Journal of Polymers and the Environment, Journal Year: 2024, Volume and Issue: unknown
Published: Oct. 15, 2024
Language: Английский
Polymer-Plastics Technology and Materials, Journal Year: 2024, Volume and Issue: 64(4), P. 397 - 438
Published: Oct. 1, 2024
Language: Английский
Citations
11
Polymers for Advanced Technologies, Journal Year: 2024, Volume and Issue: 35(10)
Published: Oct. 1, 2024
ABSTRACT Nanogels represent a significant innovation in the fields of nanotechnology and biomedical engineering, combining properties hydrogels nanoparticles to create versatile platforms for drug delivery, tissue bioimaging, other applications. These nanoscale hydrogels, typically ranging from 10 1000 nm, possess unique characteristics such as high water content, biocompatibility, ability encapsulate both hydrophilic hydrophobic molecules. The review explores synthesis, structural configurations, stimuli‐responsive nature nanogels, highlighting their adaptability targeted including across challenging barriers like blood–brain barrier. Furthermore, paper delves into applications particularly delivery systems, demonstrating potential revolutionize these fields. Despite promising preclinical results, challenges remain translating technologies clinical practice, issues related stability, scalability, regulatory approval. concludes by discussing future perspectives, emphasizing need further research optimize ultimately aiming enhance efficacy safety settings.
Language: Английский
Citations
11
ACS Applied Materials & Interfaces, Journal Year: 2025, Volume and Issue: 17(2), P. 2791 - 2813
Published: Jan. 6, 2025
Transplantation of bone implants is currently recognized as one the most effective means treating defects. Biobased and biodegradable polyester composites combine good mechanical degradable properties polyester, thereby providing an alternative for implant materials. Bone tissue engineering (BTE) accelerates defect repair by simulating microenvironment. Composite scaffolds support formation further accelerate process repair. The introduction 3D printing technology enables preparation to be more precise, reproducible, flexible, which a very promising development. This review presents physical BTE summarizes strategies adopted domestic international scholars improve based on biobased polyester/ceramic in recent years. In addition, future development prospects field challenges expanding production clinical applications are presented.
Language: Английский
Citations
1
Polymers for Advanced Technologies, Journal Year: 2024, Volume and Issue: 35(12)
Published: Dec. 1, 2024
ABSTRACT This review aims to provide a comprehensive analysis of recent advancements in smart microneedles (MNs) within the biomedical field, focusing on integration stimuli‐responsive polymers for enhanced therapeutic and diagnostic applications. Conventional drug delivery methods are known face limitations precision, safety, patient compliance, which can be addressed by innovative features MNs. Through use various polymers, these MNs have been designed react environmental or physiological cues, allowing on‐demand release, biomarker sensing, localized interventions. Fundamental materials used fabrication MNs, including metals, composite hydrogels, reviewed, different categories stimuli‐responsiveness, such as photo, electro, thermal, mechanical, biochemical, explored. Application‐specific designs areas delivery, cancer therapy, diabetes management, skin disease treatments also examined. this discussion, it is highlighted that poised play significant role advancing personalized noninvasive medical treatments.
Language: Английский
Citations
4
Polymers for Advanced Technologies, Journal Year: 2025, Volume and Issue: 36(2)
Published: Feb. 1, 2025
ABSTRACT Recent developments in polymer materials have led to an increased implementation of hydrogels biomedical settings, especially the creation smart hydrogels. Traditional single‐network often exhibit challenges, such as poor mechanical strength, insufficient biocompatibility, and slow response rates. To address these issues, researchers introduced Interpenetrating Polymer Network (IPN) hydrogels, which significantly improve strength via topological entanglements physical interactions. This dual‐network design not only enhances biocompatibility but also responsiveness stimuli, endowing with distinctive properties like cell adhesion, conductivity, hemostatic functions, antioxidant abilities, color‐changing properties. The purpose this article is elucidate factors that trigger stimuli IPN their impacts on cellular behavior, various applications they can serve. A comprehensive overview provided regarding classification, mechanisms, performance attributes, related subjects. Ultimately, review emphasizes promise hold fulfilling increasing need for innovative improved features sector.
Language: Английский
Citations
0
Polymers for Advanced Technologies, Journal Year: 2025, Volume and Issue: 36(2)
Published: Feb. 1, 2025
ABSTRACT The increasing proliferation of electronic devices and advanced communication networks has resulted in heightened electromagnetic interference (EMI), posing significant challenges both technological environmental contexts. Traditional EMI shielding materials, such as metals composite coatings, offer limited adaptability are unable to meet the dynamic demands modern systems. Recent advancements have introduced smart stimuli‐responsive materials for shielding, which provide real‐time tunability, thereby addressing limitations conventional static solutions. These leverage various mechanisms—such compressive tensile strains, phase transitions, shape memory effects, responses chemical agents, humidity, or crossover angle changes—to dynamically adjust their effectiveness (EMI‐SE). This review provides an in‐depth analysis recent progress technologies, highlighting tunable mechanisms, material compositions, applications. Furthermore, it discusses existing potential future research directions required advancement this technology. By enabling environments, present a promising solution telecommunications, wearable electronics, aerospace, defense sectors.
