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 229-240 of 269 articles

For stratospheric aerosol injection calibration using high-altitude drones

geoengineering stratospheric aerosols drone calibration climate control atmospheric science

Self-assembling space habitats using modular origami-inspired architectures

space architecture origami engineering modular habitats in-situ assembly lunar bases

Merging exoplanet atmospheric chemistry with extremophile metabolic pathways for biosignature detection

exoplanet biosignatures extremophile metabolism atmospheric chemistry astrobiology spectral analysis

Enhancing quantum computing stability within quantum coherence windows via error-correcting codes

quantum coherence error correction qubit stability quantum computing decoherence mitigation

Advancing Mars mission designs using nuclear thermal propulsion for faster interplanetary travel

nuclear thermal propulsion Mars missions interplanetary travel spacecraft design propulsion efficiency

Using plasma membrane repair mechanisms to enhance cellular resilience in extreme environments

plasma membrane repair cellular resilience extremophiles biotechnology lipid bilayers

At quantum coherence limits: probing entanglement dynamics in near-zero-temperature superconductors

quantum coherence superconductors entanglement low-temperature physics quantum materials

Designing self-repairing materials for spacecraft with 50-year durability requirements

self-healing polymers space-grade materials microcrack mitigation longevity engineering radiation resistance

Using cold spray additive techniques for repairing spacecraft components in orbit

cold spray additive manufacturing spacecraft repair orbital maintenance material science space technology

In yoctogram mass measurements for detecting dark matter candidate particles

yoctogram measurement dark matter nanomechanical sensors axion detection quantum limits

Designing self-assembling space habitats using programmable nanomaterials for long-term orbital colonization

space habitats self-assembly nanomaterials microgravity orbital colonization

For panspermia timescales, modeling microbial survival in interstellar ice grains

panspermia astrobiology interstellar ice microbial survival extremophiles