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Implosion Manufacturing: Novel Nanotech Methods for Next Generation Materials

November 2019 | 118 pages | ID: I802833FD58AEN
BCC Research

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REPORT SCOPE:

The report will evaluate the various technologies that are being developed or adapted from existing nanofabrication technologies, including -
  • New technologies.
  • Implosion fabrication.
  • Surfactant?assisted multiphoton?induced reduction.
  • Spun-wrapped aligned nanofiber (SWAN) lithography.
  • Ion beam etching redeposition.
  • Laser scanning holographic lithography.
  • Proton beam nano-machining.
  • Others, as appropriate.
  • Modifications of existing technologies.
  • Nanoimprint lithography.
  • Others, as appropriate.
The time frame for the analysis is the period from 2018 to 2029 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 2029. The market values estimated or imputed for various segments represent the direct cost to the user or investor. These values are expressed in 2018 dollars, and no attempt has been made to adjust them for inflation.

REPORT INCLUDES:
  • 46 data tables and 15 additional tables
  • An overview of implosion manufacturing, a 3D enabled nanolithography technology for next generation materials
  • Analyses of the global market trends with data from 2018, estimates for 2019, and projections of compound annual growth rates (CAGRs) for a 10-year timeframe through 2029
  • Description of key enabling technologies such as hydrogels and two-photon microscopy; and their applications with the greatest commercial potential
  • Information on the industry’s structure, market size and market dynamics that will impact the furture growth
  • A relevant patent analysis and number of U.S. patents issued for implosion fabrication-related developments
  • Company profiles of the leading market participants within the nanotech industry, including Nano3D Biosciences, Nanonex, NanoOpto Corp., NIL Technology ApS and SwissLitho AG
CHAPTER 1 INTRODUCTION

Study Goals and Objectives
Reasons for Doing This Study
Scope of Report
Information Sources
Methodology
Geographic Breakdown
Analyst's Credentials
BCC Custom Research
Related BCC Research Reports

CHAPTER 2 SUMMARY AND HIGHLIGHTS

CHAPTER 3 MARKET AND TECHNOLOGY BACKGROUND

Definitions
Nanofabrication
3D Nanostructures
History
Technologies
Implosion Fabrication
Two-Photon Polymerization
Surfactant?Assisted Multiphoton?Induced Reduction
Spun-Wrapped Aligned Nanofiber (SWAN) Lithography
Ion Beam Etching Redeposition
Proton Beam Nano-Machining
Nanoimprint Lithography
Additive Manufacturing
Laser-Based Particle Deposition
Self-Assembly
Positional Nanoassembly
Nano-Kirigami
Materials
Carbon Allotropes
Biohybrid Materials
Hydrogels
Ceramics
Metals
Polymers
Silicon
Potential Applications
Nanolenses
Nanoelectronics
Nanorobots
Metamaterials
Nanophotonics and Plasmonics
Nanosensors
Labs-on-a-Chip and Labs-on-Fiber
Nano-Energy Harvesting and Storage
Nano-Medical Implants
End-Users
Research
Healthcare
Electrical/Electronic Equipment
Communications
Process Industry
Energy/Environmental Protection
Military/Public Safety
Market Summary

CHAPTER 4 MARKET BREAKDOWN BY TECHNOLOGY TYPE

Implosion Fabrication
Technology
Applications and End-Users
Projected Market, 2018-2029
Two-Photon Polymerization
Technology
Applications and End-Users
Projected Available Market, 2018-2029
Surfactant-Assisted Multiphoton-Induced Reduction
Technology
Applications and End-Users
Projected Market, 2018-2029
Spun-Wrapped Aligned Nanofiber Lithography
Technology
Applications and End-Users
Projected Available Market, 2018-2029
Ion Beam Etching Redeposition
Technology
Applications and End-Users
Projected Available Market, 2018-2029
Proton Beam Nanomachining
Technology
Applications
Projected Available Market, 2018-2029
Nanoimprint Lithography
Technology
Applications and End-Users
Projected Available Market, 2018-2029
Additive Manufacturing
Technology
Applications and End-Users
Projected Available Market, 2018-2029
Self-Assembly
Technology
Applications and End-Users
Projected Available Market, 2018-2029
Nano-Kirigami
Technology
Applications
Available Market, 2018 - 2029
Positional Nanoassembly
Technology
Applications and End-Users
Projected Available Market, 2018-2029

CHAPTER 5 MARKET BREAKDOWN BY APPLICATION

Summary
Optics and Photonics
Microelectronics and Information Technology
Biochips and Nanosensors
Medical Devices
Light Emitting Diodes
Miscellaneous Application

