Call for Abstract

Scientific Program

6th International Conference on Polymer Chemistry, will be organized around the theme “Evaluating Current Trends and Advances in Polymer Chemistry & Biopolymers”

Euro Polymer Chemistry 2020 is comprised of 21 tracks and 145 sessions designed to offer comprehensive sessions that address current issues in Euro Polymer Chemistry 2020.

Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.

Register now for the conference by choosing an appropriate package suitable to you.

Track 1:Polymer Synthesis

  • Track 1-1Polymer Synthesis and Reactions
  • Track 1-2Recent Developments In Polymer Synthesis
  • Track 1-3Polymer Design and Reaction
  • Track 1-4Stereochemistry of Polymers
  • Track 1-5Polymer Physics and Characterization
  • Track 1-6Chemistry of Industrial Polymers

Track 2:Polymer Engineering

  • Track 2-1Applied Polymer Science & Polymeric Materials
  • Track 2-2Advances in Macromolecular Science and Engineering
  • Track 2-3Plastic Engineering, Plastics-Materials and Processing Technology
  • Track 2-4Smart Materials
  • Track 2-5Polymer Nanocomposite
  • Track 2-6Functional Polymers

Track 3:Polymer Technology

  • Track 3-1Bio-catalysis in Polymer Chemistry
  • Track 3-2Electrochemical Engineering
  • Track 3-3Conjugated Microporous polymer
  • Track 3-4Next Generation Bioelectronics
  • Track 3-5Optoelectronic Polymers
  • Track 3-6Polymer Rheology

Track 4:Polymer Nanotechnology

  • Track 4-1Polymer Nanostructures
  • Track 4-2Nanopolymers and Nanotechnology
  • Track 4-3Nanoporous Materaials and their Applications
  • Track 4-4Nanomaterials
  • Track 4-5Polymer Nanocomposites

Track 5:Polymerization Techniques

  • Track 5-1Techniques of Polymerization
  • Track 5-2Polymer Rheology and Polymer Morphology
  • Track 5-3Recent Advances in Polymer Science
  • Track 5-4Addition Polymerization or Chain-Growth Polymerization
  • Track 5-5Polymer Technology

Track 6:Polymer Synthesizing Techniques

  • Track 6-1Inorganic Polymer Synthesis
  • Track 6-2Free-radical Polymerization
  • Track 6-3Ionic Polymerization
  • Track 6-4Polycondensation
  • Track 6-5Polyaddition
  • Track 6-6Coordination Polymerization
  • Track 6-7Biopolymer Synthesis
  • Track 6-8Protein Biosynthesis
  • Track 6-9Cell-Free Protein Synthesis
  • Track 6-10DNA Synthesis

Track 7:Polymer Production Methods

  • Track 7-1Blow Molding, Thermoforming and Rotomoulding
  • Track 7-2Extrusion and extrusion processes
  • Track 7-3Fiber, Films, and Membranes
  • Track 7-4Injection Moulding
  • Track 7-5Mixing and Compounding
  • Track 7-6Morphology and Structural Development
  • Track 7-7Cross Linked Polymers

Track 8:Polymers in Medicine

  • Track 8-1Polymers for Stem Cell
  • Track 8-2Polymers in Medicines
  • Track 8-3Biomedical Polymers and Nanomedicines
  • Track 8-4Polymers for Tissue Engineering
  • Track 8-5Biopolymers in Biofibres & Microbial Cellulose
  • Track 8-6Hydrogels used in Biomedical Applications
  • Track 8-7Hydrogels used in Drug Delivery
  • Track 8-8Materials for Health-care

Track 9:Biomaterials and Biopolymers

  • Track 9-1Biopolymers in Biomedical Applications
  • Track 9-2Biopolymers as Materials
  • Track 9-3Future and Scope of Biopolymers
  • Track 9-4Production and Commercialization of Biopolymers
  • Track 9-5Commercial application of Biopolymers
  • Track 9-6Biodegradable Polymers & Biocomposite Materials
  • Track 9-7Polyhydroxy Alkanoates
  • Track 9-8Green Chemicals: Biopolymers and Polymer Chemistry
  • Track 9-9Bioplastics

Track 10:Biobased and Biodegradable polymers

  • Track 10-1Bioplastics from natural polymers, directly extracted from biomass: Polysaccharides, Proteins, Bacterial polymers
  • Track 10-2Thermoplastic and thermosetting bioplastics, indirectly produced from biomass: Poly(lactic acid) and Bio-polyesters, Glyceride based materials from vegetable oils, Materials based on polyols extracted from biomass
  • Track 10-3Bioproduction, biotech & biodegradability: Biocatalysis and biotechnological production, Enzymatic production and modification, Biodegradation, eco-toxicity, LCA
  • Track 10-4Industrial applications: Bio-based and/or biodegradable packaging, Bio-based building materials
  • Track 10-5Multiphase systems: Bio-based blends, Biocomposites and nano-biocomposites

Track 11:Sustainable and Eco-friendly polymers

  • Track 11-1Eco-friendly polymers and recycling
  • Track 11-2Biopolymers
  • Track 11-3Polymers for renewable energy
  • Track 11-4Electroactive Polymers
  • Track 11-5Multi-techniques of materials characterization
  • Track 11-6Progress in Polymer Physics
  • Track 11-7Frontiers in Green Materials and Technology

