Advances in Plastics for Antimicrobials, Photo-responsive Films, Heat Dissipation, Bonding 3D Element Layers, and Hydrogen Sulfide Removal

Advances in Plastics for Antimicrobials, Photo-responsive Films, Heat Dissipation, Bonding 3D Element Layers, and Hydrogen Sulfide Removal

RELEASE DATE
11-Aug-2017
REGION
Global
Research Code: D825-00-16-00-00
SKU: CM01455-GL-TA_20665

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$950.00

$712.50 save 25 %

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Description

This edition of the Plastics Advisor TOE profiles an antibacterial plastic developed using zinc, using a bio-based polymer as an effluent treatment additive, and a polymer that can dissipate heat. The issue also highlights the use of microwave irradiation to fuse 3D printed elements, a method to enable photoresponsive movement, a method to remove H2S from waste gas streams using polymeric catalyst. It also highlights how sulfur (VI) fluoride exchange click reaction can be used to produce polysulfates.

Plastics Advisor TechVision Opportunity Engine (TOE) provides intelligence on technologies, products, processes, applications, and strategic insights of various plastics and composites and also analyses their impact across various industries.

The Materials and Coatings 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 their impact and applications across industries.

Keywords: Antibacterial plastics, zinc, bio-based polymers, 3D printed elements, photoresponsive movement, polysulfates, hydrogen sulfide

Table of Contents

Research Advances in Plastics and Polymers

  • Using the Trace Form of Zinc for Developing Antibacterial Plastics
  • Vegetable-based Cationic Organic Polymer as an Effluent Treatment Additive
  • Enabling Photo Responsive Movement by Coating Azobenzene on a Plastic Film
  • Polymer with the Ability to Dissipate Heat
  • Applying Microwave Irradiation to Fuse 3D printed Element Interlayers
  • Using Biocompatible Feedstock to Develop Polycarbonates
  • Using Sulfur (VI) Fluoride Exchange Click Reaction to Produce Polysulfates
  • Removal of Hydrogen Sulfide from Waste Gas Streams Using Catalysts Impregnated in Polymers

Industry Contacts

  • Key Contacts
  • Key Contacts (continued)
Related Research
This edition of the Plastics Advisor TOE profiles an antibacterial plastic developed using zinc, using a bio-based polymer as an effluent treatment additive, and a polymer that can dissipate heat. The issue also highlights the use of microwave irradiation to fuse 3D printed elements, a method to enable photoresponsive movement, a method to remove H2S from waste gas streams using polymeric catalyst. It also highlights how sulfur (VI) fluoride exchange click reaction can be used to produce polysulfates. Plastics Advisor TechVision Opportunity Engine (TOE) provides intelligence on technologies, products, processes, applications, and strategic insights of various plastics and composites and also analyses their impact across various industries. The Materials and Coatings 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 their impact and applications across industries. Keywords: Antibacterial plastics, zinc, bio-based polymers, 3D printed elements, photoresponsive movement, polysulfates, hydrogen sulfide
More Information
No Index No
Podcast No
Industries Chemicals and Materials
WIP Number D825-00-16-00-00
Is Prebook No
Ti Codes D825