Nanodevices and Nanomachines: The Global Market

Nanodevices and Nanomachines: The Global Market

BCC, Date of Publication: Nov 6, 2018, 147 Pages
US$5,550.00
GB-NAN062A

The global market for nanomachines should grow from $736.1 million in 2018 to $1.3 billion in 2023 and then to $2.7 billion in 2028, at a compound annual growth rate (CAGR) of 11.6% from 2018 to 2023 and 16.0% from 2023 to 2028.

The global market for nanosensors should grow from $560.0 million in 2018 to $976.5 million in 2023 and then to $1.6 billion in 2028, at a CAGR of 11.8% from 2018 to 2023 and 10.7% from 2023 to 2028.

The global market for nanotools should grow from $90.3 million in 2018 to $123.2 million in 2023 and then to $168.0 million in 2028, at a CAGR of 6.4% from 2018 to 2023 and 6.4% from 2023 to 2028.

Report Scope:

The report covers all types of nanomechanical and molecular nanomachines in use or known to be under development as of early 2018, including:

  • Electromechanical devices that interact with the environment on a nanoscale level to accomplish specific tasks or purposes.
  • Electromechanical devices with outer dimensions measured in nanometers.
  • Molecular machines that are not mechanical or electromechanical in nature but employ molecular-scale biological components that produce quasi-mechanical actions or outputs in response to specific stimuli.
  • A pragmatic decision was made to exclude certain types of devices from the report that technically fit the definition of the term "nanotechnology." Nanoscale semiconductors are excluded, as they have been analyzed comprehensively elsewhere and would overwhelm other nanomachine technologies by their sheer volume.

The time frame for the analysis is the period from 2017 to 2028 to allow for the fact that many of the devices analyzed by the report are still in the research and development phase but could reach the commercial market by 2028. The market values estimated or imputed for various segments represent the direct cost to the user or investor. These values are expressed in 2017 dollars, and no attempt has been made to adjust them for inflation.

Report Includes:

  • 33 tables
  • Detailed overview of the global market for nanodevices and nanomachines within the nanotechnology industry
  • Analyses of global market trends with data from 2017, estimates for 2018, and projections of compound annual growth rates (CAGRs) from 2018 through 2023 and 2023 through 2028
  • Characterization and quantification of global market for nanodevices and nanomachines by type, application, technology, end user, and geographical region
  • Information on electromechanical devices that interact with the environment on a nanoscale level to accomplish specific tasks or purposes
  • Critical analysis of the changing regulatory environment with focus on political landscape and legal and regulatory dimensions
  • A relevant patent analysis, and number of U.S. patents issued for nanomachine-related developments
  • Company profiles of major players in the market, including ExxonMobil, Hummingbird Scientific LLC, JEOL Ltd., Lockheed Martin, Oxford Instruments and Thermo Fisher Scientific

Nanodevices and Nanomachines: The Global Market
TABLE OF CONTENTS

Chapter 1: Introduction

  • Reasons for Doing This Study
  • Study Goals and Objectives
  • Scope of Report
  • Information Sources
  • Methodology
  • Regional Breakdown
  • Analyst's Credentials

Chapter 2: Summary and Highlights

Chapter 3: Technology and Market Overview

  • Background
    • Definitions
    • General Properties of Nanoscale Materials and Systems
    • Brief History of Nanomachines
  • Major Technology Segments
    • Nanomanipulators
    • Nanotools
    • Nanosensors
    • Nanoscale Computing Devices
    • Nanorobots
    • Other Nanomachines
  • Fabrication Approaches
    • Top-Down Approach
    • Bottom-Up Approach
    • Hybrid Top-Down Bottom-Up Approach
    • Bio-Hybrid Approach
  • End Users and Applications
    • Research
    • Healthcare
    • Microelectronics and Information Technology
    • Process Industries
    • Energy
    • Environmental Protection
    • Public Safety and Security
    • Military
  • Market Summary

Chapter 4: Fabrication Methods

  • Summary
    • Top-Down Methods
    • Bottom-Up Approaches
    • Hybrid Top-Down and Bottom-Up Approaches
    • Bio-Hybrid Approaches
  • Challenges of Fabricating Nanoscale Machines
    • Materials
    • Simulation and Testing

Chapter 5: Market Breakdown by Technology

  • Summary
    • Nanomanipulators
    • Nanotools
    • Nanosensors
    • Nanoscale Computing Devices
    • Nanorobots
    • Other Nanomachine Types

