Automated Sample Storage Systems Market Size and Growth Prospects 2021 – 2027

Latest Study on “Automated Sample Storage Systems Market Size, Share, Trends, Growth, Production, Consumption, Revenue, Company Analysis and Forecast 2021-2027”.

The global Automated Sample Storage Systems market size is expected to be worth around US$ 2.9 Billion by 2027, according to a new report by nova one advisor.

The global Automated Sample Storage Systems market size was valued at US$  1.0 Billion in 2020  and is anticipated to grow at a CAGR of 16.1% during forecast period 2021 to 2027.

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Report Coverage

Report Scope Details
Market Size USD 2.9 Billion by 2027
Growth Rate CAR 16.1% From 2021 to 2027
Base Year 2020
Forecast Period 2021 to 2027
Largest Market North America
Fastest Growing Market Asia Pacific
Segments  Covered Product Type, Application, Capacity, End User and Region
Report coverage Growth Factors, Revenue Status, Competitive Landscape, and Future Trends
Companies Mentioned  TTP LabTech, Thermo Fisher Scientific, Inc., Angelantoni Life Science, LiCONiC AG, Panasonic Healthcare Co., Ltd., Biotron Healthcare, Haier BioMedical (Haier Group), ASKION, and Tsubakimoto Chain Co.

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Automated sample storage systems are computer controlled storage devices used for the preservation of samples such as chemical compounds and biological samples. These systems help laboratory facilities store and retrieve samples efficiently as and when required. The sample storage systems vary from manually controlled, relatively simple and small storage operating devices to large computer controlled automated storage devices. Automated sample storage systems help reduce labor costs and lower essential workforce requirements, improving workplace safety and taking personnel out from difficult working conditions such as cold storage environments.

These systems also help in improving space utilization and increasing storage density, both horizontally and vertically. Nowadays, long-term automated sample storage systems are a requirement for almost every research laboratory. Therefore, this sector has raised the opportunity for business investment. A large number of samples can be stored at individual biobanks with the help of automated sample storage systems, instead of installing devices in separate institutes at the regional and national levels.

The relentless extension of the worldwide pharmaceuticals division in the previous barely any years has essentially helped the worldwide automated sample storage market gain momentum. Request from the part represents a huge offer in the income of the general market and an expanding number of pharma organizations are moving to robotized arrangements in order to help their throughput and cut down the quantity of mistakes that are acquired because of manual treatment of basic examples. This situation is probably going to stay one of the key drivers of the market over the report’s estimate time frame also.

Moreover, the market is likewise profiting by the expanded help of government bodies towards the mechanization of biobanks. The use of computerization instruments in biobanks can prompt advantages, for example, decrease in mistakes displayed through manual treatment of tests, protection of test trustworthiness, and vitality and cost reserve funds.

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COVID-19 Impact on Automated Sample Storage Systems Sales

Businesses today are operating in a dynamic environment. Earlier focus primarily concentrated on keeping pace with changing consumer preferences. COVID-19 outbreak was unprecedented and exposed vulnerabilities of various industries. Pandemic-induces obstacles also were registered in the Automated Sample Storage Systems market.

Sales plummeted as COVID-19 gradually tightened its noose worldwide. Supply-chain disruptions caused massive losses, while demand took nose-dive as consumers remained indoors with affected countries implementing either partial or complete lockdown.

Gradual recovery however is on the cards with the roll out of vaccinations. Nonetheless, consecutive waves of the virus compelled businesses to stay prepared for the worst. As government and healthcare organizations successfully implement steps to contain the spread of COVID-19, industries have begun operations, albeit at a slow and more cautious pace.

Against this backdrop, Nova one advisor’s study predicts gradual recovery for the Automated Sample Storage Systems market 2021 onwards. This trend will however continue through the course of the report’s assessment period

Companies and Manufacturers Covered

The study covers key players operating in the market along with prime schemes and strategies implemented by each player to hold high positions in the industry. Such a tough vendor landscape provides a competitive outlook of the industry, consequently existing as a key insight. These insights were thoroughly analyzed and prime business strategies and products that offer high revenue generation capacities were indentified. Key players of the global Automated Sample Storage Systems market are included as given below:

Some of the prominent players in the Automated Sample Storage Systems market include:

TTP LabTech, Thermo Fisher Scientific, Inc., Angelantoni Life Science, LiCONiC AG, Panasonic Healthcare Co., Ltd., Biotron Healthcare, Haier BioMedical (Haier Group), ASKION, and Tsubakimoto Chain Co.

Unravelling the Critical Segments

This research report offers market revenue, sales volume, production assessment and prognoses by classifying it on the basis of various aspects including product type, application/end-user, and region. Further, this research study investigates market size, production, consumption and its development trends at global, regional, and country level for period 2017 to 2027 and covers subsequent region in its scope:

  • By Product Type
    • System Unit
    • Reagents & Consumables
  • By Application
    • Biological Sample Storage
    • Compound Storage
  • By Capacity
    • Less Than 100K Samples
    • 100K – 500K Samples
    • 500K – 2M Samples
    • More Than 2M Samples
  • By End User
    • Pharma & Biotech Companies
    • Academic Research Labs
    • Private Biobanks

Why should you invest in this report?

