.11. Rest of Latin America |
|
11.6.11.1. Rest
of Latin America Biological Safety Cabinet Market, By Design, 2020-2030 (USD
Million) |
|
11.6.11.2. Rest
of Latin America Biological Safety Cabinet Market, By Functionality,
2020-2030 (USD Million) |
|
11.6.11.3. Rest
of Latin America Biological Safety Cabinet Market, By Airflow Pattern,
2020-2030 (USD Million) |
|
11.6.11.4. Rest
of Latin America Biological Safety Cabinet Market, By Containment Level,
2020-2030 (USD Million) |
|
11.6.11.5. Rest
of Latin America Biological Safety Cabinet Market, By Application, 2020-2030
(USD Million) |
|
11.6.11.6. Rest
of Latin America Biological Safety Cabinet Market, By Filtration Type, 2020-2030
(USD Million) |
|
Chapter
12. Competitive Landscape |
|
12.1. Market Revenue Share by
Manufacturers |
|
12.2. Competitor’s Positioning |
|
12.3. Strategy Benchmarking |
|
12.3.1. Partnership &
Agreement |
|
12.3.2. New Product
Development |
|
12.3.3. Mergers &
Acquisitions |
|
12.3.4. Investment &
Expansion |
|
12.4. Vendor Landscape |
|
12.4.1. Distributors |
|
12.4.2. North America |
|
12.4.3. Europe |
|
12.4.4. Asia Pacific |
|
12.4.5. Middle East &
Africa |
|
12.4.6. Latin America |
|
12.5. Zettabyte Analytics Insights for
Competitive Landscape |
|
Chapter
13. Company Profiles |
|
13.1. Air Science |
|
13.1.1. Company Overview |
|
13.1.2. Products Offered |
|
13.1.3. Financials |
|
13.1.4. Recent
Development |
|
13.2. Albian Group |
|
13.2.1. Company Overview |
|
13.2.2. Products Offered |
|
13.2.3. Financials |
|
13.2.4. Recent
Development |
|
13.3. Azbil Telstar |
|
13.3.1. Company Overview |
|
13.3.2. Products Offered |
|
13.3.3. Financials |
|
13.3.4. Recent
Development |
|
13.4. Berner International |
|
13.4.1. Company Overview |
|
13.4.2. Products Offered |
|
13.4.3. Financials |
|
13.4.4. Recent
Development |
|
13.5. Biolab Scientific |
|
13.5.1. Company Overview |
|
13.5.2. Products Offered |
|
13.5.3. Financials |
|
13.5.4. Recent
Development |
|
13.6. Cruma |
|
13.6.1. Company Overview |
|
13.6.2. Products Offered |
|
13.6.3. Financials |
|
13.6.4. Recent
Development |
|
13.7. Esco Micro |
|
13.7.1. Company Overview |
|
13.7.2. Products Offered |
|
13.7.3. Financials |
|
13.7.4. Recent
Development |
|
13.8. Faster S.R.L. |
|
13.8.1. Company Overview |
|
13.8.2. Products Offered |
|
13.8.3. Financials |
|
13.8.4. Recent Development |
|
13.9. Germfree Laboratories |
|
13.9.1. Company Overview |
|
13.9.2. Products Offered |
|
13.9.3. Financials |
|
13.9.4. Recent
Development |
|
13.10. Kewaunee Scientific |
|
13.10.1. Company Overview |
|
13.10.2. Products Offered |
|
13.10.3. Financials |
|
13.10.4. Recent
Development |
|
13.13. Labconco |
|
13.13.1. Company Overview |
|
13.13.2. Products Offered |
|
13.13.3. Financials |
|
13.13.4. Recent
Development |
|
13.12. Labmate |
|
13.12.1. Company Overview |
|
13.12.2. Products Offered |
|
13.12.3. Financials |
|
13.12.4. Recent
Development |
|
13.13. Labogene |
|
13.13.1. Company Overview |
|
13.13.2. Products Offered |
|
13.13.3. Financials |
|
13.13.4. Recent
Development |
|
13.13. Lamsystems Gmbh |
|
13.13.1. Company Overview |
|
13.13.2. Products Offered |
|
13.13.3. Financials |
|
13.13.4. Recent
Development |
|
13.15. Mrc Laboratory Equipment |
|
13.15.1. Company Overview |
|
13.15.2. Products Offered |
|
13.15.3. Financials |
|
13.15.4. Recent
Development |
|
13.16. Nanbei Instrument Limited |
|
13.16.1. Company Overview |
|
13.16.2. Products Offered |
|
13.16.3. Financials |
|
13.16.4. Recent
Development |
|
13.17. Nuaire |
|
13.17.1. Company Overview |
|
13.17.2. Products Offered |
|
13.17.3. Financials |
|
13.17.4. Recent
Development |
|
13.18. Stericox |
|
13.18.1. Company Overview |
|
13.18.2. Products Offered |
