Through tidal energy turbine arrays to power remote coastal communities sustainably
tidal energy
renewable power
coastal sustainability
marine turbines
green technology
Employing geothermal fracking innovations to unlock deep-Earth microbial ecosystems
geothermal fracking
deep biosphere
extremophiles
subsurface microbiology
energy extraction
Harnessing asteroid spectral mining to identify rare-earth elements for green technology
asteroid mining
rare-earth elements
spectral analysis
space resources
green technology
With in-situ water ice utilization for sustainable Martian agriculture
in-situ resource utilization
Martian agriculture
water ice
space farming
colony sustainability
Synchronized with solar cycles to optimize algae biofuel production in photobioreactors
solar cycles
algae biofuel
photobioreactors
circadian rhythms
renewable energy
For lunar base infrastructure using in-situ water ice utilization
lunar water extraction
ISRU
habitat sustainability
cryogenic storage
Using biocatalytic cascades to synthesize high-energy density biofuels from waste
biocatalysis
biofuel synthesis
waste valorization
enzyme engineering
renewable energy
Tidal energy turbine arrays synchronized with lunar cycles for maximum output
tidal energy
lunar cycles
turbine arrays
renewable energy
hydrokinetic optimization
Advancing lunar base infrastructure with in-situ water ice utilization
lunar ice
ISRU
life support
propellant production
regolith processing
Optimizing electrocatalytic CO2 conversion for lunar base infrastructure by 2026
electrocatalysis
CO2 utilization
space habitats
lunar resources
sustainable energy
Designing self-assembling space habitats for long-term Martian colonization
space architecture
in-situ resource utilization
autonomous robotics
Martian colonization
modular design
Harnessing in-situ water ice utilization for sustainable Martian agriculture systems
space agriculture
in-situ resource utilization
hydroponics
extremophile crops
planetary science