Global Nanorobotics Market Analysis–Trends, Insights and Forecasts (2021-2027)

  • Publish Date
    March 21, 2022
  • No of Pages
    330
  • SKU Code
    GIR 8050
  • Format

Global Nanorobotics market – Overview

  • The report will cover the overall analysis and insights in relation to the size and growth rate of the “Global Nanorobotics market ” by various segments at a global and regional level for the 2014-2027 period, with 2014-2019 as historical data, 2020 as a base year, 2021 as an estimated year and 2021-2027 as forecast period.

Global Nanorobotics market – Introduction

  • Nanorobotics is an evolving technology arena that creates robots or machines which have components near to the scale of a nanometre (10−9 meters). Nanorobotics denotes the nanotechnology engineering discipline of planning, designing, and building nanorobots, primarily from molecular components. Nanorobotics is an attractive new field, especially in medicine, which focuses on directed drug delivery using nanoscale molecular machines.
  • Nanomanipulators are the first nanorobotics systems that are capable of nanopositioning. Nanomanipulators were first used in physics and chemistry fields as robotics are involved in the nanomanipulation for the development of several nanomanipulation systems.

Report Includes

  • The report provides a basic overview of the industry including definitions, classifications and industry chain structure.
  • Company profiles of leading market participants dealing in products category.
  • Description of properties and manufacturing processes.
  • To analyze and forecast the market size in terms of volume and value
  • Discussion of the current state, setbacks, innovations, and the future needs of the market.
  • Detailed discussion regarding impact of product on demand
  • Up-to-date analyses of market trends and technological improvements in the market
  • Coverage of historical overview, key industrial development and regulatory framework.
  • To track and analyze competitive developments, such as contracts & agreements, expansions, new product developments, and mergers & acquisitions in the market
  • A look at the opportunities in the market for stakeholders and provide a competitive landscape of the market leaders

Global Nanorobotics market Report Scope

  • The scope of the report covers the clear understanding and overview of the product.
  • Analysis of market trends in the region, with market data considering 2020 as the base year, 2021 as the estimate year and forecast for 2027 with projection of CAGR from 2021 to 2027.
  • The report covers discussion of economic trends and technology.
  • Market estimates represent revenue.
  • In-depth analysis of the market segmentation assists in determining the prevailing market scope.
Attribute Details
Market size available for years 2014–2027
Base year considered 2020
Forecast period 2021–2027
Historical period 2014-2019
Forecast units Value (USD) & Volume (Million Units)
Segmentation By Regions
North America, Europe, Asia Pacific, Latin America and Middle East & Africa
By Countries
United States, Russia, China, Germany, United Kingdom, France, Japan, Israel, Saudi Arabia, South Korea, United Arab Emirates, Canada, Indonesia, Malaysia, Switzerland, Australia, India, Italy, Sweden, Spain, Belgium, Netherlands, Norway, Brazil, Argentina, Mexico, South Africa and 54 Others.
By  Type
Nanomanipulator (Electron Microscope and Scanning Probe Microscope), Bio-Nanorobotics, Magnetically Guided and Bacteria-based.
By Application
Nanomedicine, Biomedical, Mechanical and Other (Space and Oil & Gas).
By End User
Hospitals, Diagnostic Centers, Research Laboratories and Others.
Companies covered Agilent Technologies; Aixtron SE; Anasys Instruments; Angstrom Advanced Inc.; Asylum Research; Bruker; Cavendish Kinetics Inc.; EV Group; FEI Company; Ginkgo Bioworks; Hummingbird Scientific; Imina Technologies; JEOL Ltd.; JPK Instruments; Kliendiek Nanotechnik; Klocke Nanotechnik; Nanonics Imaging Ltd.; Nanosurf AG; Novascan Technologies; NT-MDT; Oxford Instruments; Park Systems Corporation; Smaract; Synthace Limited; Thermo Fisher Scientific; Toronto Nano Instrumentation; WiTec GmbH; Xidex and Others.

