Journal of Polymer Science Research

Aims and Scope

Journal of Polymer Science Research (JPOR) is an open access, peer-reviewed journal that provides a platform for the exchange of ideas and research findings in polymer science. By fostering the development and advancement of polymer-related disciplines, JPOR plays a vital role in exploring the diverse applications of polymers in fields such as medicine, engineering, and nanotechnology.
 

JPOR is dedicated to publishing cutting-edge research on polymer-based technologies, innovative uses of polymers, and advancements in polymer processing. 

• Polymer Synthesis & Characterization: Studies on novel polymerization techniques, copolymerization, functionalization, and polymer structure analysis.
• Polymer Modification & Engineering: Research on polymer blending, compounding, and chemical/physical modifications to enhance performance.
• Polymer Processing & Applications: Advances in polymer manufacturing techniques, including molding, extrusion, and additive manufacturing.
• Industrial & Organic Polymer Synthesis: Development of new polymer materials for industrial applications and organic synthesis strategies.
• Nanotechnology & Nanocomposites: Investigations into nanoscale polymer structures and their applications in nanomedicine, electronics, and material sciences.
• High-Performance Polymers: Innovations in polymers designed for extreme environments, aerospace, automotive, and high-strength applications.
• Biomaterials & Biopolymers: Research on bio-based and biodegradable polymers, their medical applications, and their role in sustainability.
• Surface Science & Functional Coatings: Studies on polymer surface modifications, coatings, and their interactions with various environments.
• Polymer and Composite Theory & Simulation: Computational modeling and theoretical approaches for understanding polymer behaviors and properties.
• Environmental Impact & Sustainability: Investigations into the lifecycle, degradation, and recyclability of polymer materials.

Additionally, we are interested in articles that discuss the development of artificial intelligence (AI) based tools and techniques for polymer research, as well as the integration of AI with other advanced technologies in the polymer industry. The journal covers a broad spectrum of topics, including but not limited to:

• Biological molecules
• Thermoforming
• Polymeric
• Tissue engineering
• Ozone cracking
• Drug delivery
• Thermoplastics
• Optical activity
• Carbohydrate polymers
• Fibres
• Hydrolysis
• Polymer chemistry:
• Rna polymerase ii
• Macromolecular structure
• Polyolefins
• Synthetic polymers
• Polymeric materials
• Peptides
• Proteins
• Rubber
• Thermodynamics
• Dna polymerase
• Rna polymerase
• Kinetics
• Catalysis
• Polymerase
• Elastomer
• Electrochemistry
• Taq polymerase
• Polymerase chain reaction
• Polyamides
• Porous materials
• Actin polymerization
• Taq dna polymerase
• Crystallization
• Biomacromolecules
• Plastics engineering
• Thermosets
• T7 rna polymerase
• Biodegradable polymers
• Polymer engineering:
• Molecular size
• Macromolecules
• Organometallic compounds
• Polymer composites
• Nanocomposites
• Renewable energy
• Nanostructures
• Polycarbonates
• Polymer materials
• Polymer additives
• Supramolecular chemistry
• Polymeric nanoparticles
• Polyesters
• Recombinase polymerase amplification
• Polysaccharides
• Polymer physics
• Polymer processing
• Molecularly imprinted polymers
• Polymer blends
• Biomedical applications
• Polymer analysis
• Polymerization mechanism
• Supramolecular polymers
• Polymeric micelles
• Tubulin polymerization
• Smart polymers
• Synthetic polymers
• Mucoadhesive polymers
• Water-soluble polymers for pharmaceutical applications
• Polymerization shrinkage
• Polymerase eta