Nanomaterials supported by polymers for tissue engineering applications: A review

“…[18] Recently, new types of inorganic and metal-based hybrid nanomaterials such as MXene, Metal-organic frameworks (MOFs), and Transition metal dichalcogenides (TMDs) are extensively used in clothing, manufacturing, food, agriculture, energy, and medicine. [65][66][67] Among the nanomaterials used in textiles, metal oxides, and metal nanoparticles are noteworthy.…”

“…Inorganic nanomaterials are non‐carbon nanomaterials, mostly include metal‐based nanomaterials such as metal nanoparticles (Ag, Pt), metal oxides (ZnO, TiO 2 ), metal sulfides (ZnS, MoS 2 ), other metal compounds (hydroxides, phosphates, fluorides, chlorides), bimetallic nanomaterials (Ag−Au, Ag−Cu), nanoalloys, nanoceramics, and nanoclays [18] . Recently, new types of inorganic and metal‐based hybrid nanomaterials such as MXene, Metal‐organic frameworks (MOFs), and Transition metal dichalcogenides (TMDs) are extensively used in clothing, manufacturing, food, agriculture, energy, and medicine [65–67] . Among the nanomaterials used in textiles, metal oxides, and metal nanoparticles are noteworthy.…”

Nanotechnology for High‐Performance Textiles: A Promising Frontier for Innovation

“…[18] Recently, new types of inorganic and metal-based hybrid nanomaterials such as MXene, Metal-organic frameworks (MOFs), and Transition metal dichalcogenides (TMDs) are extensively used in clothing, manufacturing, food, agriculture, energy, and medicine. [65][66][67] Among the nanomaterials used in textiles, metal oxides, and metal nanoparticles are noteworthy.…”

“…Inorganic nanomaterials are non‐carbon nanomaterials, mostly include metal‐based nanomaterials such as metal nanoparticles (Ag, Pt), metal oxides (ZnO, TiO 2 ), metal sulfides (ZnS, MoS 2 ), other metal compounds (hydroxides, phosphates, fluorides, chlorides), bimetallic nanomaterials (Ag−Au, Ag−Cu), nanoalloys, nanoceramics, and nanoclays [18] . Recently, new types of inorganic and metal‐based hybrid nanomaterials such as MXene, Metal‐organic frameworks (MOFs), and Transition metal dichalcogenides (TMDs) are extensively used in clothing, manufacturing, food, agriculture, energy, and medicine [65–67] . Among the nanomaterials used in textiles, metal oxides, and metal nanoparticles are noteworthy.…”

Nanotechnology for High‐Performance Textiles: A Promising Frontier for Innovation

“…Hence, the integration of MnO 2 nanosheets into a suitable injectable hydrogel holds significant potential as a valuable strategy for modifying the detrimental microenvironment. This approach effectively addresses the concurrent requirements of targeted multimodal melanoma eradication and skin tissue regeneration [ [32] , [33] , [34] ].…”

Facile fabrication and biological investigations of metal oxides intercalated in kaolinite clay-based dressing material to improve wound healing ability in nursing care after post-operative period

“…1,2 It is well known that biomaterials play a pivotal role in TE-RM by producing functional and biological tissues/organs. 3,4 In this context, threedimensional (3D) frameworks can provide the necessary conditions for the proliferation and differentiation of cells using various interactions such as biochemical, bioelectrical, or biomechanical signals in order to promote tissue/organ regeneration. 5,6 However, the use of a single biomaterial cannot entirely mimic the natural composition of the extracellular matrix (ECM); thus, it will not be able to provide all the requirements for cellular interactions.…”

“…11,25,26 The comparison between "top-down" and "bottom-up" approaches also showed that CDs obtained from these two methods had different photoluminescence characteristics and chemical states. 22 In this context, the synthesized CDs may have a different distribution of functional groups (e.g., hydroxyl, carbonyl, carboxyl, and amine) and signicant variations in sp 3 -carbon content depending on the specic synthetic conditions. 27 Over the past decades, CDs also received extensive and enormous attention in TE-RM due to their numerous physicochemical and biological properties.…”

Carbon dots with tissue engineering and regenerative medicine applications