Segments Covered in Global Nanorobotics market

  • The global Nanorobotics market is divided into different segments on the basis of types, application end user and region. The Nanorobotics market segment on the basis of type includes Nanomanipulator (Electron Microscope and Scanning Probe Microscope), Bio-Nanorobotics, Magnetically Guided and Bacteria-based. On the basis of application, the Nanorobotics market segment comprises a Nanomedicine, Biomedical, Mechanical and Other (Space and Oil & Gas). On the basis of end user include Hospitals, Diagnostic Centers, Research Laboratories and many more.
  • The global Nanorobotics market segment by the Application involves Infectious Disease, Blood Screening, Histology & Oncology, Genetic Testing and many other sectors.
  • The global Nanorobotics market has been segmented into North America, Europe, Asia Pacific, and the Rest of the World. North America dominated the global market in 2020, owing to the launch of new products in the region and rigorous R&D activities by companies to launch nanorobots for medicinal applications. Europe secured the second leading position in the global market due to the increasing efforts among the European companies to develop nanorobots for cancer treatment applications contributing to the region’s growth.

Covid-19 Impact on the Global Nanorobotics market

  • Pharmaceutical and biotech companies together with governments around the globe are working to address the COVID-19 outbreak, from supporting the development of vaccines to planning for medicine supply chain challenges.
  • Currently, around 115 vaccine candidates and 155 molecules are in the R&D pipeline. Moreover, commonly used drugs such as hydroxychloroquine have witnessed a dramatic surge in demand for the management of COVID-19. Such high demand for these drugs has presented huge opportunities for manufacturers of COVID-19 management drugs, as many developed countries are facing a shortage of these drugs. Thus, the pharmaceutical and biotechnology industries are expected to witness significant growth in the future, owing to the demand for vaccines and treatment drugs for COVID-19.
  • With COVID-19 the supply chain of raw materials required to manufacture nanorobots has been disrupted in many countries. In addition, the market growth of nanorobots is declining, as manufacturers of these devices have slowed down their production due to the pandemic. Therefore, COVID 19 is expected to have a significant impact on the nanorobots market.

Recent Developments in Global Nanorobotics market

  • In March 2021, Palms-based Bionaut labs focusing on developing nanorobots to deliver drugs for brain disease treatment received $20 million funding from investors Khosla Ventures and Upfront Ventures.
  • In July 2018, Bruker (US) announced the acquisition of JPK Instruments (Germany), microscopy instrumentation for biomolecular and cellular imaging solution provider. The acquisition is expected to expand life science microscopy portfolio of Bruker with nanotechnology expertise of JPK Instruments.
  • In February 2021, TESCAN announced the launch of nanomanipulator for applications performed in TESCAN scanning electron microscope and FIB-SEM instruments.
  • In March 2018, Thermo Fisher Scientific (US) acquired Gatan (US), a wholly owned subsidiary of Roper Technologies (US). Gatan is an electron microscopy solutions provider in the US, which complements the Thermo Fisher Scientific’s electron microscopy solutions business.

Key Market Players in Global Nanorobotics market

  • The major players in the Global Nanorobotics market are Agilent Technologies; Aixtron SE; Anasys Instruments; Angstrom Advanced Inc.; Asylum Research; Bruker; Cavendish Kinetics Inc.; EV Group; FEI Company; Ginkgo Bioworks; Hummingbird Scientific; Imina Technologies; JEOL Ltd.; JPK Instruments; Kliendiek Nanotechnik; Klocke Nanotechnik; Nanonics Imaging Ltd.; Nanosurf AG; Novascan Technologies; NT-MDT; Oxford Instruments; Park Systems Corporation; Smaract; Synthace Limited; Thermo Fisher Scientific; Toronto Nano Instrumentation; WiTec GmbH; Xidex and Others.
  • Also, the Nanorobotics market analysis report includes information on upcoming trends and challenges that will influence market growth. This is to help companies strategize and leverage all forthcoming growth opportunities.

