ID: MRFR/SEM/9215-HCR | 99 Pages | Author: Aarti Dhapte | March 2024
TABLE OF CONTENTS
1. Executive Summary
2. Market Introduction
2.1. Market Definition
2.2. Scope of the Study
2.3. Markets Structure
3. Research Methodology
3.1. Research Process
3.2. Secondary Research
3.3. Primary Research
3.4. Forecast Model
3.5. List of Assumptions
4. Market Dynamics
4.1. Introduction
4.2. Drivers
4.2.1. Increasing urbanization with economic and population growth
4.2.2. Increasing airborne diseases and fatalities
4.3. Restraints
4.3.1. High cost of sensor
4.4. Opportunities
4.4.1. Ongoing technological advancements in IoT and cloud-based services
4.5. Porterβs Five Forces Analysis
4.5.1. Threat of New Entrants
4.5.2. Bargaining Power of Buyers
4.5.3. Threat of Substitutes
4.5.4. Intensity of Rivalry
4.5.5. Bargaining Power of Suppliers
4.6. Value Chain/Supply Chain Analysis
5. Global Air Quality Sensor Market,by Portability
5.1. Introduction
5.2. Signal-Gas Monitoring Sensor
5.2.1. Market Estimates & Forecast, 2019β2027
5.3. Multi-Gas Monitoring Sensor
5.3.1. Market Estimates & Forecast, 2019β2027
6. Global Air Quality Sensor Market, by Technology
6.1. Introduction
6.2. Non-Dispersive Infrared Radiation Sensors
6.2.1. Market Estimates & Forecast, 2019β2027
6.3. Electrochemical Sensors
6.3.1. Market Estimates & Forecast, 2019β2027
6.4. Electroacoustic Sensors
6.4.1. Market Estimates & Forecast, 2019β2027
6.5. Others
6.5.1. Market Estimates & Forecast, 2019β2027
7. Global Air Quality Sensor Market, by Portability
7.1. Introduction
7.2. Fixed Device
7.2.1. Market Estimates & Forecast, 2019β2027
7.3. Portable Device
7.3.1. Market Estimates & Forecast, 2019β2027
8. Global Air Quality Sensor Market, by Location of Sensors
8.1. Introduction
8.2. Indoor Air Quality Sensors
8.2.1. Market Estimates & Forecast, 2019β2027
8.3. Outdoor Air Quality Sensors
8.3.1. Market Estimates & Forecast, 2019β2027
9. Global Air Quality Sensor Market, by Application
9.1. Introduction
9.2. Residential
9.2.1. Market Estimates & Forecast, 2019β2027
9.3. Commercial
9.3.1. Market Estimates & Forecast, 2019β2027
9.4. Government Agencies
9.4.1. Market Estimates & Forecast, 2019β2027
9.5. Hospital
9.5.1. Market Estimates & Forecast, 2019β2027
9.6. Academic Institutes
9.6.1. Market Estimates & Forecast, 2019β2027
9.7. Others
9.7.1. Market Estimates & Forecast, 2019β2027
10. Global Air Quality Sensor Market, by Region
10.1. Introduction
10.2. North America
10.2.1. Market Estimates & Forecast, by Country, 2019β2027
10.2.2. Market Estimates & Forecast, by Portability, 2019β2027
10.2.3. Market Estimates & Forecast, by Technology, 2019β2027
10.2.4. Market Estimates & Forecast, by Portability, 2019β2027
10.2.5. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.2.6. Market Estimates & Forecast, by Application, 2019β2027
10.2.7. US
10.2.7.1. Market Estimates & Forecast, by Portability, 2019β2027
10.2.7.2. Market Estimates & Forecast, by Technology, 2019β2027
10.2.8. Canada
10.2.8.1. Market Estimates & Forecast, by Portability, 2019β2027
10.2.8.2. Market Estimates & Forecast, by Technology, 2019β2027
10.2.9. Mexico
10.2.9.1. Market Estimates & Forecast, by Portability, 2019β2027
10.2.9.2. Market Estimates & Forecast, by Technology, 2019β2027
10.3. Europe
10.3.1. Market Estimates & Forecast, by Country, 2019β2027
10.3.2. Market Estimates & Forecast, by Portability, 2019β2027
10.3.3. Market Estimates & Forecast, by Technology, 2019β2027
10.3.4. Market Estimates & Forecast, by Portability, 2019β2027
10.3.5. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.3.6. Market Estimates & Forecast, by Application, 2019β2027
10.3.7. UK
10.3.7.1. Market Estimates & Forecast, by Portability, 2019β2027
10.3.7.2. Market Estimates & Forecast, by Technology, 2019β2027
10.3.7.3. Market Estimates & Forecast, by Portability, 2019β2027
10.3.7.4. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.3.7.5. Market Estimates & Forecast, by Application, 2019β2027
10.3.8. Germany
10.3.8.1. Market Estimates & Forecast, by Portability, 2019β2027
10.3.8.2. Market Estimates & Forecast, by Technology, 2019β2027
