Single-use Bioprocessing Probes & Sensors Market (By Sensor Type: pH Sensor, Oxygen Sensor, Pressure Sensors, Temperature Sensors, Conductivity Sensors, Flow Meters & Sensors, Others; By Workflow: Upstream, Downstream; By End-use: Biopharmaceutical Manufacturer, OEM, Others) - Global Industry Analysis, Size, Share, Growth, Trends, Revenue, Regional Outlook 20212030

The global Single-use Bioprocessing Probes & Sensors market size is expected to be worth around US$ 10.10 billion by 2030, according to a new report by Vision Research Reports.

The global Single-use Bioprocessing Probes & Sensors market size was valued at US$ 5.47 billion in 2020 and is anticipated to grow at a CAGR of 20.5% during forecast period 2021 to 2030.

Growth Factors

The bioprocessing industry has witnessed a significant increase in the adoption of single-use systems, especially by biologic manufacturers over the past few years. Increasing implementation of disposables technologies, commercial advantages offered by disposable products, availability of improved bioprocess, and easy monitoring process for bioprocessing have boosted revenue growth for the market.

Large players as well as small to medium-sized players in the space are switching to the implementation of disposable bioprocessing equipment to meet the rising pressure on drug developers to cater to the consumer’s therapeutics demand. This is anticipated to increase the demand for suitable, better quality, and compatible products offered in this space for biopharmaceutical manufacturing, thus further propelling the revenue growth.

Expanding usage of disposable systems has resulted in lucrative growth for operating players. Key players are making focused efforts to boost their business presence. OEMs are collaborating with independent single-use suppliers to fill the technological gap. Some key OEMs are integrating disposable sensors in their equipment used for various applications, thereby accelerating the adoption of products in this space. The key players are engaged in collaboration with therapy developers to support their product development process.

Report Highlights

Being an integral part of a single-use container, pH sensors held the largest share of 20.8% in 2020. This is attributed to high product penetration as well as usage rate. Technological advancements in this sensor type, such as the development of pH sensors with in-built temperature sensors, are expected to drive the segment. Furthermore, the measurement of Dissolved Oxygen (DO) is one of the most monitored physicochemical parameters in bioprocessing engineering.

The development of disposable sensors that enable users to measure DO separately has driven the segment. The presence of companies like Finesse; Hamilton Company; Polestar Technologies; Eppendorf AG; Scientific Industries, Inc.; and Applikon Biotechnology, Inc., which are engaged in manufacturing and marketing of disposable sensors to measure DO, has contributed to the significant growth of this segment.

Over the past years, a number of developments have been made in flowmeter technology to address the issues, such as incorrect flowmeter installation and material incompatibility, resulting in the lucrative growth of the segment. Among all the flowmeters, Coriolis technology delivers the highest level of accuracy and precision and this technology is least affected by the changes in viscosity and conductivity.

Upstream processing dominated the market with a revenue share of 75.9% in 2020. The adoption of single-use bioreactors and media bags by bio manufacturers in the upstream manufacturing process has significantly increased the usage of sensors in this segment. An effective upstream process generally relies on the identification of Critical Process Parameters (CPPs) and the utilization of a bioreactor type, which can provide good control over CPPs.

In an upstream process, CPPs that are generally monitored include temperature, Dissolved Oxygen (DO), and pH. In addition, other factors such as culture viability, viable-cell density, nutrient levels, specific growth rate, and other measurable parameters are considered as CPPs. On the other hand, although single-use technologies have gained significant ground in biomanufacturing, the biggest challenges still lie in separation and purification.

In downstream processing, the affinity capture step and the polishing/purification are recognized as intensive and costly. Overall, less penetration of single-use systems in downstream processes resulted in less revenue share of this segment. However, with constant attempts by operating players to expand the use of disposables in the downstream process, this segment is expected to witness considerable growth in the coming years.

