Aims and Scope:

AOJ Polymer Science (AOJPS) stands as a distinguished peer-reviewed journal dedicated to exploring the vast realm of polymer science and its diverse applications. With its commitment to advancing the frontiers of knowledge in this dynamic field, AOJPS provides a platform for researchers, scientists, and engineers to share their groundbreaking research findings and insights.

At the heart of AOJPS lies a comprehensive coverage of polymer science, encompassing various aspects of polymer synthesis, characterization, and processing. The journal welcomes original research articles, in-depth reviews, and concise communications that delve into topics ranging from polymer physics and materials science to polymer engineering and polymer-based biomaterials. By embracing such a broad spectrum of subjects, AOJPS fosters a holistic understanding of the fundamental principles and practical implications of polymer science.

Within its pages, AOJPS serves as a gateway to cutting-edge research, exploring the synthesis of novel polymers, their intricate molecular structures, and their remarkable properties. It provides a platform for researchers to share their insights on polymer processing techniques, investigating innovative methodologies and advanced technologies that shape the development of new materials with tailored properties. Through its emphasis on polymer-based biomaterials, the journal also highlights the critical role of polymers in the field of biomedical engineering, paving the way for groundbreaking advancements in tissue engineering, drug delivery, and regenerative medicine.

AOJPS places a strong emphasis on fostering innovation and advancements in the field of polymer science. It actively encourages the exploration of new technologies, techniques, and methodologies that push the boundaries of polymer research. The journal invites contributions that showcase novel synthesis approaches, innovative characterization techniques, and state-of-the-art processing methods. By featuring the latest advancements, HOJPS catalyzes the development of new materials, manufacturing processes, and applications that have far-reaching implications across numerous industries.

Furthermore, AOJPS recognizes the interdisciplinary nature of polymer science and encourages collaboration between researchers from various fields. The journal provides a platform for researchers to exchange ideas and knowledge, fostering cross-pollination of expertise between polymer scientists, materials scientists, chemists, physicists, and engineers. By promoting collaboration and interdisciplinary research, HOJPS drives innovation and facilitates the translation of fundamental scientific discoveries into practical applications.

To ensure the quality and relevance of published articles, AOJPS boasts a distinguished editorial board comprising eminent scholars and researchers from the field of polymer science. These esteemed professionals lend their expertise, contribute to the rigorous peer-review process, and guide the strategic direction of the journal. Their collective knowledge and experience ensure that AOJPS publishes high-quality research that advances the frontiers of polymer science.

In conclusion, AOJ Polymer Science (AOJPS) serves as a premier peer-reviewed journal, showcasing the latest advancements and discoveries in the dynamic field of polymer science. By providing a platform for researchers to share their research findings, insights, and innovations, AOJPS accelerates the progress of polymer science and its applications. With its commitment to excellence, interdisciplinary collaboration, and the pursuit of scientific breakthroughs, AOJPS plays a pivotal role in shaping the future of polymer science and its impact on various industries and technological advancements.

Classification:

1. Biopolymers and the Physics of Biological Systems
2. Charge Carrier Transport
3. Electroactive Polymers
4. Polymer Analysis and Characterization
5. Plastics Technology
6. Polymer Synthesis
7. Polymer Reactions
8. Applications of Polymer
9. Polymer Composites
10. Polymer Processing
11. Hydrogels
12. Innovative Characterization Techniques and Methodologies
13. Ionomers
14. Ion Transport
15. Magnetic and Ferroelectric Polymers
16. Thermosets
17. Monomers
18. Multiscale Modeling
19. Synthetic Reactions of Polymers
20. Oligomers
21. Polymer Solutions
22. Optoelectronics
23. Organometallic Chemistry for Catalysts
24. Mechanistic Studies
25. Physics and Applications of Block Copolymers
26. Polyelectrolytes
27. Polymer Electrochemistry
28. Polymer Electronics
29. Polymeric Actuators
30. Polymeric Nanomaterials and Nanostructured Polymers
31. Polymeric or Polymer-dispersed Liquid Crystals
32. Polymers at Surfaces and Interfaces
33. Polymers for Energy Applications
34. Shape Memory Polymers
35. Thermoplastics
36. Elastomers
37. Crystalline and Amorphous
38. Copolymerization
39. Ring-Opening Polymerization
40. Stereospecific Polymerization