Using military-to-civilian tech transfer for next-generation carbon capture systems
carbon capture
adsorption
tech transfer
military innovation
climate mitigation
Through deep-ocean carbon sequestration using mineral-enhanced phytoplankton blooms
ocean fertilization
carbon sequestration
phytoplankton blooms
climate mitigation
biogeochemistry
Enhancing impact winter resilience through advanced greenhouse gas capture technologies
impact winter
carbon capture
climate resilience
greenhouse gases
geoengineering
Employing electrocatalytic CO2 conversion for sustainable aviation fuel synthesis
electrocatalysis
carbon capture
sustainable aviation
fuel synthesis
transition metal catalysts
Planning post-2100 waste storage for high-level nuclear byproducts
nuclear waste disposal
deep geological repositories
radionuclide containment
multi-millennial planning
actinide sequestration
Via deep-ocean carbon sequestration to mitigate climate change impacts
carbon sequestration
ocean storage
climate mitigation
CO2 removal
marine geology
Via phytoplankton cloud seeding for marine carbon capture acceleration
geoengineering
biological carbon pumps
ocean fertilization
climate mitigation
algal blooms
Combining ancient and modern methods for sustainable concrete production
Roman concrete
sustainable materials
geopolymers
construction technology
carbon sequestration
Boosting crop resilience via biochar soil enhancement and embodied active learning
biochar
soil health
active learning
sustainable agriculture
crop productivity
Perovskite-based carbon capture membranes during neurotransmitter release events
carbon capture
neuromimetic materials
perovskite membranes
synaptic transmission
climate tech
Optimizing catalyst discovery algorithms aligned with El Niño oscillations for carbon capture
catalyst discovery
El Niño
carbon capture
machine learning
climate patterns
Combining ancient and modern methods for sustainable concrete alternatives
ancient materials
modern chemistry
sustainable concrete
geopolymers
carbon reduction