10.3.8.3. Market Estimates & Forecast, by Portability, 2019β2027
10.3.8.4. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.3.8.5. Market Estimates & Forecast, by Application, 2019β2027
10.3.9. France
10.3.9.1. Market Estimates & Forecast, by Portability, 2019β2027
10.3.9.2. Market Estimates & Forecast, by Technology, 2019β2027
10.3.9.3. Market Estimates & Forecast, by Portability, 2019β2027
10.3.9.4. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.3.9.5. Market Estimates & Forecast, by Application, 2019β2027
10.3.10. Italy
10.3.10.1. Market Estimates & Forecast, by Portability, 2019β2027
10.3.10.2. Market Estimates & Forecast, by Technology, 2019β2027
10.3.10.3. Market Estimates & Forecast, by Portability, 2019β2027
10.3.10.4. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.3.10.5. Market Estimates & Forecast, by Application, 2019β2027
10.3.11. Rest of Europe
10.3.11.1. Market Estimates & Forecast, by Portability, 2019β2027
10.3.11.2. Market Estimates & Forecast, by Technology, 2019β2027
10.3.11.3. Market Estimates & Forecast, by Portability, 2019β2027
10.3.11.4. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.3.11.5. Market Estimates & Forecast, by Application, 2019β2027
10.4. Asia-Pacific
10.4.1. Market Estimates & Forecast, by Country, 2019β2027
10.4.2. Market Estimates & Forecast, by Portability, 2019β2027
10.4.3. Market Estimates & Forecast, by Technology, 2019β2027
10.4.4. Market Estimates & Forecast, by Portability, 2019β2027
10.4.5. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.4.6. Market Estimates & Forecast, by Application, 2019β2027
10.4.7. China
10.4.7.1. Market Estimates & Forecast, by Portability, 2019β2027
10.4.7.2. Market Estimates & Forecast, by Technology, 2019β2027
10.4.7.3. Market Estimates & Forecast, by Portability, 2019β2027
10.4.7.4. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.4.7.5. Market Estimates & Forecast, by Application, 2019β2027
10.4.8. Japan
10.4.8.1. Market Estimates & Forecast, by Portability, 2019β2027
10.4.8.2. Market Estimates & Forecast, by Technology, 2019β2027
10.4.8.3. Market Estimates & Forecast, by Portability, 2019β2027
10.4.8.4. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.4.8.5. Market Estimates & Forecast, by Application, 2019β2027
10.4.9. India
10.4.9.1. Market Estimates & Forecast, by Portability, 2019β2027
10.4.9.2. Market Estimates & Forecast, by Technology, 2019β2027
10.4.9.3. Market Estimates & Forecast, by Portability, 2019β2027
10.4.9.4. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.4.9.5. Market Estimates & Forecast, by Application, 2019β2027
10.4.10. Rest of Asia-Pacific
10.4.10.1. Market Estimates & Forecast, by Portability, 2019β2027
10.4.10.2. Market Estimates & Forecast, by Technology, 2019β2027
10.4.10.3. Market Estimates & Forecast, by Portability, 2019β2027
10.4.10.4. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.4.10.5. Market Estimates & Forecast, by Application, 2019β2027
10.5. Rest of the World
10.5.1. Market Estimates & Forecast, by, Country, 2019β2027
10.5.2. Market Estimates & Forecast, by Portability, 2019β2027
10.5.3. Market Estimates & Forecast, by Technology, 2019β2027
10.5.4. Market Estimates & Forecast, by Portability, 2019β2027
10.5.5. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.5.6. Market Estimates & Forecast, by Application, 2019β2027
10.5.7. Middle East & Africa
10.5.7.1. Market Estimates & Forecast, by Portability, 2019β2027
10.5.7.2. Market Estimates & Forecast, by Technology, 2019β2027
10.5.7.3. Market Estimates & Forecast, by Portability, 2019β2027
10.5.7.4. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.5.7.5. Market Estimates & Forecast, by Application, 2019β2027
10.5.8. South America
10.5.8.1. Market Estimates & Forecast, by Portability, 2019β2027
10.5.8.2. Market Estimates & Forecast, by Technology, 2019β2027
10.5.8.3. Market Estimates & Forecast, by Portability, 2019β2027
10.5.8.4. Market Estimates & Forecast, by Location of Sensors, 2019β2027
10.5.8.5. Market Estimates & Forecast, by Application, 2019β2027
11. Company Profiles
11.1. 3M Inc.