If you are aiming to enter the global Automated Sample Storage Systems market, this report is a comprehensive guide that provides crystal clear insights into this niche market. All the major application areas for Automated Sample Storage Systems are covered in this report and information is given on the important regions of the world where this market is likely to boom during the forecast period of 2021-2027 so that you can plan your strategies to enter this market accordingly.

Besides, through this report, you can have a complete grasp of the level of competition you will be facing in this hugely competitive market and if you are an established player in this market already, this report will help you gauge the strategies that your competitors have adopted to stay as market leaders in this market. For new entrants to this market, the voluminous data provided in this report is invaluable.

Table Of Content

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  Automated Sample Storage Systems Market, By Product Type

7.1.   Automated Sample Storage Systems  Market, By Product Type, 2021-2027

7.1.1.     System Unit

7.1.1.1.          Market Revenue and Forecast (2016-2027)

7.1.2.     Reagents & Consumables

7.1.2.1.          Market Revenue and Forecast (2016-2027)

Chapter 8.    Global  Automated Sample Storage Systems Market, By Application

8.1.   Automated Sample Storage Systems  Market, By Application, 2021-2027

8.1.1.     Biological Sample Storage

8.1.1.1.          Market Revenue and Forecast (2016-2027)

8.1.2.     Compound Storage

8.1.2.1.          Market Revenue and Forecast (2016-2027)

Chapter 9.    Global  Automated Sample Storage Systems Market, By Capacity

9.1.   Automated Sample Storage Systems  Market, By Capacity, 2021-2027

9.1.1.     Less Than 100K Samples

9.1.1.1.          Market Revenue and Forecast (2016-2027)

9.1.2.     100K – 500K Samples

9.1.2.1.          Market Revenue and Forecast (2016-2027)

9.1.3.     500K – 2M Samples

9.1.3.1.          Market Revenue and Forecast (2016-2027)

9.1.4.     More Than 2M Samples

9.1.4.1.          Market Revenue and Forecast (2016-2027)

Chapter 10.Global  Automated Sample Storage Systems Market, By End User

10.1.           Automated Sample Storage Systems  Market, By End User, 2021-2027

10.1.1.  Pharma & Biotech Companies

10.1.1.1.       Market Revenue and Forecast (2016-2027)

10.1.2.  Academic Research Labs

10.1.2.1.       Market Revenue and Forecast (2016-2027)

10.1.3.  Private Biobanks

10.1.3.1.       Market Revenue and Forecast (2016-2027)

Chapter 11.Global  Automated Sample Storage Systems  Market, Regional Estimates and Trend Forecast

11.1.          North America

11.1.1.  Market Revenue and Forecast, By Product Type (2016-2027)

11.1.2.  Market Revenue and Forecast, By Application (2016-2027)

11.1.3.  Market Revenue and Forecast, By Capacity (2016-2027)

11.1.4.  Market Revenue and Forecast, By End User (2016-2027)

11.1.5.  U.S.

11.1.5.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.1.5.2.       Market Revenue and Forecast, By Application (2016-2027)

11.1.5.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.1.5.4.       Market Revenue and Forecast, By End User (2016-2027)

11.1.6.  Rest of North America

11.1.6.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.1.6.2.       Market Revenue and Forecast, By Application (2016-2027)

11.1.6.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.1.6.4.       Market Revenue and Forecast, By End User (2016-2027)

11.2.          Europe

11.2.1.  Market Revenue and Forecast, By Product Type (2016-2027)

11.2.2.  Market Revenue and Forecast, By Application (2016-2027)

11.2.3.  Market Revenue and Forecast, By Capacity (2016-2027)

11.2.4.  Market Revenue and Forecast, By End User (2016-2027)

11.2.5.  UK

11.2.5.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.2.5.2.       Market Revenue and Forecast, By Application (2016-2027)

11.2.5.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.2.5.4.       Market Revenue and Forecast, By End User (2016-2027)

11.2.6.  Germany

11.2.6.1.       Market Revenue and Forecast, By Product Type(2016-2027)

11.2.6.2.       Market Revenue and Forecast, By Application (2016-2027)

11.2.6.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.2.6.4.       Market Revenue and Forecast, By End User (2016-2027)

11.2.7.  France

11.2.7.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.2.7.2.       Market Revenue and Forecast, By Application (2016-2027)

11.2.7.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.2.7.4.       Market Revenue and Forecast, By End User (2016-2027)

11.2.8.  Rest of Europe

11.2.8.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.2.8.2.       Market Revenue and Forecast, By Application (2016-2027)

11.2.8.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.2.8.4.       Market Revenue and Forecast, By End User (2016-2027)