Objectives of the Global Nanorobotics market Study

  • To provide detailed information regarding drivers, restraints, opportunities and challenges are influencing the growth in the Global Nanorobotics market.
  • To analyze the competitive intelligence of players based on company profiles and their key growth strategies.
  • To strategically analyze micro markets with respect to the individual growth trends, their prospects, and their contribution to the total Global Nanorobotics market.
  • To analyze competitive developments such as expansions, and product launches, along with research & development (R&D) activities undertaken in the Global Nanorobotics market.
  • A unique model is created customized for each study also offers suggestions that help enterprises to identify and mitigate risks.

Note

 

  • Global Industry Reports will also support you post-purchase for a period of 6 months to answer any of your queries related to the following market and to provide you any more data if you need, for your analysis.
  • Also, you can buy some selected Chapters from the report.

INTRODUCTION

Objectives of the study

Global Nanorobotics market definition

Global Nanorobotics market scope

Global Nanorobotics market Stakeholders

Global Nanorobotics market Limitations

Summary of changes

RESEARCH METHODOLOGY

Research data

Secondary data

Primary data

Global Nanorobotics market size estimation

Global Nanorobotics market breakdown & data triangulation

Global Nanorobotics market share analysis

Global Nanorobotics market Risk assessment/limitations

Assessment of the impact of covid-19 on the economic scenario

EXECUTIVE SUMMARY

GLOBAL NANOROBOTICS MARKET OUTLOOK / MARKET OVERVIEW

Introduction

Market dynamics

Market drivers

The growing demand for miniaturization

Initiatives undertaken by the governments to encourage investments in this sector

Countries

Market restraints

High manufacturing cost

Opportunities

Technological advancement in nanorobotics

Challenges

Rise in collaboration activities among industry players.

INDUSTRY INSIGHTS

Introduction

Industry trends

Strategic benchmarking

Pricing analysis

Value chain analysis

Ecosystem analysis

Patent analysis

Trade analysis

IMPACT OF COVID-19 ON THE GLOBAL NANOROBOTICS MARKET

GLOBAL NANOROBOTICS MARKET BY TYPE

Nanomanipulator (Electron Microscope and Scanning Probe Microscope)

Bio-Nanorobotics

Magnetically Guided

Bacteria-based

GLOBAL NANOROBOTICS MARKET BY APPLICATION

Nanomedicine

Biomedical

Mechanical

Other (Space and Oil & Gas)

GLOBAL NANOROBOTICS MARKET BY END-USE

Hospitals

Diagnostic Centers

Research Laboratories

Others

GLOBAL NANOROBOTICS MARKET BY GEOGRAPHY

Overview

North America

U.S.

Canada

Mexico

Europe

Germany

U.K.

France

Rest of Europe

Asia Pacific

China

Japan

India

Rest of Asia Pacific

Rest of the World

Latin America

Middle East & Africa

GLOBAL NANOROBOTICS MARKET COMPETITIVE LANDSCAPE

Introduction

Footprint analysis of the top players in the global Nanorobotics market

Product & service portfolio matrix

Market share analysis

Company evaluation quadrant

Company evaluation quadrant for start-ups/smes

Competitive scenario

COMPANY PROFILES

(Business overview, Products & services offered, Recent Developments, Competitive analysis, SWOT Analysis,)

  1. Agilent Technologies
  2. Aixtron SE
  3. Anasys Instruments
  4. Angstrom Advanced Inc.
  5. Bruker
  6. Cavendish Kinetics Inc.
  7. EV Group
  8. FEI Company
  9. Ginkgo Bioworks
  10. Imina Technologies
  11. JEOL Ltd.
  12. JPK Instruments
  13. Kliendiek Nanotechnik
  14. Nanosurf AG
  15. Novascan Technologies
  16. NT-MDT
  17. Oxford Instruments
  18. Thermo Fisher Scientific
  19. Toronto Nano Instrumentation
  20. WiTec GmbH
  21. Others 20+.

