“…Additionally, cellulose-based hydrogels have been identified as promising materials for antibacterial wound dressing, capable of mimicking the skin's microenvironment. The exploration of cellulose from diverse sources for hydrogel production emphasizes the importance of biocompatibility and biodegradability in creating effective wound-healing solutions [46].…”
Section: Cellulose-based Hydrogels For Antibacterial Wound Dressingmentioning
This review paper delves into the realm of hybrid cellulose-based materials and their applications in 2D nano-delivery systems. Cellulose, recognized for its biocompatibility, versatility, and renewability, serves as the core matrix for these nanomaterials. The paper offers a comprehensive overview of the latest advancements in the creation, analysis, and application of these materials, emphasizing their significance in nanotechnology and biomedical domains. It further illuminates the integration of nanomaterials and advanced synthesis techniques that have significantly improved the mechanical, chemical, and biological properties of hybrid cellulose-based materials.
“…Additionally, cellulose-based hydrogels have been identified as promising materials for antibacterial wound dressing, capable of mimicking the skin's microenvironment. The exploration of cellulose from diverse sources for hydrogel production emphasizes the importance of biocompatibility and biodegradability in creating effective wound-healing solutions [46].…”
Section: Cellulose-based Hydrogels For Antibacterial Wound Dressingmentioning
This review paper delves into the realm of hybrid cellulose-based materials and their applications in 2D nano-delivery systems. Cellulose, recognized for its biocompatibility, versatility, and renewability, serves as the core matrix for these nanomaterials. The paper offers a comprehensive overview of the latest advancements in the creation, analysis, and application of these materials, emphasizing their significance in nanotechnology and biomedical domains. It further illuminates the integration of nanomaterials and advanced synthesis techniques that have significantly improved the mechanical, chemical, and biological properties of hybrid cellulose-based materials.
“…Bacterial cellulose: BC is prized for its purity and unique mechanical properties. It is synthesized by bacteria without plant-based impurities such as hemicellulose and lignin [ 13 ].…”
This review paper provides an in-depth analysis of recent advancements in integrating two-dimensional (2D) materials with cellulose to enhance biosensing technology. The incorporation of 2D materials such as graphene and transition metal dichalcogenides, along with nanocellulose, improves the sensitivity, stability, and flexibility of biosensors. Practical applications of these advanced biosensors are explored in fields like medical diagnostics and environmental monitoring. This innovative approach is driving research opportunities and expanding the possibilities for diverse applications in this rapidly evolving field.
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