11.1.1. Company Overview
11.1.2. Product/Business Segment Overview
11.1.3. Financial Updates
11.1.4. Key Developments
11.1.5. SWOT Analysis
11.1.6. Key Strategies
11.2. Aeroqual
11.2.1. Company Overview
11.2.2. Product/Business Segment Overview
11.2.3. Financial Updates
11.2.4. Key Developments
11.2.5. SWOT Analysis
11.2.6. Key Strategies
11.3. Atlas Scientific Llc
11.3.1. Company Overview
11.3.2. Product/Business Segment Overview
11.3.3. Financial Updates
11.3.4. Key Developments
11.3.5. SWOT Analysis
11.3.6. Key Strategies
11.4. Building Automation Products, Inc.
11.4.1. Company Overview
11.4.2. Product/Business Segment Overview
11.4.3. Financial Updates
11.4.4. Key Developments
11.4.5. SWOT Analysis
11.4.6. Key Strategies
11.5. Dovelet Sensors
11.5.1. Company Overview
11.5.2. Product/Business Segment Overview
11.5.3. Financial Updates
11.5.4. Key Developments
11.5.5. SWOT Analysis
11.5.6. Key Strategies
11.6. Emerson Electric Co.
11.6.1. Company Overview
11.6.2. Product/Business Segment Overview
11.6.3. Financial Updates
11.6.4. Key Developments
11.6.5. SWOT Analysis
11.6.6. Key Strategies
11.7. ENViro Technology
11.7.1. Company Overview
11.7.2. Product/Business Segment Overview
11.7.3. Financial Updates
11.7.4. Key Developments
11.7.5. SWOT Analysis
11.7.6. Key Strategies
11.8. Figaro
11.8.1. Company Overview
11.8.2. Product/Business Segment Overview
11.8.3. Financial Updates
11.8.4. Key Developments
11.8.5. SWOT Analysis
11.8.6. Key Strategies
11.9. GE Measurement & Control
11.9.1. Company Overview
11.9.2. Product/Business Segment Overview
11.9.3. Financial Updates
11.9.4. Key Developments
11.9.5. SWOT Analysis
11.9.6. Key Strategies
11.10. Honeywell
11.10.1. Company Overview
11.10.2. Product/Business Segment Overview
11.10.3. Financial Updates
11.10.4. Key Developments
11.10.5. SWOT Analysis
11.10.6. Key Strategies
11.11. Horiba, Ltd.
11.11.1. Company Overview
11.11.2. Product/Business Segment Overview
11.11.3. Financial Updates
11.11.4. Key Developments
11.11.5. SWOT Analysis
11.11.6. Key Strategies
11.12. Oakton Instruments
11.12.1. Company Overview
11.12.2. Product/Business Segment Overview
11.12.3. Financial Updates
11.12.4. Key Developments
11.12.5. SWOT Analysis
11.12.6. Key Strategies
11.13. Ogam Technology
11.13.1. Company Overview
11.13.2. Product/Business Segment Overview
11.13.3. Financial Updates
11.13.4. Key Developments
11.13.5. SWOT Analysis
11.13.6. Key Strategies
11.14. Sgx Sensortech
11.14.1. Company Overview
11.14.2. Product/Business Segment Overview
11.14.3. Financial Updates
11.14.4. Key Developments
11.14.5. SWOT Analysis
11.14.6. Key Strategies
11.15. Siemens Ag
11.15.1. Company Overview
11.15.2. Product/Business Segment Overview
11.15.3. Financial Updates
11.15.4. Key Developments
11.15.5. SWOT Analysis
11.15.6. Key Strategies
11.16. Skyray Instrument
11.16.1. Company Overview
11.16.2. Product/Business Segment Overview
11.16.3. Financial Updates
11.16.4. Key Developments
11.16.5. SWOT Analysis
11.16.6. Key Strategies
11.17. Teledyne-Api
11.17.1. Company Overview
11.17.2. Product/Business Segment Overview
11.17.3. Financial Updates
11.17.4. Key Developments
11.17.5. SWOT Analysis
11.17.6. Key Strategies
11.18. Thermo Fisher Scientific
11.18.1. Company Overview
11.18.2. Product/Business Segment Overview
11.18.3. Financial Updates
11.18.4. Key Developments
11.18.5. SWOT Analysis
11.18.6. Key Strategies
