Innovations in Bideodegradeable Polymers, 2D Materials, Microchips, Lithium-ion Batteries, and Nano-lasers

Innovations in Bideodegradeable Polymers, 2D Materials, Microchips, Lithium-ion Batteries, and Nano-lasers

RELEASE DATE
04-Oct-2019
REGION
Global
Research Code: D787-00-7C-00-00
SKU: CM01717-GL-TA_23671
$950.00
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Description

This issue of the Nanotech TechVision Opportunity Engine (TOE) profiles conductive graphenes made by bacterial reduction, biodegradeable nano-polymers for tissue engineering, nanoencapsulation for canniboid delivery, nanodiamonds synthesized by laser milling, inorganic fullerene-like tungstern disulphide adhesives, super clean graphene made by activated carbon-based methods, carbon nanotube-based high temperature resistive adhesives, cost-efficient transistors for electronic devices used in space, lithium-ion batteries with high power and short charging time, tuneable 3D circuit for transporting spin current in microchips, and nano-laser technology made using photon up-conversion method.

The Nanotech TechVision Opportunity Engine (TOE) provides intelligence on technologies, products, processes, applications, and strategic insights on nanotechnology-related innovations and their impact across various industries. Technology focus areas include nanomaterials, nanocoatings, nanohealthcare, nanomedicine, and nanomanufacturing.

The Chemicals and Advanced Materials cluster tracks research and innovation trends and developments across specialty chemicals, plastics, polymers, chemicals, bio-chemicals, metals, coatings, thinfilms, surface treatments, composites, alloys, oil and gas, fuel additives, fibers, and several other related technologies and its impact and application across industries.

Keywords: Graphene, nano-polymer, tissue engineering, nanoencapsulation, nanodiamonds, adhesives, carbon nanotubes, transistors, lithium-ion batteries, microchips, nano-lasers

Table of Contents

Innovations in Bideodegradeable Polymers, 2D Materials, Microchips, Lithium-ion Batteries and Nano-lasers

  • Conductive Graphene made by Bacterial Reduction
  • Bulk Graphene Leads to Next-generation Computer Systems and Medical Devices
  • Biodegradable Nano-polymer as a 3D Scaffold for Tissue Engineering
  • Tissue Engineering is the Key Application Area for Biodegradable Polymers
  • Canniboid Delivery Platform Using Nanoencapsulation
  • Nanoencapsulation Delivery Platform Can Transport both Nutraceticals as well as Pharmaceuticals
  • Laser Milling Process for Synthesis of Nanodiamonds
  • Nanodiamonds can be Used for a Myriad of Applications
  • Inorganic Fullerene-like Tungsten Disulfide Adhesives
  • Oil and Gas and Industrial Machinery has the Highest Application Potential for Tungsten Sulfide-based Lubes
  • Activated Carbon-based Method for Super Clean Graphene
  • Advanced Electronics will be a Key Application Sector for Graphene by 2022
  • Carbon Nanotube-based High Temperature Resistive Adhesives
  • Advanced Computing has the Highest Application Potential for High Temperature Resistive Adhesives
  • Cost-efficient Transistors for Electronic Devices used in the Space Industry
  • Transistors made Using Silicon Carbide Wafers find High Adoption in Electronic Devices used in High Radiation Environment
  • High Power Lithium-ion Battery that Requires Short Charging Time
  • Promoting Green Technology in the Automotive and Energy Industries Through Lithium-ion Battery Innovation
  • Tuneable 3D Circuit for Transporting Spin Current in Microchips
  • Future Development of High-efficiency Microchips Technology Facilitate Usage in Electronics and Consumer Goods
  • Safer Nano-laser Technology Using Photon Up-conversion Method
  • Stable Nano-laser Technology finds high Adoption Potential in the Healthcare and Electronic Industries

Industry Interactions

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  • Key Industry Contacts (Continued)
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Related Research
This issue of the Nanotech TechVision Opportunity Engine (TOE) profiles conductive graphenes made by bacterial reduction, biodegradeable nano-polymers for tissue engineering, nanoencapsulation for canniboid delivery, nanodiamonds synthesized by laser milling, inorganic fullerene-like tungstern disulphide adhesives, super clean graphene made by activated carbon-based methods, carbon nanotube-based high temperature resistive adhesives, cost-efficient transistors for electronic devices used in space, lithium-ion batteries with high power and short charging time, tuneable 3D circuit for transporting spin current in microchips, and nano-laser technology made using photon up-conversion method. The Nanotech TechVision Opportunity Engine (TOE) provides intelligence on technologies, products, processes, applications, and strategic insights on nanotechnology-related innovations and their impact across various industries. Technology focus areas include nanomaterials, nanocoatings, nanohealthcare, nanomedicine, and nanomanufacturing. The Chemicals and Advanced Materials cluster tracks research and innovation trends and developments across specialty chemicals, plastics, polymers, chemicals, bio-chemicals, metals, coatings, thinfilms, surface treatments, composites, alloys, oil and gas, fuel additives, fibers, and several other related technologies and its impact and application across industries. Keywords: Graphene, nano-polymer, tissue engineering, nanoencapsulation, nanodiamonds, adhesives, carbon nanotubes, transistors, lithium-ion batteries, microchips, nano-lasers
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Industries Chemicals and Materials
WIP Number D787-00-7C-00-00
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