APPENDIX

  • Discussion guide
  • Available customizations
  • Related reports

Methodology

Research Methodology is the process used to collect information and data for the purpose of making business decisions. The success of a research project is entirely dependent on the research methodology adopted by the company. Research Methodology and Scope We have implemented a mix of primary and secondary research for our market estimate and forecast. Secondary research formed the initial phase of our study, where we conducted extensive data mining, referring to verified data sources such as independent studies, company annual reports, white papers, case studies, government and regulatory published articles, technical journals, magazines, and paid data sources. It was also used to obtain important information about the key players and market classification & segmentation according to industry trends to the bottom-most level, and key developments related to market and technology perspectives. A database of the key industry leaders was also prepared using secondary research.

In the primary research process, various primary sources from both supply and demand sides have been interviewed to obtain qualitative and quantitative information important for respective regions. The primary sources from the supply side included industry experts such as CEOs, VPs, marketing directors, technology and innovation directors, and related executives from key companies and organizations operating in the respective regions. The primary data has been collected through questionnaires, e-mails, and telephonic interviews, end-user surveys, consumer surveys, technology distributors and wholesaler’s surveys.

  • Quantitative methods (e.g. surveys) are best for measuring, ranking, categorizing, identifying patterns and making generalizations
  • Qualitative methods (e.g. interviews) are best for describing, interpreting, contextualizing, and gaining in-depth insight into specific concepts or phenomena
  • Mixed methods allow for a combination of numerical measurement and in-depth exploration.

Market drivers and restraints, along with their current and expected impacts, technological scenario and expected developments, end-use industry trends and dynamics  and consumer behavior trends  these forecasting parameters were considered.

Ethical approach, attention to detail, consistency, latest trend in the market and highly authentic source these are benefits of company’s research methodology.

Global Industry Reports

Market size estimation methodology top-down and bottom-up approaches

Both top-down and bottom-up approaches have been used to estimate and validate the total size of the virtual reality market. These methods have also been extensively used to estimate the sizes of various market subsegments. Estimating the size of the market in each region by adding the sizes of country-wise markets and tracking the ongoing and upcoming implementation of virtual reality projects by various companies in each region and forecasting the size of the virtual reality market based on these developments and other critical parameters, including COVID-19 related impacts

Data Triangulation

After arriving at the overall market size—using the market size estimation processes explained above—the market has been split into several segments and subsegments. To complete the overall market engineering process and arrive at the exact statistics of each market segment and subsegment, data triangulation, and market breakdown procedures have been employed, wherever applicable. The data has been triangulated by studying various factors and trends from both the demand and supply sides. It provide detailed information regarding the major factors (drivers, restraints, opportunities, challenges, company profiles, key player strategies competitive developments and key developments) influencing the virtual reality market growth.

Statistical Model

Our market estimates and forecasts are derived through simulation models. A unique model is created customized for each study. Gathered information for market dynamics, technology landscape, application development and pricing trends is fed into the model and analyzed simultaneously. These factors are studied on a comparative basis, and their impact over the forecast period is quantified with the help of correlation, regression and time series analysis.

Frequently Asked Questions ?

The major players in the Global Nanorobotics market are Agilent Technologies; Aixtron SE; Anasys Instruments; Angstrom Advanced Inc.; Asylum Research; Bruker; Cavendish Kinetics Inc.; EV Group; FEI Company; Ginkgo Bioworks; Hummingbird Scientific; Imina Technologies; JEOL Ltd.; JPK Instruments; Kliendiek Nanotechnik; Klocke Nanotechnik; Nanonics Imaging Ltd.; Nanosurf AG; Novascan Technologies; NT-MDT; Oxford Instruments; Park Systems Corporation; Smaract; Synthace Limited; Thermo Fisher Scientific; Toronto Nano Instrumentation; WiTec GmbH; Xidex  and Others.

North America is leading and serving the most significant market share of the Nanorobotics at the global level.

The global nanorobotics market is estimated to attain a valuation of US$ 11.2 Bn by the end of 2027.

Nanomanipulator is expected to hold largest market segment in the nanorobotics market.