8 New Polymers Books Reshaping Research in 2025

After analyzing a decade's worth of research and breakthroughs from Fudan University's Department of Macromolecular Science, this book offers an in-depth look at molecular engineering of polymers. You'll explore a range of topics from polymer chemistry and physics to innovative applications like fiber polymer batteries and precise protein self-assembly. The authors, each an expert in their respective fields, provide insights into both theoretical frameworks such as phase field and self-consistent field methods, and practical advances in energy storage and polymer processing. If you're a student or researcher wanting to grasp recent advances in polymer science and apply them in your work, this book provides a focused, research-driven perspective without unnecessary jargon or fluff.

The methods Anilkumar Parambath developed while synthesizing polymer technologies for drug delivery shape this thorough examination of oral therapeutics. You gain insight into polymer classifications, synthesis methods, and their multifunctional roles in protecting drugs from gastric environments and enabling targeted release within the gastrointestinal tract. This book benefits pharmaceutical researchers, formulation scientists, and industry professionals aiming to optimize oral drug delivery systems for consistent pharmacokinetic profiles. Chapters detail capsule-forming polymers and functional coatings, providing a grounded understanding of both the science and regulatory considerations that impact drug efficacy and patient outcomes.

This tailored book explores the forefront of polymer molecular engineering as it stands in 2025, focusing on the latest research and discoveries that are shaping the field. It examines emerging polymer synthesis techniques, novel molecular designs, and cutting-edge applications with a focus that matches your background and interests. By tailoring content to your specific goals, this personalized guide reveals how recent advances impact energy materials, biocompatible polymers, and sustainable innovations. Whether you aim to deepen your knowledge of polymer physics or explore futuristic developments, this book offers a focused and engaging experience that keeps you ahead in this rapidly evolving domain.

Drawing from extensive expertise in biomedical materials, Rangasamy Jayakumar and his co-authors present an in-depth exploration of synthetic polymers reshaping drug and biotherapeutics delivery. The book meticulously breaks down each polymer's design, synthesis, and fabrication methods, alongside their applications in creating nanoparticles, hydrogels, and scaffolds tailored for controlled drug release and biodegradability. You gain a clear understanding of how these polymers can be engineered to minimize toxicity and immune reactions, with detailed analysis of their roles in treating cardiovascular, neurological, and gastrointestinal diseases. This resource suits material scientists, pharmaceutical researchers, and clinicians eager to stay abreast of the evolving landscape in polymer-based therapeutics.

When the authors explored the finite element method applied specifically to polymers and composites, they uncovered a niche largely untouched in published literature. This book walks you through the mechanical properties, fatigue and creep behavior, thermal responses, and vibrational analyses of these materials, leveraging experimental data alongside mathematical and numerical modeling. You’ll find detailed chapters on testing methods and industrial applications spanning aerospace, automotive, and medical sectors, making it especially relevant if your work involves simulation or design optimization of polymeric composites. If you’re seeking practical insights into how finite element analysis enhances material characterization and performance prediction, this book delivers a focused, applications-oriented perspective.

Drawing from his extensive background in materials science, Ram K. Gupta explores the intersection of conducting polymers and 3D printing technology, shedding light on their unique electrical and electrochemical properties. You’ll gain insight into the synthesis methods and challenges these smart materials face when integrated into additive manufacturing. The book delves into applications ranging from energy devices to biomedical sensors, offering a nuanced understanding of how these polymers can be shaped into complex structures cost-effectively. If you’re involved in materials engineering or biotechnology, this text equips you with the latest knowledge to navigate and contribute to this advancing field.

This tailored book explores the forefront of polymer science, focusing on emerging technologies shaping material innovation in 2025 and beyond. It covers the latest discoveries in molecular structures, sustainable polymers, and advanced applications, all curated to match your specific interests and background. By concentrating on your goals, this personalized guide reveals how new polymer developments impact industries like energy, biomedicine, and manufacturing. The content balances foundational knowledge with cutting-edge research, enabling you to grasp complex trends with clarity and depth. This approach ensures you stay ahead in a field rapidly evolving with novel materials and techniques.

Drawing from extensive expertise in polymer chemistry, Eram Sharmin and Fahmina Zafar explore the evolving role of vegetable oil-based polymers in this detailed volume. You gain a thorough understanding of the chemistry behind these biobased polymers, their preparation methods, and a variety of surface applications ranging from coatings to biomedical uses. Chapters cover fundamental principles and characterization techniques, then transition into practical insights on producing epoxies, alkyds, and polyurethanes from vegetable oils. This book suits scientists, engineers, and advanced students who want to expand their materials knowledge with sustainable alternatives, particularly in industries like aerospace, packaging, and cosmetics.

Mahmoud Atef Abdulhamid’s deep expertise in polymer science shines through as he explores how polymer membranes can significantly boost energy efficiency across industries. You’ll gain detailed insights into specific applications like gas separation, water desalination, and fuel cells, alongside advanced materials such as bio-based and mixed matrix membranes. The book carefully balances the technical challenges and developmental progress, making it a solid resource if you’re interested in the intersection of materials science and sustainable energy solutions. It’s especially suited for engineers and researchers aiming to apply membrane technology to improve industrial energy performance.

What started as a deep dive into the potential of bio-renewable plant phenols evolved into a detailed exploration of their role in creating high-performance polymers. Samy Madbouly and Chaoqun Zhang examine the depolymerization of lignin into phenolic compounds, offering you insights into synthesizing and characterizing advanced polymers and composites. You’ll learn about the latest developments in phenol-based nanocomposites and their applications across biomedicine and automotive industries, especially through chapters focused on processing techniques and material properties. This book suits materials scientists, engineers, and advanced students seeking to harness plant-based chemicals for innovative polymer design and commercialization.