Biopharmaceutical manufacturers accounted for the largest revenue share of 57.10% in 2020 as they are the key end-users of this market. Constant new product developments and accelerated adoption of disposables among contract service providers as well as in-house bio manufacturers to meet the growing global demand for efficiently are among the major factors fueling the segment growth.

Several contract service providers are engaged in the expansion of their manufacturing facilities by installing single-use instruments at their plants. For instance, WuXi Biologics, a CDMO and part of WuXi AppTech, is proactively expanding its biomanufacturing capacity with several investments over the course of the past year in single-use technology.

OEMs such as Sartorius Stedim Biotech and GE Healthcare are at the forefront in innovation for single-use assemblies using products from independent suppliers. Suppliers like PendoTECH are involved in selling a substantial volume of their sensors and monitors to OEMs for GMP production, pilot and toxicology studies, and clinical batches. New product launches by independent suppliers directly benefit the OEMS, thus boosting the growth of this segment.

North America accounted for the largest revenue share of nearly 34.02% in 2020. The U.S. market is home to most of the biopharmaceutical manufacturers, such as CMC Biologics; FUJIFILM Diosynth Biotechnologies U.S.A., Inc.; Amgen; DPx Holdings; and AbbVie, Inc. In addition, the ancillary steps associated with bioprocessing, such as viral vector manufacturing, are undertaken by a substantial number of players that are headquartered in North America.

Asia Pacific is expected to expand at the fastest CAGR throughout the forecast period owing to the recognition of Asian countries as the hub for biopharmaceutical outsourcing. Growing markets such as China and India significantly increase the revenue generation in the region. Moreover, the incorporation of disposable products by Asia-based bio manufacturers from key global suppliers in their cGMP biomanufacturing facility is fueling regional growth.

Key Players

  • Thermo Fisher Scientific Inc.
  • PendoTECH LLC
  • Polestar Technologies Inc.
  • Sartorius AG
  • Hamilton Company
  • Parker Hannifin Corporation

Market Segmentation

  • Sensor Type Outlook
    • pH Sensor
    • Oxygen Sensor
    • Pressure Sensors
    • Temperature Sensors
    • Conductivity Sensors
    • Flow Meters & Sensors
    • Others
  • Workflow Outlook 
    • Upstream
    • Downstream
  • End-use Outlook 
    • Biopharmaceutical Manufacturer
      • CMOs & CROs
      • In-house Manufacturer
    • OEM
    • Others
  • Regional Outlook 
    • North America
      • U.S.
      • Canada
    • Europe
      • Germany
      • U.K.
      • France
      • Italy
      • Spain
    • Asia Pacific
      • Japan
      • China
      • India
      • Australia
      • South Korea
    • Latin America
      • Brazil
      • Mexico
    • Middle East Africa (MEA)
      • South Africa
      • Saudi Arabia

The Single-use Bioprocessing Probes & Sensors market research report covers definition, classification, product classification, product application, development trend, product technology, competitive landscape, industrial chain structure, industry overview, national policy and planning analysis of the industry, the latest dynamic analysis, etc., and also includes major. The study includes drivers and restraints of the global market. It covers the impact of these drivers and restraints on the demand during the forecast period. The report also highlights opportunities in the market at the global level.

The report provides size (in terms of volume and value) of Single-use Bioprocessing Probes & Sensors market for the base year 2020 and the forecast between 2021 and 2030. Market numbers have been estimated based on form and application. Market size and forecast for each application segment have been provided for the global and regional market.

This report focuses on the global Single-use Bioprocessing Probes & Sensors market status, future forecast, growth opportunity, key market and key players. The study objectives are to present the Single-use Bioprocessing Probes & Sensors market development in United States, Europe and China.

It is pertinent to consider that in a volatile global economy, we haven’t just conducted Single-use Bioprocessing Probes & Sensors market forecasts in terms of CAGR, but also studied the market based on key parameters, including Year-on-Year (Y-o-Y) growth, to comprehend the certainty of the market and to find and present the lucrative opportunities in market.