Language: Английский
Citations
0
Polymers for Advanced Technologies, Journal Year: 2025, Volume and Issue: 36(2)
Published: Feb. 1, 2025
ABSTRACT The integration of MXenes into electrospun fibers represents a significant leap forward in advancing biomedical applications. This review delves the synergistic combination and fibers, highlighting their multifaceted capabilities tissue engineering, drug delivery, antimicrobial activity, cancer therapy, biosensing. Exceptional properties MXene, including electrical conductivity, hydrophilicity, mechanical robustness, surface tunability, offer unique advantages when incorporated nanofibrous scaffolds. By enhancing strength, promoting cellular interactions, enabling targeted therapeutic functions, MXene‐based demonstrate immense potential addressing critical challenges biomedicine. provides comprehensive overview recent advances MXene synthesis, incorporation matrices, applications, while also identifying future directions this emerging field.
Language: Английский
Citations
0
ACS Polymers Au, Journal Year: 2025, Volume and Issue: unknown
Published: March 18, 2025
Materials derived from natural sources are demanded for future applications due to the combination of factors such as sustainability increase and legislature requirements. The availability efficient analysis vegetable oils (triacylglycerides) open an enormous potential incorporating these compounds into various products ensure ecological footprint decreases provide advantageous properties eventual products, flexibility, toughness, or exceptional hydrophobic character. double bonds located in many centers chemical functionalization, epoxidization, hydroxylation, nucleophile substitutions using acids anhydrides. Naturally occurring castor oil comprises a reactive vacant hydroxyl group, which can be modified via numerous approaches. This comprehensive Review provides overall insight toward multiple materials utilities functionalized glycerides additive manufacturing (3D printing), polyurethane (including their recycling), coatings, adhesives. work complex list investigated studied throughout available literature describes principles each selected application.
Language: Английский
Citations
0
Polymers for Advanced Technologies, Journal Year: 2025, Volume and Issue: 36(4)
Published: April 1, 2025
ABSTRACT Smart polymeric micelles have emerged as versatile nanocarriers in targeted drug delivery, driven by their unique ability to encapsulate therapeutic agents and deliver them with precision specific sites. This review delves into the recent advancements design, functionality, biomedical applications of these nanostructures, emphasizing role enhancing efficacy while minimizing systemic toxicity. The begins discussing principles behind stimuli‐responsive micelles, exploring mechanisms triggered pH, redox conditions, temperature, light achieve controlled release. It highlights advances functionalization strategies, including surface modifications targeting ligands stimuli‐sensitive linkages, which enhance specificity adaptability pathological microenvironments. Subsequent sections focus on cutting‐edge applications, particularly cancer therapy, regenerative medicine, theranostics, showcasing potential addressing complex clinical challenges. Emerging technologies, such multi‐stimuli‐responsive systems hybrid are explored for overcome limitations loading, stability, release profiles. Despite significant progress, current technologies still face challenges, achieving consistent reproducible loading efficiencies, maintaining stability physiological environments, controlling precise kinetics, ensuring scalable cost‐effective production methods. concludes a discussion challenges future perspectives field, need integrating advanced polymer chemistry, nanotechnology, biomedicine develop next‐generation smart micelles. By providing comprehensive overview, this article aims underscore transformative advancing medicine interventions.
Language: Английский
Citations
0
Polymers for Advanced Technologies, Journal Year: 2025, Volume and Issue: 36(4)
Published: April 1, 2025
ABSTRACT The growing demand for self‐powered wearable electronic devices in healthcare, fitness, and entertainment has driven significant advancements energy harvesting technologies. This review explores the latest progress mechanisms that enable sustainable autonomous devices, with a particular emphasis on role of polymers their development. Polymers offer unique combination mechanical flexibility, biocompatibility, lightweight properties, making them ideal applications. systematically categorizes major technologies into three primary mechanisms: thermoelectric generators (TEGs), piezoelectric harvesters (PEHs), triboelectric nanogenerators (TENGs). Each section provides an in‐depth discussion working principles, material innovations, fabrication techniques, applications these systems. Beyond fundamental mechanisms, discusses hybrid systems integrate multiple sources to maximize power generation ensure continuous device operation. storage technologies, such as flexible supercapacitors micro‐batteries, is also highlighted address intermittency challenges ambient sources. Despite progress, remain improving conversion efficiency, enhancing durability, optimizing system integration real‐world identifies key research directions overcoming challenges, including advanced materials engineering, miniaturization artificial intelligence‐driven management strategies. findings presented this provide valuable insights development next‐generation paving way efficient electronics seamlessly daily life.
Language: Английский
Citations
0