|
13.18.3. Financials |
|
13.18.4. Recent
Development |
|
13.19. The Baker Company |
|
13.19.1. Company Overview |
|
13.19.2. Products Offered |
|
13.19.3. Financials |
|
13.19.4. Recent
Development |
|
13.20. Thermo Fisher Scientific |
|
13.20.1. Company Overview |
|
13.20.2. Products Offered |
|
13.20.3. Financials |
|
13.20.4. Recent
Development |
|
13.21. Thermolab |
|
13.21.1. Company Overview |
|
13.21.2. Products Offered |
|
13.21.3. Financials |
|
13.21.4. Recent
Development |
|
13.22. Thomas Scientific |
|
13.22.1. Company Overview |
|
13.22.2. Products Offered |
|
13.22.3. Financials |
|
13.22.4. Recent
Development |
|
13.23. Topair Systems, Inc. |
|
13.23.1. Company Overview |
|
13.23.2. Products Offered |
|
13.23.3. Financials |
|
13.23.4. Recent
Development |
|
13.24. Zhejiang Fuxia Medical Technology
Co., Ltd. |
|
13.24.1. Company Overview |
|
13.24.2. Products Offered |
|
13.24.3. Financials |
|
13.24.4. Recent
Development |
|
Chapter
14. Research Methodology |
|
14.1. Research Sources |
|
14.1.1. Primary |
|
14.1.2. Secondary |
|
14.2. Market Size Estimation |
|
Chapter
15. Appendix |
|
15.1. Discussion
guide |
|
15.2.
Knowledge Store: Zettabyte Analytics Subscription Portal |
|
15.3.
Available Customizations |
|
15.4.
Associated Zettabyte Analytics Reports |
|
List of
Tables |
|
Table 1 |
Biological
Safety Cabinet Market, By Design (Market Size and Forecast by Value - USD
Million, 2022 & 2030) |
Table 2 |
Class I
BSC Market Estimates and Forecast, 2020-2030 (USD Million) |
Table 3 |
Class I
BSC Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
Table 4 |
Class II
BSC Market Estimates and Forecast, 2020-2030 (USD Million) |
Table 5 |
Class II
BSC Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
Table 6 |
Biological
Safety Cabinet Market, By Functionality (Market Size and Forecast by Value -
USD Million, 2022 & 2030) |
Table 7 |
Cabinet
Enclosure BSC Market Estimates and Forecast, 2020-2030 (USD Million) |
Table 8 |
Cabinet
Enclosure BSC Market Estimates and Forecast, By Region, 2020-2030 (USD
Million) |
Table 9 |
Biological
Safety Cabinet Market, By Airflow Pattern (Market Size and Forecast by Value
- USD Million, 2022 & 2030) |
Table 10 |
Vertical
Market Estimates and Forecast, 2020-2030 (USD Million) |
Table 11 |
Vertical
Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
Table 12 |
Horizontal
Market Estimates and Forecast, 2020-2030 (USD Million) |
Table 13 |
Horizontal
Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
Table 14 |
Market Estimates and Forecast, 2020-2030
(USD Million) |
Table 15 |
Market Estimates and Forecast, By Region,
2020-2030 (USD Million) |
Table 16 |
Biological
Safety Cabinet Market, By Containment Level (Market Size and Forecast by
Value - USD Million, 2022 & 2030) |
Table 17 |
Primary
Market Estimates and Forecast, 2020-2030 (USD Million) |
Table 18 |
Primary
Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
Table 19 |
Secondary
Market Estimates and Forecast, 2020-2030 (USD Million) |
Table 20 |
Secondary
Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
Table 21 |
North
America Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 22 |
North
America Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
Table 23 |
North
America Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD
Million) |
Table 24 |
North
America Biological Safety Cabinet Market, By Containment Level, 2020-2030
(USD Million) |
Table 25 |
North
America Biological Safety Cabinet Market, By Country, 2020-2030 (USD Million) |
Table 26 |
U.S.
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 27 |
U.S.
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 28 |
U.S.
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 29 |
U.S.