CHAPTER 6 MARKET BREAKDOWN BY END-USER SECTOR

CHAPTER 7 MARKET BREAKDOWN BY REGION AND COUNTRY

CHAPTER 8 ANALYSIS OF MARKET OPPORTUNITIES

Technologies
Nanoimprint Lithography
Other Technologies
Applications and End-Users
Light-Emitting Diodes
Biochips and Nanosensors
Memory Devices
Photonic Crystals
Tissue Scaffolds
Geographical Markets

CHAPTER 9 COMPANY PROFILES

AMO GMBH
EV GROUP
IMS CHIPS
NANO3D BIOSCIENCES
NANONEX
NANOOPTO CORP.
NANOSCALE SYSTEMS GMBH
NANOSCRIBE GMBH
NIL TECHNOLOGY APS
OBDUCAT AB
SUSSMICROTEC SE
SWISSLITHO AG
XJET

LIST OF TABLES

Summary Table: Global Available Market for 3D Nanofabrication, by Type of Technology, Through 2029
Table 1: 3D Nanofabrication Approaches
Table 2: Global Available Market for 3D Nanofabrication, by Type of Technology, Through 2029
Table 3: Global Available Market Shares of 3D Nanofabrication, by Type of Technology, 2018-2029
Table 4: Implosion Fabrication Patents Granted/Patent Applications Pending, 2019
Table 5: Implosion Fabricated Nanodevice End-Users and Applications
Table 6: Global Available Market for Nanoscale Objects Formed by Implosion Fabrication, by Application, Through 2029
Table 7: Global Metamaterials Lens Market in Optical Microscopy Application, Through 2029
Table 8: Global Metamaterials Lens Market in Photolithography Application, Through 2029
Table 9: Global Metamaterial Lens Market in Data Storage Application, Through 2029
Table 10: Global Market for Implosion-Fabricated Nanorobots Application, Through 2029
Table 11: Two-Photon Polymerization Patents Granted/Patent Applications Pending, 2019
Table 12: TPP-Fabricated Nanostructure Applications and End-Users
Table 13: Global Available Market for Nanoscale Objects Formed by Two-Photon Polymerization, by Type of Object, Through 2029
Table 14: Global Available Market for AFM Probe Tips Fabricated by Two-Photon Polymerization Application, Through 2029
Table 15: Global Available Market for Photonic Crystals Fabricated by Two-Photon Polymerization Application, Through 2029
Table 16: Global Available Market for Labs-on-a-Chip Fabricated by Two-Photon Polymerization Application, Through 2029
Table 17: Global Available Market for Tissue Scaffolds Fabricated by Two-Photon Polymerization Application, Through 2029
Table 18: Surfactant-Assisted Multiphoton-Induced Reduction Patents Granted/Patent Applications Pending, 2019
Table 19: Surfactant-Assisted Multiphoton-Induced Reduction Nanodevice End-Users and Applications
Table 20: Global Available Market for Nanoscale Objects Formed by Surfactant-Assisted Multiphoton-Induced Reduction, by Type of Object, Through 2029
Table 21: Global Available Market for SWAN Lithography Antimicrobial Medical Device Surface Treatments Application, Through 2029
Table 22: Ion Beam Etching Deposition Applications and End-Users
Table 23: Global Available Market for Nanoscale Objects Formed by Ion Beam Etching Redeposition, by Application, Through 2029
Table 24: Global Available Market for Nanobiosensors Fabricated by Ion beam Etching Redeposition Application, Through 2029
Table 25: Global Available Market for Biochips Fabricated by Ion beam Etching Redeposition Application, Through 2029
Table 26: Global Available Market for SERS Fabricated by Ion beam Etching Redeposition, Application, Through 2029
Table 27: Proton Beam Nanomachining Patents Granted/Patent Applications Pending, 2019
Table 28: Global Available Market for Nanoscale Objects Formed by Proton Beam Nanomachining Application, Through 2029
Table 29: Nanoimprint Lithography Patents Granted/Patent Applications Pending, 2019
Table 30: NIL-Fabricated Nanostructure Applications and End-Users
Table 31: Global Available Market for Nanoscale Objects Formed by Nanoimprint Lithography, by Type of Object, Through 2029
Table 32: Global Available Market Shares of Nanoscale Objects Formed by Nanoimprint Lithography, by Type of Object, 2018-2029
Table 33: Global Available Market for Diffractive Nano-Optics Fabricated by Nanoimprint Lithography Application, Through 2029
Table 34: Global Available Market for Labs-on-a-Chip Fabricated by Nanoimprint Lithography Application, Through 2029
Table 35: Global Available Market for Nanosensors Fabricated by Nanoimprint Lithography Application, Through 2029
Table 36: Global Available Market for NAND Data Storage Devices Fabricated by Nanoimprint Lithography Application, Through 2029
Table 37: Global Available Market for Bio-MEMS Fabricated by Nanoimprint Lithography Application, Through 2029
Table 38: Global Available Market for LEDs Fabricated by Nanoimprint Lithography Application, Through 2029
Table 39: Nanoimprint Lithography Patents Granted/Patent Applications Pending, 2019
Table 40: Global Available Market for Nanoscale Objects Formed by Additive Manufacturing, by Application, Through 2029
Table 41: 3D Nanostructure Self-Assembly Patents Granted/Patent Applications Pending, 2019
Table 42: Self-Assembled 3D Nanostructure Applications and End-Users
Table 43: Global Available Market for Nanoscale Objects Formed by Self-Assembly, by Application, Through 2029
Table 44: Global Available Market for DNA Nanomachines Application, Through 2029
Table 45: Global Available Market for Self-Assembled Photonic Crystals Application, Through 2029
Table 46: Global Available Market for Nanoscale Circularly Polarized Light Filters Formed by Nano-Kirigami Application, Through 2029
Table 47: Positional Nanoassembly Patents Granted/Patent Applications Pending, 2019
Table 48: Global Available Market for Nanoscale Objects Formed by Positional Nanoassembly Application, Through 2029
Table 49: Global Available Market for 3D Nanofabrication Application, Through 2029
Table 50: Global Available Market Shares of 3D Nanofabrication Application, 2018-2029
Table 51: Global Available Market for 3D Nanofabricated Optics and Photonics Application, Through 2029
Table 52: Global Available Market for 3D Nanofabricated Microelectronics and Information Technology Application, Through 2029
Table 53: Global Available Market for 3D Nanofabricated Biochips and Nanosensors Application, Through 2029
Table 54: Global Available Market for 3D Nanofabricated Medical Device Application, Through 2029
Table 55: Global Available Market for 3D Nanofabricated LEDs Application, Through 2029
Table 56: Global Available Market for Miscellaneous 3D Nanofabricated Applications, Through 2029
Table 57: Global Available Market for 3D Nanofabrication, by End-User, Through 2029
Table 58: Global Available Market Shares of 3D Nanofabrication, by End-User, 2018-2029
Table 59: Global Available Market for 3D Nanofabrication, by Region/Country, Through 2029
Table 60: Global Available Market Shares of 3D Nanofabrication, by Region/Country, 2018-2029