In terms of production side, this report researches the Single-use Bioprocessing Probes & Sensors capacity, production, value, ex-factory price, growth rate, market share for major manufacturers, regions (or countries) and type.

In terms of consumption side, this report focuses on the consumption of Single-use Bioprocessing Probes & Sensors by regions (countries) and application.

Buyers of the report will have access to verified market figures, including global market size in terms of revenue and volume. As part of production analysis, the authors of the report have provided reliable estimations and calculations for global revenue and volume by Type segment of the global Single-use Bioprocessing Probes & Sensors market. These figures have been provided in terms of both revenue and volume for the period 2017 to 2030. Additionally, the report provides accurate figures for production by region in terms of revenue as well as volume for the same period. The report also includes production capacity statistics for the same period.

With regard to production bases and technologies, the research in this report covers the production time, base distribution, technical parameters, research and development trends, technology sources, and sources of raw materials of major Single-use Bioprocessing Probes & Sensors market companies.

Regarding the analysis of the industry chain, the research of this report covers the raw materials and equipment of Single-use Bioprocessing Probes & Sensors market upstream, downstream customers, marketing channels, industry development trends and investment strategy recommendations. The more specific analysis also includes the main application areas of market and consumption, major regions and Consumption, major Chinese producers, distributors, raw material suppliers, equipment providers and their contact information, industry chain relationship analysis.

The research in this report also includes product parameters, production process, cost structure, and data information classified by region, technology and application. Finally, the paper model new project SWOT analysis and investment feasibility study of the case model.

Overall, this is an in-depth research report specifically for the Single-use Bioprocessing Probes & Sensors industry. The research center uses an objective and fair way to conduct an in-depth analysis of the development trend of the industry, providing support and evidence for customer competition analysis, development planning, and investment decision-making. In the course of operation, the project has received support and assistance from technicians and marketing personnel in various links of the industry chain.

The Single-use Bioprocessing Probes & Sensors market competitive landscape provides details by competitor. Details included are company overview, company financials, revenue generated, market potential, investment in research and development, new market initiatives, global presence, production sites and facilities, production capacities, company strengths and weaknesses, product launch, product width and breadth, application dominance. The above data points provided are only related to the companies’ focus related to Single-use Bioprocessing Probes & Sensors market.

Prominent players in the market are predicted to face tough competition from the new entrants. However, some of the key players are targeting to acquire the startup companies in order to maintain their dominance in the global market. For a detailed analysis of key companies, their strengths, weaknesses, threats, and opportunities are measured in the report by using industry-standard tools such as the SWOT analysis. Regional coverage of key companies is covered in the report to measure their dominance. Key manufacturers of Single-use Bioprocessing Probes & Sensors market are focusing on introducing new products to meet the needs of the patrons. The feasibility of new products is also measured by using industry-standard tools.

Key companies are increasing their investments in research and development activities for the discovery of new products. There has also been a rise in the government funding for the introduction of new Single-use Bioprocessing Probes & Sensors market. These factors have benefited the growth of the global market for Single-use Bioprocessing Probes & Sensors. Going forward, key companies are predicted to benefit from the new product launches and the adoption of technological advancements. Technical advancements have benefited many industries and the global industry is not an exception.

New product launches and the expansion of already existing business are predicted to benefit the key players in maintaining their dominance in the global market for Single-use Bioprocessing Probes & Sensors. The global market is segmented on the basis of region, application, en-users and product type. Based on region, the market is divided into North America, Europe, Asia-Pacific, Latin America and Middle East and Africa (MEA).