11.3.          APAC

11.3.1.  Market Revenue and Forecast, By Product Type (2016-2027)

11.3.2.  Market Revenue and Forecast, By Application (2016-2027)

11.3.3.  Market Revenue and Forecast, By Capacity (2016-2027)

11.3.4.  Market Revenue and Forecast, By End User (2016-2027)

11.3.5.  India

11.3.5.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.3.5.2.       Market Revenue and Forecast, By Application (2016-2027)

11.3.5.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.3.5.4.       Market Revenue and Forecast, By End User (2016-2027)

11.3.6.  China

11.3.6.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.3.6.2.       Market Revenue and Forecast, By Application (2016-2027)

11.3.6.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.3.6.4.       Market Revenue and Forecast, By End User (2016-2027)

11.3.7.  Japan

11.3.7.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.3.7.2.       Market Revenue and Forecast, By Application (2016-2027)

11.3.7.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.3.7.4.       Market Revenue and Forecast, By End User (2016-2027)

11.3.8.  Rest of APAC

11.3.8.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.3.8.2.       Market Revenue and Forecast, By Application (2016-2027)

11.3.8.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.3.8.4.       Market Revenue and Forecast, By End User (2016-2027)

11.4.          MEA

11.4.1.  Market Revenue and Forecast, By Product Type (2016-2027)

11.4.2.  Market Revenue and Forecast, By Application (2016-2027)

11.4.3.  Market Revenue and Forecast, By Capacity (2016-2027)

11.4.4.  Market Revenue and Forecast, By End User (2016-2027)

11.4.5.  GCC

11.4.5.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.4.5.2.       Market Revenue and Forecast, By Application (2016-2027)

11.4.5.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.4.5.4.       Market Revenue and Forecast, By End User (2016-2027)

11.4.6.  North Africa

11.4.6.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.4.6.2.       Market Revenue and Forecast, By Application (2016-2027)

11.4.6.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.4.6.4.       Market Revenue and Forecast, By End User (2016-2027)

11.4.7.  South Africa

11.4.7.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.4.7.2.       Market Revenue and Forecast, By Application (2016-2027)

11.4.7.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.4.7.4.       Market Revenue and Forecast, By End User (2016-2027)

11.4.8.  Rest of MEA

11.4.8.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.4.8.2.       Market Revenue and Forecast, By Application (2016-2027)

11.4.8.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.4.8.4.       Market Revenue and Forecast, By End User (2016-2027)

11.5.          Latin America

11.5.1.  Market Revenue and Forecast, By Product Type (2016-2027)

11.5.2.  Market Revenue and Forecast, By Application (2016-2027)

11.5.3.  Market Revenue and Forecast, By Capacity (2016-2027)

11.5.4.  Market Revenue and Forecast, By End User (2016-2027)

11.5.5.  Brazil

11.5.5.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.5.5.2.       Market Revenue and Forecast, By Application (2016-2027)

11.5.5.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.5.5.4.       Market Revenue and Forecast, By End User (2016-2027)

11.5.6.  Rest of LATAM

11.5.6.1.       Market Revenue and Forecast, By Product Type (2016-2027)

11.5.6.2.       Market Revenue and Forecast, By Application (2016-2027)

11.5.6.3.       Market Revenue and Forecast, By Capacity (2016-2027)

11.5.6.4.       Market Revenue and Forecast, By End User (2016-2027)

Chapter 12.   Company Profiles

12.1.                 TTP LabTech

12.1.1.  Company Overview

12.1.2.  Product Offerings

12.1.3.  Financial Performance

12.1.4.  Recent Initiatives

12.2.                 Thermo Fisher Scientific, Inc

12.2.1.  Company Overview

12.2.2.  Product Offerings

12.2.3.  Financial Performance

12.2.4.  Recent Initiatives

12.3.                 Angelantoni Life Science

12.3.1.  Company Overview

12.3.2.  Product Offerings

12.3.3.  Financial Performance

12.3.4.  Recent Initiatives

12.4.                 LiCONiC AG

12.4.1.  Company Overview

12.4.2.  Product Offerings

12.4.3.  Financial Performance

12.4.4.  Recent Initiatives

12.5.                 Panasonic Healthcare Co., Ltd.

12.5.1.  Company Overview

12.5.2.  Product Offerings

12.5.3.  Financial Performance

12.5.4.  Recent Initiatives

12.6.                 Biotron Healthcare

12.6.1.  Company Overview

12.6.2.  Product Offerings

12.6.3.  Financial Performance

12.6.4.  Recent Initiatives

12.7.                 Haier BioMedical (Haier Group)

12.7.1.  Company Overview

12.7.2.  Product Offerings

12.7.3.  Financial Performance

12.7.4.  Recent Initiatives

12.8.                 ASKION, and Tsubakimoto Chain Co.

12.8.1.  Company Overview

12.8.2.  Product Offerings

12.8.3.  Financial Performance

12.8.4.  Recent Initiatives

Chapter 13.   Research Methodology

13.1.                 Primary Research

13.2.                 Secondary Research

13.3.                 Assumptions

Chapter 14.   Appendix

14.1.                 About Us

14.2.                 Glossary of Terms

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