Atomfair Brainwave Hub: SciBase II / Bio-inspired and Biomimetic Engineering / Bio-inspired materials for space and environmental resilience

Bio-inspired materials for space and environmental resilience

Showing 253-264 of 269 articles

Merging exoplanet atmospheric chemistry with deep-sea extremophile metabolic pathways

exoplanets extremophiles atmospheric chemistry astrobiology metabolic pathways

Merging exoplanet atmospheric chemistry with terrestrial extremophile metabolic pathways

exoplanet biosignatures chemosynthetic lifeforms atmospheric spectroscopy astrobiology extremophiles hydrothermal vent analogs

During impact winter scenarios, engineering cold-resistant crops using extremophile gene editing

impact winter CRISPR crops extremophiles food security climate resilience

Combining two unrelated fields: enzymatic polymerization for sustainable space habitat construction

biofabrication space architecture enzyme catalysis polymer science in-situ resource utilization

2D material heterostructures for glacier stabilization in climate change mitigation

2D materials heterostructures glacier stabilization nanotechnology climate engineering

Via mitochondrial uncoupling during gamma-ray burst afterglows to study extreme bioenergetics

mitochondrial uncoupling gamma-ray bursts extremophiles bioenergetics astrobiology

For multi-generational studies with 100-year maintenance cycles in microbial ecosystems

multi-generational studies microbial evolution long-term experiments ecosystem dynamics maintenance cycles

Synchronizing Josephson junction arrays for terahertz radiation generation

Josephson junctions terahertz radiation superconductivity phase locking quantum devices

Through mass extinction recovery using synthetic biology ecosystems

synthetic biology extinction recovery biodiversity restoration ecosystem engineering conservation technology

Assessing microbial resilience via deep-ocean carbon sequestration under extreme pressure

deep-ocean microbes carbon sequestration extremophile adaptation biogeochemistry pressure tolerance

Using topological insulators for spintronics in femtoliter volumes

topological insulators spintronics femtoliter quantum transport nanoscale confinement

Via phytoplankton cloud seeding during impact winter scenarios

phytoplankton cloud seeding impact winter geoengineering climate mitigation