Chapter 6: Market Breakdown by Application

  • Summary
  • Microelectronics
    • Nanotools
    • Nanosensors
    • Nanoscale Computing Devices
  • Healthcare and Life Sciences
    • Nanosensors
    • Nano-HPLC Systems
    • Nanoparticulate Drug-Producing Devices
    • Nanorobots
  • Optoelectronics
    • Nanoscale Computing Devices
  • Information Technology
    • Nanoscale Computing Devices
  • Process Industries
    • Nanosensors
  • Other End Users
    • Nanomanipulators
    • Nanosensors
    • Nanorobots
  • Other Long-Term Applications
    • Microelectronics
    • Military and Public Safety
    • Additional Healthcare and Life Science Applications

Chapter 7: Market Breakdown by Region

  • Summary
  • Nanosensors
  • Nanotools

Chapter 8: Developments That Could Influence the Nanomachine Market

  • Economic Trends
  • Venture Capitalist Attitudes
  • Environmental, Health, Safety and Other Impacts
  • Political, Legal and Regulatory Trends
    • Government-Funded Nanotechnology Initiatives
    • Laws and Regulations
  • Long-Term Market Prospects

Chapter 9: Industry Structure

  • Number and Size of Firms
    • Size Distribution of Firms
    • Products
    • Nationality

Chapter 10: Patent Review

  • Patents by Nanomachine Type
  • Selected Representative Patents
    • Nanomanipulator Used for Analyzing or Machining Objects
    • Nanotweezers and Nanomanipulator
    • Printhead with Nanotips for Nanoscale Printing and Manufacturing
    • Method for Fabricating High Aspect Ratio Nanostructures
    • Highly Sensitive Standoff Gas Sensing Using Carbon Nanotubes and Integrated Wireless Devices
    • System, Method and Nanorobot to Explore Subterranean Geophysical Formations
    • IC-Processed Polymer Nano-Liquid Chromatography System On-a-Chip and Method of Making It

Chapter 11: Analysis of Market Opportunities

Chapter 12: Company Profiles

  • AB SCIEX
  • ALIO INDUSTRIES
  • ALTAIR NANOTECHNOLOGIES
  • APPLIED NANOTECH HOLDINGS INC.
  • BOEING COMPANY
  • BRUKER AXS
  • COLOSSAL STORAGE CORP.
  • DIONEX CORP.
  • DISCOVERY TECHNOLOGY INTERNATIONAL, INC.
  • EKSIGENT TECHNOLOGIES LLC
  • EV GROUP
  • EXXONMOBIL
  • HALO LABS INC.
  • HITACHI HIGH TECHNOLOGIES CORP.
  • HUMMINGBIRD SCIENTIFIC LLC
  • IMINA TECHNOLOGIES SA
  • INNOPSYS
  • INTERNATIONAL BUSINESS MACHINES
  • INANOBIO
  • INTEGRATED DEVICE TECHNOLOGY INC.
  • JEOL LTD.
  • KLEINDIEK NANOTECHNIK GMBH
  • KLOCKE NANOTECHNIK
  • LOCKHEED MARTIN
  • MAD CITY LABS INC.
  • MICROFLUIDICS CORP.
  • MITRE CORPORATION
  • MOLECULAR IMPRINTS
  • NANOLIKE
  • NANOMIX
  • NANONEX
  • NANONICS IMAGING LTD.
  • NANOSENSORS
  • NANOSURF AG
  • NIL TECHNOLOGY APS
  • NPOINT, INC.
  • OBDUCAT
  • OXFORD INSTRUMENTS
  • PARK SYSTEMS CORP.
  • PHILIPS ELECTRONICS
  • PHYSIK INSTRUMENTE GMBH & CO. KG
  • RAVE LLC
  • SHIMADZU CORP.
  • SMARACT GMBH
  • SMART EQUIPMENT TECHNOLOGY
  • SONY CORP.
  • SUSS MICROTEC
  • TESCAN ORSAY HOLDING A.S.
  • THERMO FISHER SCIENTIFIC
  • VISTA THERAPEUTICS INC.
  • XIDEX CORP.
  • ZYVEX INSTRUMENTS LLC