11.19. Microjet Technology
11.19.1. Company Overview
11.19.2. Product/Business Segment Overview
11.19.3. Financial Updates
11.19.4. Key Developments
11.19.5. SWOT Analysis
11.19.6. Key Strategies
LIST OF TABLES
Table1 Global Air Quality Sensor Market, by Country, 2019-2027
Table2 North America: Air Quality Sensor Market, by Country, 2019β2027
Table3 Europe: Air Quality Sensor Market, by Country, 2019β2027
Table4 Asia-Pacific: Air Quality Sensor Market, by Country, 2019β2027
Table5 Rest of the World: Air Quality Sensor Market, by Country, 2019β2027
Table6 North America: Air Quality Sensor Market, by Country, 2019β2027
Table7 North America: Air Quality Sensor Market, by Type, 2019β2027
Table8 North America: Air Quality Sensor Market, by Technology, 2019β2027
Table9 North America: Air Quality Sensor Market, by Portability, 2019β2027
Table10 North America: Air Quality Sensor Market, by Location of Sensors, 2019β2027
Table11 North America: Air Quality Sensor Market, by Application, 2019β2027
Table12 Europe: Air Quality Sensor Market, by Country, 2019β2027
Table13 Europe: Air Quality Sensor Market, by Type, 2019β2027
Table14 Europe: Air Quality Sensor Market, by Technology, 2019β2027
Table15 Europe: Air Quality Sensor Market, by Portability, 2019β2027
Table16 Europe: Air Quality Sensor Market, by Location of Sensors, 2019β2027
Table17 Europe: Air Quality Sensor Market, by Application, 2019β2027
Table18 Asia-Pacific: Air Quality Sensor Market, by Country, 2019β2027
Table19 Asia-Pacific Air Quality Sensor Market, by Type, 2019β2027
Table20 Asia-Pacific: Air Quality Sensor Market, by Technology, 2019β2027
Table21 Asia-Pacific Air Quality Sensor Market, by Portability, 2019β2027
Table22 Asia-Pacific: Air Quality Sensor Market, by Location of Sensors, 2019β2027
Table23 Asia-Pacific: Air Quality Sensor Market, by Application, 2019β2027
Table24 Rest of the World: Air Quality Sensor Market, by Country, 2019β2027
Table25 Rest of the World: Air Quality Sensor Market, by Type, 2019β2027
Table26 Rest of the World: Air Quality Sensor Market, by Technology, 2019β2027
Table27 Rest of the World: Air Quality Sensor Market, by Portability, 2019β2027
Table28 Rest of the World: Air Quality Sensor Market, by Location of Sensors, 2019β2027
Table29 Rest of the World: Air Quality Sensor Market, by Application, 2019β2027
LIST OF FIGURES
Figure 1 Market Synopsis
Figure 2 Global Air Quality Sensor Market Segmentation
Figure 3 Forecast Methodology
Figure 4 Porterβs Five Forces Analysis of the Global Air Quality Sensor Market
Figure 5 Value Chain of the Global Air Quality Sensor Market
Figure 6 Share of the Global Air Quality Sensor Market in 2020, by country (in %)
Figure 7 Global Air Quality Sensor Market, 2019β2027
Figure 8 Share of the Global Air Quality Sensor Market by Industry, 2019β2027
Figure 9 Global Air Quality Sensor Market Size, by Type, 2019
Figure 10 Share of the Global Air Quality Sensor Market, by Type, 2019β2027
Figure 11 Global Air Quality Sensor Market Size, by Technology, 2019
Figure 12 Share of the Global Air Quality Sensor Market, by Technology, 2019β2027
Figure 13 Global Air Quality Sensor Market Size, by Portability, 2019
Figure 14 Share of the Global Air Quality Sensor Market, by Portability, 2019β2027
Figure 15 Global Air Quality Sensor Market Size, by Location of Sensors, 2019