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 30 |
Canada
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 31 |
Canada
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 32 |
Canada
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 33 |
Canada
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 34 |
Europe
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 35 |
Europe
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 36 |
Europe
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 37 |
Europe Biological
Safety Cabinet Market, By Containment Level, 2020-2030 (USD Million) |
Table 38 |
Europe
Biological Safety Cabinet Market, By Country, 2020-2030 (USD Million) |
Table 39 |
Germany
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 40 |
Germany
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 41 |
Germany
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 42 |
Germany
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 43 |
U.K.
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 44 |
U.K.
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 45 |
U.K.
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 46 |
U.K.
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 47 |
France
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 48 |
France
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 49 |
France
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 50 |
France
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 51 |
Spain
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 52 |
Spain
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 53 |
Spain
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 54 |
Spain
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 55 |
Italy
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 56 |
Italy
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 57 |
Italy
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 58 |
Italy
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 59 |
Rest of
Europe Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 60 |
Rest of
Europe Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
Table 61 |
Rest of
Europe Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD
Million) |
Table 62 |
Rest of
Europe Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 63 |
Asia
Pacific Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 64 |
Asia
Pacific Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
Table 65 |
Asia
Pacific Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD
Million) |
Table 66 |
Asia
Pacific Biological Safety Cabinet Market, By Containment Level, 2020-2030
(USD Million) |
Table 67 |
Asia
Pacific Biological Safety Cabinet Market, By Country, 2020-2030 (USD Million) |
Table 68 |
India
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 69 |
India
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 70 |
India
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 71 |
India
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 72 |
Japan
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 73 |
Japan
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 74 |
Japan
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 75 |
Japan
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 76 |
China
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 77 |
China
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 78 |
China
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 79 |
China
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 80 |
South
Korea Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 81 |
South
Korea Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
Table 82 |
South
Korea Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD
Million) |
Table 83 |
South
Korea Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 84 |
Australia
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 85 |
Australia
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 86 |
Australia
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 87 |
Australia
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 88 |
Rest of
Asia Pacific Biological Safety Cabinet Market, By Design, 2020-2030 (USD
Million) |
Table 89 |
Rest of
Asia Pacific Biological Safety Cabinet Market, By Functionality, 2020-2030
(USD Million) |
Table 90 |
Rest of
Asia Pacific Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030
(USD Million) |
Table 91 |
Rest of
Asia Pacific Biological Safety Cabinet Market, By Containment Level,
2020-2030 (USD Million) |
Table 92 |
Middle
East & Africa Biological Safety Cabinet Market, By Design, 2020-2030 (USD
Million) |
Table 93 |
Middle
East & Africa Biological Safety Cabinet Market, By Functionality,
2020-2030 (USD Million) |
Table 94 |
Middle
East & Africa Biological Safety Cabinet Market, By Airflow Pattern,
2020-2030 (USD Million) |
Table 95 |
Middle
East & Africa Biological Safety Cabinet Market, By Containment Level,
2020-2030 (USD Million) |
Table 96 |
Middle
East & Africa Biological Safety Cabinet Market, By Country, 2020-2030
(USD Million) |
Table 97 |
UAE
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 98 |
UAE
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 99 |
UAE
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 100 |
UAE
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 101 |
Saudi
Arabia Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 102 |
Saudi
Arabia Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
Table 103 |
Saudi
Arabia Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD
Million) |
Table 104 |
Saudi
Arabia Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 105 |
South
Africa Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 106 |
South
Africa Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
Table 107 |
South
Africa Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD
Million) |
Table 108 |
South
Africa Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 109 |
Rest of
Middle East & Africa Biological Safety Cabinet Market, By Design,
2020-2030 (USD Million) |
Table 110 |