List of Tables

Summary Table: Global Market for Nanodevices and Nanomachines, by Type, Through 2028
Table 1: Nanomachines Historical Timeline
Table 2: Nanomachine Types, 2018
Table 3: Nanomachine Fabrication Approaches
Table 4: Nanodevice and Nanomachine End Users and Applications
Table 5: Global Market for Nanodevices and Nanomachines, by Type, Through 2028
Table 6: Global Market for Nanodevices and Nanomachines, by End Use, Through 2028
Table 7: Global Market for Nanodevices and Nanomachines, by Region, Through 2028
Table 8: Global Market for Nanodevices and Nanomachines, by Technology Type Through 2028
Table 9: Global Market Share for Nanomachines, by Type, 2017-2028
Table 10: Nanomanipulator Suppliers and Developers, 2018
Table 11: Global Market for Nanomanipulators, by Type, Through 2028
Table 12: Providers and Developers of Nanopatterning Tools, 2018
Table 13: Global Market for Nanotools, by Device Type, Through 2028
Table 14: Nanosensor Technologies, 2018
Table 15: Nanosensor Providers and Developers, 2018
Table 16: Global Market for Nanosensors, by Type, Through 2028
Table 17: Global Market for Nanoscale Computing Devices, by Type, Through 2028
Table 18: Global Market for Nanorobots, by Type, Through 2028
Table 19: Global Market for Other Nanomachines, by Type, Through 2028
Table 20: Global Market for Nano-HPLC Systems, Through 2028
Table 21: Global Market for Nanoparticulate Drug-Producing Devices, Through 2028
Table 22: Global Market for Nanodevices and Nanomachines, by End User, Through 2028
Table 23: Global Market for Nanomachines in Microelectronics Applications, by Type, Through 2028
Table 24: Global Market for Nanomachines in Healthcare and Life Sciences, by Type, Through2028
Table 25: Global Market for Nanomachines in Information Technology Applications, by Type, Through 2028
Table 26: Global Market for Nanomachines in Process Industries Applications, Through 2028
Table 27: Global Market for Nanodevices and Nanomachines in Other Applications, by Type, Through 2028
Table 28: Global Market for Nanodevices and Nanomachines, by Region, Through 2028
Table 29: Global Market for Nanosensors, by Region, Through 2028
Table 30: Global Market for Nanotools, by Region, Through 2028
Table 31: U.S. Nanomachine Patents Issued, by Nanomachine Type, Through April 1, 2018
Table 32: Global Market Opportunity Analysis of Nanomachines, by Product, Through 2028

List of Figures

Summary Figure: Global Market for Nanomachines, by Type, 2017-2028
Figure 1: Global Market for Nanomachines, by Type, 2017-2028
Figure 2: Global Market for Nanomachines, by End Use, 2017-2028
Figure 3: Global Market for Nanomachines, by Region, 2017-2028
Figure 4: Sacrificial Layer Etching
Figure 5: LIGA Process Diagram
Figure 6: Isotropic Versus Anisotropic Etching
Figure 7: Global Market for Nanodevices and Nanomachines, by Technology Type, 2017-2028
Figure 8: Global Market for Nanomanipulators, by Type, 2017-2028
Figure 9: Hot Embossing Lithography
Figure 10: Ultraviolet Nanolithography
Figure 11: Contact Nanolithography
Figure 12: Dip-Pen Nanolithography
Figure 13: Global Market for Nanotools, by Device Type, 2017-2028
Figure 14: Global Market for Nanosensors, 2017-2028
Figure 15: Global Market for Nanoscale Computing Devices, by Type, 2017-2028
Figure 16: Global Market for Nanorobots, by Type, 2017-2028
Figure 17: Global Market for Nano-HPLC Systems, 2017-2028
Figure 18: Global Market for Nanoparticulate Drug-Producing Devices, 2017-2028
Figure 19: Global Market for Nanomachines, by End User, 2017-2028
Figure 20: Global Market for Nanomachines in Microelectronics Applications, by Type, 2017-2028
Figure 21: Global Market for Nanomachines in Healthcare and Life Sciences, by Type, 2017-2028
Figure 22: Global Market for Nanomachines in Information Technology Applications, by Type, 2017-2028
Figure 23: Global Market for Nanomachines in Process Industry Applications, 2017-2028
Figure 24: Global Market for Nanomachines in Other Applications, by Type, 2017-2028
Figure 25: Global Market for Nanodevices and Nanomachines, by Region, 2017-2028
Figure 26: Global Market for Nanosensors by Region, 2017-2028
Figure 27: Global Market for Nanotools, by Region, 2017-2028
Figure 28: Annual Percentage Growth Rate of Global Gross Domestic Product, 2014-2019
Figure 29: Global Market Share of Nanomachine Companies, by Annual Revenues, 2017
Figure 30: Global Market Share of Nanomachine Companies, by Type, 2017
Figure 31: Global Market Share of Nanomachine Companies, by Region, 2017
Figure 32: U.S. Nanomachine Patents Issued, by Nanomachine Type, Through April 1, 2018
Date of Publication:
Nov 6, 2018
File Format:
PDF via E-mail
Number of Pages:
147 Pages