In this study, the years considered to estimate the market size of Single-use Bioprocessing Probes & Sensors are as follows:

  • Historic Year: 2017-2020
  • Base Year: 2020
  • Forecast Year 2021 to 2030

Reasons to Purchase this Report:

- Market segmentation analysis including qualitative and quantitative research incorporating the impact of economic and policy aspects
- Regional and country level analysis integrating the demand and supply forces that are influencing the growth of the market.
- Market value USD Million and volume Units Million data for each segment and sub-segment
- Competitive landscape involving the market share of major players, along with the new projects and strategies adopted by players in the past five years
- Comprehensive company profiles covering the product offerings, key financial information, recent developments, SWOT analysis, and strategies employed by the major market players

Research Methodology:

In-depth interviews and discussions were conducted with several key market participants and opinion leaders to compile the research report.

This research study involved the extensive usage of both primary and secondary data sources. The research process involved the study of various factors affecting the industry, including the government policy, market environment, competitive landscape, historical data, present trends in the market, technological innovation, upcoming technologies and the technical progress in related industry, and market risks, opportunities, market barriers and challenges. The following illustrative figure shows the market research methodology applied in this report.

Market Size Estimation

Top-down and bottom-up approaches are used to estimate and validate the global market size for company, regional division, product type and application (end users).

The market estimations in this report are based on the selling price (excluding any discounts provided by the manufacturer, distributor, wholesaler or traders). Market share analysis, assigned to each of the segments and regions are achieved through product utilization rate and average selling price.

Major manufacturers & their revenues, percentage splits, market shares, growth rates and breakdowns of the product markets are determined through secondary sources and verified through the primary sources.

All possible factors that influence the markets included in this research study have been accounted for, viewed in extensive detail, verified through primary research, and analyzed to get the final quantitative and qualitative data. The market size for top-level markets and sub-segments is normalized, and the effect of inflation, economic downturns, and regulatory & policy changes or others factors are accounted for in the market forecast. This data is combined and added with detailed inputs and analysis from Vision Research Reports and presented in this report.

Market Breakdown and Data Triangulation

After complete market engineering with calculations for market statistics; market size estimations; market forecasting; market breakdown; and data triangulation. Extensive primary research was conducted to gather information and verify and validate the critical numbers arrived at. In the complete market engineering process, both top-down and bottom-up approaches were extensively used, along with several data triangulation methods, to perform market estimation and market forecasting for the overall market segments and sub-segments listed in this report.

Secondary Sources

Secondary Sources occupies approximately 25% of data sources, such as press releases, annual reports, Non-Profit organizations, industry associations, governmental agencies and customs data, and so on. This research study includes secondary sources; directories; databases such as Bloomberg Business, Wind Info, Hoovers, Factiva (Dow Jones & Company), TRADING ECONOMICS, and avention; Investing News Network; statista; Federal Reserve Economic Data; annual reports; investor presentations; and SEC filings of companies.

Primary Sources

 In the primary research process, various sources from both the supply and demand sides were interviewed to obtain qualitative and quantitative information for this report. The primary sources from the supply side include product manufacturers (and their competitors), opinion leaders, industry experts, research institutions, distributors, dealer and traders, as well as the raw materials suppliers and producers, etc.

The primary sources from the demand side include industry experts such as business leaders, marketing and sales directors, technology and innovation directors, supply chain executive, end users (product buyers), and related key executives from various key companies and organizations operating in the global market.

The study objectives of this report are:

  • To analyze and study the global market capacity, production, value, consumption, status (2017-2020) and forecast (2021-2030);
  • Focuses on the key manufacturers, to study the capacity, production, value, market share and development plans in future.
  • Comprehensive company profiles covering the product offerings, key financial information, recent developments, SWOT analysis, and strategies employed by the major market players
  • To define, describe and forecast the market by type, application and region.
  • To analyze the global and key regions market potential and advantage, opportunity and challenge, restraints and risks.
  • To identify significant trends and factors driving or inhibiting the market growth.
  • To analyze the opportunities in the market for stakeholders by identifying the high growth segments.
  • To strategically analyze each submarket with respect to individual growth trend and their contribution to the market
  • To analyze competitive developments such as expansions, agreements, new product launches, and acquisitions in the market
  • To strategically profile the key players and comprehensively analyze their growth strategies.

