European Polymer Journal, Journal Year: 2021, Volume and Issue: 160, P. 110773 - 110773
Published: Sept. 14, 2021
Language: Английский
Biotechnology Advances, Journal Year: 2024, Volume and Issue: 71, P. 108318 - 108318
Published: Jan. 22, 2024
Language: Английский
Citations
28
International Journal of Molecular Sciences, Journal Year: 2024, Volume and Issue: 25(3), P. 1564 - 1564
Published: Jan. 26, 2024
Conducting polymers (CPs) are an innovative class of materials recognized for their high flexibility and biocompatibility, making them ideal choice health monitoring applications that require flexibility. They active in design. Advances fabrication technology allow the incorporation CPs at various levels, by combining diverse monomers with metal particles, 2D materials, carbon nanomaterials, copolymers through process polymerization mixing. This method produces unique physicochemical properties is highly customizable. In particular, development expanded surface area conductivity has significantly improved performance sensors, providing sensitivity expanding range available options. However, due to morphological diversity new thus variety characteristics can be synthesized other types functionalities, choosing right combination a sensor application difficult but becomes important. review focuses on classifying role CP highlights recent advances design, especially field healthcare monitoring. It also synthesizes sensing mechanisms evaluates electrochemical surfaces Furthermore, revolutionized will discussed detail.
Language: Английский
Citations
26
Gels, Journal Year: 2024, Volume and Issue: 10(7), P. 459 - 459
Published: July 12, 2024
Hydrogels are gaining popularity for use in wearable electronics owing to their inherent biomimetic characteristics, flexible physicochemical properties, and excellent biocompatibility. Among various hydrogels, conductive polymer-based hydrogels (CP HGs) have emerged as candidates future sensor designs. These can attain desired properties through tuning strategies extending from molecular design microstructural configuration. However, significant challenges remain, such the limited strain-sensing range, hysteresis of sensing signals, dehydration-induced functional failure, surface/interfacial malfunction during manufacturing/processing. This review summarizes recent developments polymer-hydrogel-based electrochemical biosensors over past five years. Initially serving carriers biomolecules, sensors advanced encompass a wider range applications, including development non-enzymatic facilitated by integration nanomaterials metals, metal oxides, carbon-based materials. Beyond numerous existing reports that primarily focus on biomolecule detection, we extend scope include fabrication nanocomposite polymer explore varied conductivity mechanisms applications. comprehensive evaluation is instrumental determining readiness these point-of-care translation state-of-the-art applications technology.
Language: Английский
Citations
19
ChemistrySelect, Journal Year: 2024, Volume and Issue: 9(6)
Published: Feb. 6, 2024
Abstract Supercapacitor's demand for hybrid vehicles, portable electronic gadgets, and high‐power applications is increasing unexpectedly. However, supercapacitors′ inadequacies (i. e., inflated costs, poor energy density, erratic cycle life) need to be addressed by introducing novel composite materials developing facile synthesis techniques which can give them high surface area improved electrochemical stability. Moreover, supercapacitor electrodes based on ternary composites should designed broaden their application range deal with the challenges. The primary aim of this review explore recent advances in field supercapacitors address challenges field. Specifically, we have focused nanocomposites comprising Graphene‐Conducting Polymers‐Metal Oxides (G‐CPs‐MOs) Sulfides (G‐CPs‐MSs). Our investigations centred around exploring various techniques, morphology analysing reported evaluations highlight potential prospects they present.
Language: Английский
Citations
16
Materials Chemistry and Physics, Journal Year: 2019, Volume and Issue: 242, P. 122528 - 122528
Published: Dec. 7, 2019
Language: Английский
Citations
129
Chemical Reviews, Journal Year: 2021, Volume and Issue: 122(4), P. 4700 - 4790
Published: Dec. 15, 2021
Bioelectronics have made strides in improving clinical diagnostics and precision medicine. The potential of bioelectronics for bidirectional interfacing with biology through continuous, label-free monitoring on one side precise control biological activity the other has extended their application scope to vitro systems. advent microfluidics considerable advances reliability complexity models promise eventually significantly reduce or replace animal studies, currently gold standard drug discovery toxicology testing. are anticipated play a major role this transition offering much needed technology push forward paradigm. Organic electronic materials, notably conjugated polymers, having demonstrated technological maturity fields such as solar cells light emitting diodes given outstanding characteristics versatility processing, obvious route due biomimetic nature, among merits. This review highlights polymers tissue vitro, aiming ultimately develop next generation We showcase across multiple length scales, involving varying complexity, from cell components complex 3D cultures. state art, possibilities, challenges toward translation systems also discussed throughout.
Language: Английский
Citations
85
Advanced Materials Technologies, Journal Year: 2021, Volume and Issue: 7(3)
Published: Oct. 5, 2021
Abstract The healthcare system has a drastic paradigm shift from centralized care to home‐based and self‐monitoring strategies; aiming reach more individuals, minimize workload in hospitals, reduce healthcare‐associated expenses. Particularly, wearable technologies are garnering considerable interest by tracking physiological parameters through motion activities, monitoring biochemical markers sweat, saliva, tears. Through their integrations with sensors, microfluidics, wireless communication systems, they allow physicians, family members, or individuals monitor multiple without any significant disruptions daily routine. Integrating flexible smart materials platforms have already enabled facile operations. Especially, carbon nanomaterials hold unique features, including low density, high strength, good conductivity, outstanding flexibility, versatile integration sensors. In this manuscript, comprehensively reviewed tremendous assets utilized technologies. Further, ultrasonic, acoustic energy harvesting devices, optical electrochemical platforms, presented.
Language: Английский
Citations
82
Matter, Journal Year: 2020, Volume and Issue: 3(6), P. 1923 - 1947
Published: Dec. 1, 2020
Language: Английский
Citations
80
Biomaterials, Journal Year: 2021, Volume and Issue: 276, P. 121008 - 121008
Published: July 7, 2021
Language: Английский
Citations
77
Polymers, Journal Year: 2020, Volume and Issue: 12(5), P. 1154 - 1154
Published: May 18, 2020
In this review we present polymeric materials for (bio)sensor technology development. We focused on conductive polymers (conjugated microporous polymer, polymer gels), composites, molecularly imprinted and their influence the design fabrication of bio(sensors), which in future could act as lab-on-a-chip (LOC) devices. LOC instruments enable us to perform a wide range analysis away from stationary laboratory. Characterized species represent promising candidates biosensor or sensor development, not only manufacturing these devices, but also surface biologically active materials’ immobilization. The presence biological compounds can improve sensitivity selectivity analytical tools, case medical diagnostics is extremely important. described are biocompatible, cost-effective, flexible an excellent platform anchoring specific compounds.
Language: Английский
Citations
76