LIST OF FIGURES

Summary Figure: Global Available Market for 3D Nanofabrication, by Type of Technology, 2018-2029
Figure 1: Negative Refraction
Figure 2: Global Available Market for 3D Nanofabrication, by Type of Technology, 2018-2029
Figure 3: Global Available Market Shares of Nanoscale Objects Formed by Two-Photon Polymerization, by Type of Object, 2029
Figure 4: Global Available Market Shares of Nanoscale Objects Formed by Two-Photon Polymerization, by Type of Object, 2018-2029
Figure 5: Global Available Market for SWAN Lithography Antimicrobial Medical Device Surface Treatments, 2018-2029
Figure 6: Global Available Market for Nanoscale Objects Formed, by Ion Beam Etching Redeposition, 2018-2029
Figure 7: Global Available Market for Nanoscale Objects Formed by Proton Beam Nanomachining, 2018-2029
Figure 8: Hot Embossing Lithography
Figure 9: Ultraviolet Nanolithography
Figure 10: Contact Nanolithography
Figure 11: Global Available Market for Nanoscale Objects Formed by Additive Manufacturing, 2018-2029
Figure 12: Global Available Market Shares of Nanoscale Objects Formed by Self-Assembly, 2029
Figure 13: Global Available Market for 3D Nanofabrication Application, 2018-2029
Figure 14: Global Available Market Shares of 3D Nanofabrication Application, 2018-2029
Figure 15: Global Available Market for 3D Nanofabricated Optics and Photonics Application, 2018-2029
Figure 16: Global Available Market for 3D Nanofabricated Microelectronics and Information Technology Application, 2018-2029
Figure 17: Global Available Market for 3D Nanofabricated Biochip and Nanosensor Application, 2018-2029
Figure 18: Global Available Market for 3D Nanofabricated Medical Device Application, 2018-2029
Figure 19: Global Available Market for 3D Nanofabricated LEDs Application, 2018-2029
Figure 20: Global Available Market for Miscellaneous 3D Nanofabricated Applications, 2018-2029
Figure 21: Global Available Market for 3D Nanofabrication, by End-User, 2018-2029
Figure 22: Global Available Market Shares of 3D Nanofabrication, by End-User, 2018-2029
Figure 23: Global Available Market for 3D Nanofabrication, by Region/Country, 2018-2029
Figure 24: Global Available Market Shares of 3D Nanofabrication, by Region/Country, 2018-2029


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