Chapter 1.  Introduction

1.1.  Research Objective

1.2.  Scope of the Study

1.3.  Definition

Chapter 2.  Research Methodology

2.1.  Research Approach

2.2.  Data Sources

2.3.  Assumptions & Limitations

Chapter 3.  Executive Summary

3.1.  Market Snapshot

Chapter 4.  Market Variables and Scope

4.1.  Introduction

4.2.  Market Classification and Scope

4.3.  Industry Value Chain Analysis

4.3.1.    Raw Material Procurement Analysis

4.3.2.    Sales and Distribution Channel Analysis

4.3.3.    Downstream Buyer Analysis

Chapter 5.  Market Dynamics Analysis and Trends

5.1.  Market Dynamics

5.1.1.    Market Drivers

5.1.2.    Market Restraints

5.1.3.    Market Opportunities

5.2.  Porter’s Five Forces Analysis

5.2.1.    Bargaining power of suppliers

5.2.2.    Bargaining power of buyers

5.2.3.    Threat of substitute

5.2.4.    Threat of new entrants

5.2.5.    Degree of competition

Chapter 6.  Competitive Landscape

6.1.1.    Company Market Share/Positioning Analysis

6.1.2.    Key Strategies Adopted by Players

6.1.3.    Vendor Landscape

6.1.3.1.        List of Suppliers

6.1.3.2.        List of Buyers

Chapter 7.  Global Single-use Bioprocessing Market, By Product

7.1.  Single-use Bioprocessing Market, By Product Type, 2020-2030

7.1.1.    Simple & Peripheral Elements

7.1.1.1.        Market Revenue and Forecast (2016-2030)

7.1.2.    Apparatus & Plants

7.1.2.1.        Market Revenue and Forecast (2016-2030)

7.1.3.    Work Equipment

7.1.3.1.        Market Revenue and Forecast (2016-2030)

Chapter 8.  Global Single-use Bioprocessing Market, By Workflow

8.1.  Single-use Bioprocessing Market, By Workflow, 2020-2030

8.1.1.    Upstream

8.1.1.1.        Market Revenue and Forecast (2016-2030)

8.1.2.    Fermentation

8.1.2.1.        Market Revenue and Forecast (2016-2030)

8.1.3.    Downstream

8.1.3.1.        Market Revenue and Forecast (2016-2030)

Chapter 9.  Global Single-use Bioprocessing Market, By End-use

9.1.  Single-use Bioprocessing Market, By End-use, 2020-2030

9.1.1.    Biopharmaceutical Manufacturer

9.1.1.1.        Market Revenue and Forecast (2016-2030)

9.1.2.    Academic & Clinical Research Institutes

9.1.2.1.        Market Revenue and Forecast (2016-2030)

Chapter 10.      Global Single-use Bioprocessing Market, Regional Estimates and Trend Forecast

10.1.        North America

10.1.1.  Market Revenue and Forecast, By Product (2016-2030)

10.1.2.  Market Revenue and Forecast, By Workflow (2016-2030)

10.1.3.  Market Revenue and Forecast, By End-use (2016-2030)

10.1.4.  U.S.

10.1.4.1.      Market Revenue and Forecast, By Product (2016-2030)

10.1.4.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.1.4.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.1.5.  Rest of North America

10.1.5.1.      Market Revenue and Forecast, By Product (2016-2030)

10.1.5.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.1.5.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.2.        Europe

10.2.1.  Market Revenue and Forecast, By Product (2016-2030)

10.2.2.  Market Revenue and Forecast, By Workflow (2016-2030)

10.2.3.  Market Revenue and Forecast, By End-use (2016-2030)

10.2.4.  UK

10.2.4.1.      Market Revenue and Forecast, By Product (2016-2030)

10.2.4.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.2.4.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.2.5.  Germany

