Versatile templates from cellulose nanofibrils for photosynthetic microbial biofuel production

Keyphrases

• Cellulose Nanofibrils 100%
• TEMPO-oxidized Cellulose Nanofiber 100%
• Biofuel Production 100%
• Microalgae-based Biofuel 100%
• Cyanobacteria 37%
• Cellulose Nanofibril Hydrogels 37%
• Green Algae 37%
• Cellulose Nanofibril Films 25%
• Ca2+ 25%
• Alginate 25%
• H2 Production 25%
• Polyvinyl Alcohol 12%
• Plant-derived 12%
• Immobilization 12%
• Surface Charge 12%
• Photosynthetic Activity 12%
• Sustainable Production 12%
• Quartz Crystal Microbalance with Dissipation (QCM-D) 12%
• Surface Sensitivity 12%
• Nanomaterials 12%
• Complete Recovery 12%
• Efficient Production 12%
• Technology Platform 12%
• Submerged Cultivation 12%
• Sustainable Chemical Production 12%
• Filamentous Cyanobacteria 12%
• H2 Photoproduction 12%
• Immobilization Mechanism 12%
• Cultivation Conditions 12%
• Entrapment 12%
• Oxygenic 12%
• Photosynthetic Microbes 12%
• High Compatibility 12%
• Photosynthetic Microorganisms 12%
• Pore Size Tailoring 12%
• Platform-Based 12%
• Water Stability Performance 12%

INIS

• production 100%
• cellulose 100%
• biofuels 100%
• algae 55%
• matrices 33%
• hydrogels 33%
• cyanobacteria 33%
• surfaces 22%
• films 22%
• alginates 22%
• performance 11%
• control 11%
• microorganisms 11%
• water 11%
• stability 11%
• size 11%
• cross-linking 11%
• recovery 11%
• monitoring 11%
• charges 11%
• nanomaterials 11%
• solids 11%
• capacity 11%
• cultivation 11%
• fabrication 11%
• crystals 11%
• quartz 11%
• filaments 11%
• compatibility 11%
• microbalances 11%
• polyvinyl alcohol 11%
• photoproduction 11%

Chemical Engineering

• Hydrogel 100%
• Alginate 66%
• Film 66%
• Carbon Nanofibre 66%
• H2 Production 66%
• Polyvinyl Alcohol 33%