Track 12:Polymer Physics and Opto-electronic Polymers

  • Track 12-1Polymers for Optics, Optoelectronics and Energy Conversion
  • Track 12-2Advances in Polymer and Hybrid Material Technology
  • Track 12-3Hybrid Materials
  • Track 12-4Polymer Informatics
  • Track 12-5Polymer Electronics
  • Track 12-6Structures and Physical Properties of Polymers
  • Track 12-7Polymer Processing
  • Track 12-8High Performance Polymers

Track 13:Materials science and Polymer colloids

  • Track 13-1Natural and Synthetic Elastomers
  • Track 13-2Polymeric Gels and Soft Matter
  • Track 13-3Processing, Theology and Mechanical Properties
  • Track 13-4Polymer Colloids
  • Track 13-5Polymer Interfaces

Track 14:Functional Polymers

  • Track 14-1Bio-Related Polymers
  • Track 14-2Microplastics
  • Track 14-3Renewable resources and bio based polymers
  • Track 14-4Polymer Composites
  • Track 14-5Polymer Materials

Track 15:Supramolecular Polymers and 3D Printing

  • Track 15-1Polymer 3D Printing
  • Track 15-2Supramolecular Polymers
  • Track 15-3Supramolecular Chemistry and Complex Macromolecular Science
  • Track 15-4Frontiers in Complex Macromolecular Systems

Track 16:Advanced Materials in Polymers

  • Track 16-1Polymer blends and alloys
  • Track 16-2Polymer foams
  • Track 16-3Process modeling and simulations
  • Track 16-4Process Monitoring, Control and Sensors
  • Track 16-5Reactive processing
  • Track 16-6Reactive processing
  • Track 16-7Rheology and Rheometry
  • Track 16-8Rubber and Elastomers
  • Track 16-9Polymers in all-solid-state batteries
  • Track 16-10Zeolites, metal-organic and porous polymers

Track 17:Macromolecules, Polymer Networks and Gels

  • Track 17-1Preparation and chemical design of networks and gels: controlled polymerization methods, organic and organic-inorganic networks and gels, micro- and nanocomposites, biopolymer gels, synthesis of hybrid systems with biopolymer motifs, physical gels, reacti
  • Track 17-2Gelation, network formation, and properties: structure changes during gelation and network formation; static and dynamic properties, swelling equilibrium and dynamics, gel state of matter: from liquids to solids on time/temperature scales; simulation and
  • Track 17-3Polymer networks and gels at work/service: gels in life sciences, controlled drug release and targeting, responsive gels in biomedical and diagnostic applications, gel constructs, contact lenses and eye devices, networks and gels from renewable resources,

Track 18:Plastics, Biopolymers and their Environmental Impact

  • Track 18-1Evaluating current environmental projects and regulations within The biopolymer industry
  • Track 18-2Assessing the feedstock’s landscape for the biopolymers’ production
  • Track 18-3Focusing on biopolymers in the circular economy
  • Track 18-4Elaborating on the application of biopolymers from peoples’ and planet’s perspective
  • Track 18-5Introducing new technologies in processing new bio-based materials
  • Track 18-6Brand owners perspective on the use and application of biopolymers
  • Track 18-7Focusing on the basic understanding of biodegradability
  • Track 18-8Assessing the biobased new content
  • Track 18-9Analysing the impact of biobased plastics on the CO2 reduction
  • Track 18-10Changing consumer preference towards eco-friendly packaging
  • Track 18-11Assessing the end-of-life of materials, through the life cycle assessment

Track 19:Advances in Polymer Synthesis & Polymer Chemistry

  • Track 19-1Advanced complex processing
  • Track 19-2High performance composite processing
  • Track 19-3Advanced polymer characterization
  • Track 19-4Polymer Blends
  • Track 19-5Polymers and Microfluidics
  • Track 19-6Functional Polymer and its Applications
  • Track 19-7Valorization of agro-residues and wastes for synthesis of monomers and chemicals
  • Track 19-8Latex chemistry and technology
  • Track 19-9Materials for clean and sustainable energy

Track 20:Novel Developments in Polymer Synthesis

  • Track 20-1Polymers for emerging technologies
  • Track 20-2Polymerization Catalysis
  • Track 20-3Future Market of Polymers
  • Track 20-4Polymers in holography
  • Track 20-5Organic polymers used in water purification
  • Track 20-6Polymers in aircraft, aerospace, and sports equipment
  • Track 20-7Polymers in operation of bulletproof vests and fire-resistant jackets

Track 21:Current Trends in Polymer Chemistry

  • Track 21-1Novel and synthetic polymerization methods
  • Track 21-2Renewable polymer synthesis
  • Track 21-3Advanced characterization of polymers
  • Track 21-4Macromolecular structure and function
  • Track 21-5Synthesis and application of novel polymers
  • Track 21-6Reactions and chemistry of polymers
  • Track 21-7Polymerization mechanisms and kinetics
  • Track 21-8Higher-order polymer structures
  • Track 21-9Structure-property relationships of polymers