Rest of
Middle East & Africa Biological Safety Cabinet Market, By Functionality,
2020-2030 (USD Million) |
Table 111 |
Rest of
Middle East & Africa Biological Safety Cabinet Market, By Airflow
Pattern, 2020-2030 (USD Million) |
Table 112 |
Rest of
Middle East & Africa Biological Safety Cabinet Market, By Containment
Level, 2020-2030 (USD Million) |
Table 113 |
Latin
America Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 114 |
Latin
America Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD
Million) |
Table 115 |
Latin
America Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD
Million) |
Table 116 |
Latin
America Biological Safety Cabinet Market, By Containment Level, 2020-2030
(USD Million) |
Table 117 |
Latin
America Biological Safety Cabinet Market, By Country, 2020-2030 (USD Million) |
Table 118 |
Brazil
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 119 |
Brazil
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 120 |
Brazil
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 121 |
Brazil
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 122 |
Mexico
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 123 |
Mexico
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 124 |
Mexico
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 125 |
Mexico
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 126 |
Argentina
Biological Safety Cabinet Market, By Design, 2020-2030 (USD Million) |
Table 127 |
Argentina
Biological Safety Cabinet Market, By Functionality, 2020-2030 (USD Million) |
Table 128 |
Argentina
Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030 (USD Million) |
Table 129 |
Argentina
Biological Safety Cabinet Market, By Containment Level, 2020-2030 (USD
Million) |
Table 130 |
Rest of
Latin America Biological Safety Cabinet Market, By Design, 2020-2030 (USD
Million) |
Table 131 |
Rest of
Latin America Biological Safety Cabinet Market, By Functionality, 2020-2030
(USD Million) |
Table 132 |
Rest of
Latin America Biological Safety Cabinet Market, By Airflow Pattern, 2020-2030
(USD Million) |
Table 133 |
Rest of
Latin America Biological Safety Cabinet Market, By Containment Level,
2020-2030 (USD Million) |
Table 134 |
Product
Launch & Development in The Biological Safety Cabinet Market, 2020-2022 |
Table 135 |
Investment
and Expansion in The Biological Safety Cabinet Market, 2020-2022 |
Table 136 |
Partnership
& Collaboration in The Biological Safety Cabinet Market, 2020-2022 |
Table 137 |
Merger
& Acquisition in The Biological Safety Cabinet Market, 2020-2022 |
List of
Figures |
|
Figure 1 |
Research
Methodology |
Figure 2 |
Summary
Snapshot Market Size and Forecast, USD Million, 2022 & 2030 |
Figure 3 |
Global
Biological Safety Cabinet Market Segmentation & Impact Analysis |
Figure 4 |
Regulatory
Analysis |
Figure 5 |
COVID-19
Impact analysis on Biological Safety Cabinet Market |
Figure 6 |
Market
Revenue Share by Manufacturers |
Figure 7 |
Biological
Safety Cabinet Market, By Design (Market Size and Forecast by Value - USD
Million, 2022 & 2030) |
Figure 8 |
Biological
Safety Cabinet Market, By Functionality (Market Size and Forecast by Value -
USD Million, 2022 & 2030) |
Figure 9 |
Biological
Safety Cabinet Market, By Airflow Pattern (Market Size and Forecast by Value
- USD Million, 2022 & 2030) |
Figure 10 |
Biological
Safety Cabinet Market, By Containment Level (Market Size and Forecast by
Value - USD Million, 2022 & 2030) |
Figure 11 |
Biological
Safety Cabinet Market, By Application (Market Size and Forecast by Value -
USD Million, 2022 & 2030) |
Figure 12 |
Biological
Safety Cabinet Market, By Region (Market Size and Forecast by Value - USD
Million, 2022 & 2030) |
1.
Research Sources
We at Zettabyte Analytics have a
detailed and related research methodology focussed on estimating the market
size and forecasted value for the given market. Comprehensive research
objectives and scope were obtained through secondary research of the parent and
peer markets. The next step was to validate our research by various market
models and primary research. Both top-down and bottom-up approaches were
employed to estimate the market. In addition to all the research reports, data
triangulation is one of the procedures used to evaluate the market size of
segments and sub-segments.
Research Methodology
1.1. Secondary Research
The secondary research study involves various sources and databases used
to analyze and collect information for the market-oriented survey of a specific
market. We use multiple databases for our exhaustive secondary research, such
as Factiva, Dun & Bradstreet, Bloomberg, Research article, Annual reports,
Press Release, and SEC filings of significant companies. Apart from this, a
dedicated set of teams continuously extracts data of key industry players and
makes an extensive and unique segmentation related to the latest market
development.
1.2. Primary Research
The primary research includes gathering data from specific domain
experts through a detailed questionnaire, emails, telephonic interviews, and
web-based surveys. The primary interviewees for this study include an expert
from the demand and supply side, such as CEOs, VPs, directors, sales heads, and
marketing managers of tire 1,2, and 3 companies across the globe.
1.3. Data Triangulation
The data triangulation is very important for any market study, thus we
at Zettabyte Analytics focus on at least three sources to ensure a high level
of accuracy. The data is triangulated by studying various factors and trends
from both supply and demand side. All the reports published and stored in our
repository follows a detailed process to obtain a reliable insight for our
clients.
1.4. In-House Verification
To validate the segmentation
and verify the data collected, our market expert ensures whether our research
analyst is considering fine distinction before analyzing the market.
1.5. Reporting
In the end,
presenting our research reports complied in a different format for straightforward
valuation such as ppt, pdf, and excel data pack is done.
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