Results 211 to 220 of about 117,143 (261)
Musculoskeletal Ultrasound and Protein-Based Hydrogels: Novel Approaches for the Diagnosis and Treatment of Sports Injuries. [PDF]
Polymers (Basel)Zhang H, Gao X, Yan Y.
europepmc +1 more source
Advanced Materials Interfaces, EarlyView.Chitosan–TiO2 composite hydrogels combine adsorption of organic pollutants with photocatalysis, allowing to remove 85% of a broadly diffused antibiotic (sulfamethoxazole) under direct sunlight irradiation, opening great promises for point‐of‐use, outdoor applications.
Beatrice Cerea +5 more
wiley +1 more source
Long-term stability of moisture-capturing hydrogels by preventing metal-mediated degradation. [PDF]
Nat CommunDíaz-Marín CD +10 more
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Advanced Materials Interfaces, EarlyView.Programmable etherified‐starch networks enable humidity‐responsive soft actuators with tunable and reversible deformation. By tailoring crosslinking density and structural design, rapid response, controllable actuation, and long‐term stability are achieved.
Dan Zhou +13 more
wiley +1 more source
Magnetic P(AA-AM)/SA-BC-Fe<sub>3</sub>O<sub>4</sub> Composite Hydrogel: Synthesis, Characterization, and Enhanced Adsorption Performance for Methylene Blue. [PDF]
GelsZheng Y +4 more
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Interface‐Engineered Binary Framework Composites: Advancing Porous Materials for Precision Medicine
Advanced Materials Interfaces, EarlyView.Binary framework composites integrate two complementary porous architectures into a unified platform, enabling multifunctional design, enhanced structural tunability, and improved physicochemical performance. By combining high surface area, ordered porosity, interfacial synergy, and versatile functionalization, these hybrid materials offer new ...
Navid Rabiee +3 more
wiley +1 more source
Hydrogel-Based Micro/Nanorobots for Advanced Biomedical Applications. [PDF]
GelsCho G, Ko J, Lee Y.
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Advanced Materials, 2019
AbstractFor a hydrogel coating on a substrate to be stable, covalent bonds polymerize monomer units into polymer chains, crosslink the polymer chains into a polymer network, and interlink the polymer network to the substrate. The three processes—polymerization, crosslinking, and interlinking—usually concur.
Xi Yao, Junjie Liu, Canhui Yang
exaly +3 more sources
AbstractFor a hydrogel coating on a substrate to be stable, covalent bonds polymerize monomer units into polymer chains, crosslink the polymer chains into a polymer network, and interlink the polymer network to the substrate. The three processes—polymerization, crosslinking, and interlinking—usually concur.
Xi Yao, Junjie Liu, Canhui Yang
exaly +3 more sources
Journal of Biomedical Materials Research, 1973
AbstractThe apparent biocompatibility of many synthetic and natural aqueous gel materials has encouraged their study and testing for a wide variety of biomedical device applications. Many of the physical and in particular the interfacial properties of such gels are highly dependent on the organization of water within and on the surface of the hydrogel.
Jhon, MS Jhon, Mu-Shik +1 more
openaire +3 more sources
AbstractThe apparent biocompatibility of many synthetic and natural aqueous gel materials has encouraged their study and testing for a wide variety of biomedical device applications. Many of the physical and in particular the interfacial properties of such gels are highly dependent on the organization of water within and on the surface of the hydrogel.
Jhon, MS Jhon, Mu-Shik +1 more
openaire +3 more sources