Journal of Polymer Science Research

Aims and Scope

Journal of Polymer Science Research (JPOR) is an open access peer-reviewed journal that aims to provide a platform for the exchange of ideas and research findings in the field of polymer science. By promoting the development and advancement of polymer science and its related disciplines, JPOR enables polymers to play an active role in a wide variety of applications such as medical, engineering and nanotechnology. 

JPOR is dedicated to reporting on the latest advances in polymer-based technologies, the innovative use of polymers and polymer processing in industrial and organic synthesis. This journal covers all aspects of polymeric materials from fundamental theories to applied research, including but not limited to polymer synthesis, polymer modification, polymer characterization, processing and applications, and advanced polymers for advanced composite products. JPOR serves as an ideal forum for researchers to present their research findings and new ideas so that they can benefit from constructive peer review and feedback from other experts in the field.

The theme of JPOR includes topics such as polymer synthesis and characterization, polymer engineering and processing, industrial and organic synthesis of polymers and composites, nanotechnology and nanocomposite materials, high performance polymers, biomaterials, surface science, polymer and composite theory, computer simulation, and environmental fate of polymers. All manuscripts submitted to JPOR must be of original work and based on a valid research question. The journal encourages contributions from both research and industry, and welcomes all research pertaining to polymers and its related fields.

JPOR aims to provide an ideal platform for the communication of the most recent and innovative research findings in the field of polymer science. The journal welcomes submissions from researchers worldwide and encourages interdisciplinary collaborations. By providing a forum for the exchange of ideas and sharing of knowledge, JPOR gives researchers from diverse backgrounds the opportunity to connect and contribute to the advancement of polymer science.

Few keywords were outlined that belongs to the journals

• Polymer synthesis
• Hydrolysis
• Ozone cracking
• Macromolecules
• Peptides
• Proteins
• Renewable energy
• Rubber
• Thermodynamics
• Dna polymerase
• Rna polymerase
• Polysaccharides
• Kinetics
• Polymers
• Polymerization
• Catalysis
• Crystallization
• Polymerase
• Polymerase chain reaction
• Elastomer
• Electrochemistry
• Taq polymerase
• Biological molecules
• Thermoforming
• Polymeric
• Biopolymers
• Tissue engineering
• Drug delivery
• Thermoplastics
• Optical activity
• Carbohydrate polymers
• Biopolymer
• Fibres
• Polymer chemistry:
• Rna polymerase ii
• Macromolecular structure
• Polyolefins
• Synthetic polymers
• Polymeric materials
• Polyamides
• Porous materials
• Actin polymerization
• Taq dna polymerase
• Biomacromolecules
• Plastics engineering
• Thermosets
• T7 rna polymerase
• Biodegradable polymers
• Polymer engineering:
• Molecular size
• Organometallic compounds
• Polymer composites
• Polymer synthesis
• Nanocomposites
• Nanostructures
• Polycarbonates
• Polymer materials
• Polymer additives
• Supramolecular chemistry
• Polymeric nanoparticles
• Polyesters
• Recombinase polymerase amplification
• 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