Via deep-ocean carbon sequestration, assessing microbial impacts on long-term storage stability
carbon sequestration
deep-ocean microbes
storage stability
biogeochemistry
climate mitigation
For megayear material degradation in deep geological nuclear waste storage
nuclear waste storage
material degradation
corrosion modeling
geological timescales
radiation effects
Exploring million-year nuclear waste isolation through deep geological time applications
nuclear waste
geological stability
long-term storage
radioactive decay
deep boreholes
Optimizing solvent selection engines through cosmological constant evolution models
solvent selection
cosmological models
chemical engineering
extreme conditions
algorithmic optimization
Merging exoplanet science with extremophile biology to identify habitable zone candidates
exoplanets
extremophiles
habitability
astrobiology
biosignatures
Across magma chamber dynamics to predict supervolcanic eruption precursors
magma chambers
supervolcanoes
eruption prediction
geophysics
seismic activity
Exploring climate variability across Milankovitch cycles using high-resolution ice core data
Milankovitch cycles
paleoclimatology
ice cores
orbital forcing
climate variability
Planning for the next glacial period with planetary-scale engineering interventions
glacial period
planetary-scale engineering
climate intervention
geoengineering
ice age
For megayear material degradation studies with epigenetic reprogramming in synthetic organisms
material degradation
epigenetic reprogramming
synthetic biology
megayear studies
extreme environments
Employing self-healing polymer composites in neutrino detection modules for deep-sea observatories
self-healing polymers
neutrino detection
deep-sea technology
particle physics
material science
During galactic cosmic ray maxima, how do atmospheric muon fluxes affect cloud nucleation
cosmic rays
muons
cloud nucleation
atmospheric physics
solar cycles
Employing self-healing materials for terahertz oscillation frequency electronics in extreme environments
self-healing polymers
terahertz technology
nano-electronics
extreme environments
frequency stability