Aerogel Hybrids and Nanocomposites

• Format: eBook
• Language: English
• Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
• Subjects: Chemistry; Inorganic chemistry; Research & information: general; 3D droplet printing; aerogel; aerogel hybrid; aerogels; alginate; alginate aerogels; alkali; artificial bone substitution; base; bioactivity; bioaerogels; biodegradation; bone healing; cartilage regeneration; char; chitosan; chlorophenol mineralization; chronic wounds; covalent immobilization; environmental remediation; Eu(III) sorption; fibrous aerogel; flammability; focal adhesion; gel inkjet printing; graphene oxide; H2 production; heterogeneous catalyst; hydrophobicity; immortalized cell lines; in vitro and in vivo bioactivity; lanthanide luminescence; luminescent sensor; mechanotransduction; n/a; nanoscale interpenetrating network; osteoconduction; osteogenesis; phenol mineralization; photocatalysis; polymer-crosslinked aerogels; polyurea-crosslinked alginate aerogels; porous; porphyrin complexes; scaffold; secondary shaping; silica aerogel; simulated body fluids; sodium alginate; strength; supercritical carbon dioxide; supercritical CO2; superhydrophobic surfaces; Th(IV) sorption; thermal conductivity; thermal gelation; thermal properties; thermodynamic; tissue engineering; vancomycin; water decontamination; xerogel
• Online Access: Open Access: DOAB: description of the publication; Open Access: DOAB, download the publication

 The reprint 'Aerogel Hybrids and Nanocomposites' is a collection of the latest publications in the research, development, and use of complex aerogel-based materials. The applications of aerogels in hard tissue engineering, new wound-healing materials to challenge bacterial infections, and the making of wearable aerogel fibers reveal their role and potential in the biomedical fields. Catalytic applications of aerogels are well demonstrated by the papers on environmental protection and green hydrogen production. The efficient removal of rare-earth ions, as well as the sensitization of their luminescence in aerogels, makes them environmentally and analytically valuable materials.