Figure 16 Share of the Global Air Quality Sensor Market, by Location of Sensors, 2019β2027
Figure 17 Global Air Quality Sensor Market Size, by Application, 2019
Figure 18 Share of the Global Air Quality Sensor Market, by Application, 2019β2027
Research Methodology on Air Quality Sensors Market
1. Introduction
This research methodology intends to outline the methods of research independently undertaken by Market Research Future (MRFR), an independent research provider, to ascertain and analyze the current and future trends of the global Air Quality Sensor market. The market intelligence report delineates the market structure, technological advancements, and the presence of the key players in the market. The research is expected to provide a detailed insight into the market dynamics and demand for air quality sensors over the forecast period of 2023 to 2030.
2. Research Objective
The primary objective of this research report is to understand the current market trend and evaluate the past, present, and future growth prospects of the Air Quality Sensor Market. The research report also analyses trends in technology, innovation, consumers and product offerings from key players in the market.
3. Market Definition
Air quality sensors are used to detect the volatile organic compounds present in the air. As well as to measure the concentration of the amount of the material present in the atmosphere. They are used to detect a range of gases such as CO2, VOCs and other hazardous compounds. Air quality sensors are used in a variety of industries. The air quality sensors are used in the manufacturing of pharmaceuticals and in the military.
4. Research Methodology
This research project is conducted by using both primary and secondary data. The methodology adopted and methods employed such as structured interviews and a questionnaire survey have been described in detail below.
a) Interviews
Structured interviews are conducted with a range of experts in the air quality sensor industry. Participants are selected based on their expertise in the industry and their knowledge of the recent developments in the industry.
b) Questionnaire
A survey is conducted with a focus group of experts to assess respondentβs opinion on the Air Quality Sensor market. The survey is aimed at understanding key market insights, recent trends, and technological advancements. The survey questionnaire is administered online and produced qualified responses.
c) Data Collection
Data is collected from internal and external sources including, press releases, newspapers, news agency databases, industry associations, and journals. Secondary data is obtained from government organizations and industry-specific reports of companies and regulatory authorities. The primary data is gathered through questionnaire survey and telephonic interviews.
5. Research Assumptions
6. Conclusion
The research project is conducted in accordance with the research methodology previously outlined. The research aims to provide an understanding of the past, present, and future trends of the global Air Quality Sensor market over the period of 2023 to 2030. The data collected is subject to rigorous statistical veracity and checks, and is used to produce comprehensive and reliable estimates of the future market size and development. All research assumptions and limitations have been taken into account and have been addressed to the extent.