10.2.5.1.      Market Revenue and Forecast, By Product (2016-2030)

10.2.5.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.2.5.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.2.6.  France

10.2.6.1.      Market Revenue and Forecast, By Product (2016-2030)

10.2.6.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.2.6.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.2.7.  Rest of Europe

10.2.7.1.      Market Revenue and Forecast, By Product (2016-2030)

10.2.7.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.2.7.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.3.        APAC

10.3.1.  Market Revenue and Forecast, By Product (2016-2030)

10.3.2.  Market Revenue and Forecast, By Workflow (2016-2030)

10.3.3.  Market Revenue and Forecast, By End-use (2016-2030)

10.3.4.  India

10.3.4.1.      Market Revenue and Forecast, By Product (2016-2030)

10.3.4.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.3.4.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.3.5.  China

10.3.5.1.      Market Revenue and Forecast, By Product (2016-2030)

10.3.5.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.3.5.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.3.6.  Japan

10.3.6.1.      Market Revenue and Forecast, By Product (2016-2030)

10.3.6.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.3.6.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.3.7.  Rest of APAC

10.3.7.1.      Market Revenue and Forecast, By Product (2016-2030)

10.3.7.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.3.7.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.4.        MEA

10.4.1.  Market Revenue and Forecast, By Product (2016-2030)

10.4.2.  Market Revenue and Forecast, By Workflow (2016-2030)

10.4.3.  Market Revenue and Forecast, By End-use (2016-2030)

10.4.4.  GCC

10.4.4.1.      Market Revenue and Forecast, By Product (2016-2030)

10.4.4.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.4.4.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.4.5.  North Africa

10.4.5.1.      Market Revenue and Forecast, By Product (2016-2030)

10.4.5.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.4.5.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.4.6.  South Africa

10.4.6.1.      Market Revenue and Forecast, By Product (2016-2030)

10.4.6.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.4.6.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.4.7.  Rest of MEA

10.4.7.1.      Market Revenue and Forecast, By Product (2016-2030)

10.4.7.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.4.7.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.5.        Latin America

10.5.1.  Market Revenue and Forecast, By Product (2016-2030)

10.5.2.  Market Revenue and Forecast, By Workflow (2016-2030)

10.5.3.  Market Revenue and Forecast, By End-use (2016-2030)

10.5.4.  Brazil

10.5.4.1.      Market Revenue and Forecast, By Product (2016-2030)

10.5.4.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.5.4.3.      Market Revenue and Forecast, By End-use (2016-2030)

10.5.5.  Rest of LATAM

10.5.5.1.      Market Revenue and Forecast, By Product (2016-2030)

10.5.5.2.      Market Revenue and Forecast, By Workflow (2016-2030)

10.5.5.3.      Market Revenue and Forecast, By End-use (2016-2030)

Chapter 11.  Company Profiles

11.1.              GE Healthcare

11.1.1.  Company Overview

11.1.2.  Product Offerings

11.1.3.  Financial Performance

11.1.4.  Recent Initiatives

11.2.              Sartorius AG

11.2.1.  Company Overview

11.2.2.  Product Offerings

11.2.3.  Financial Performance

11.2.4.  Recent Initiatives

11.3.              Lonza

11.3.1.  Company Overview

11.3.2.  Product Offerings

11.3.3.  Financial Performance

11.3.4.  Recent Initiatives

11.4.              Eppendorf AG

11.4.1.  Company Overview

11.4.2.  Product Offerings

11.4.3.  Financial Performance

11.4.4.  Recent Initiatives

Chapter 12.  Research Methodology

12.1.              Primary Research

12.2.              Secondary Research

12.3.              Assumptions

Chapter 13.  Appendix

13.1.              About Us

Glossary of Terms

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