Enhancing carbon capture efficiency via perovskite-based membranes with 50-year durability requirements
perovskite
carbon capture
membrane durability
industrial applications
CO2 sequestration
Via deep-ocean carbon sequestration with genetically engineered phytoplankton blooms
ocean carbon sequestration
engineered phytoplankton
climate mitigation
marine biogeochemistry
carbon sinks
Via phytoplankton cloud seeding to mitigate climate change with controversial but promising approaches
phytoplankton
cloud seeding
climate engineering
carbon sequestration
marine ecosystems
Deep-ocean carbon sequestration with in-situ water ice utilization for climate mitigation
carbon sequestration
deep-ocean storage
water ice utilization
climate change
geoengineering
Accelerating carbon capture material discovery via high-throughput catalyst screening
high-throughput screening
carbon capture
metal-organic frameworks
combinatorial chemistry
climate tech
Via perovskite-based carbon capture membranes for high-efficiency industrial emissions scrubbing
perovskite membranes
carbon capture
gas separation
industrial decarbonization
material science
Uniting paleoclimatology with AI prediction to reconstruct ancient atmospheric CO2 levels
paleoclimatology
AI reconstruction
CO2 levels
deep learning
climate history
Blockchain-based carbon credit verification with IoT-enabled direct air capture monitoring
carbon credits
blockchain verification
IoT monitoring
direct air capture
climate tech
Through biochar soil enhancement to sequester atmospheric methane in rice paddies
biochar
methane sequestration
rice paddies
climate mitigation
soil amendment
Optimizing perovskite-based carbon capture membranes through biomimetic nanostructure patterning
perovskite membranes
biomimetics
carbon capture
nanostructuring
gas separation
Aligning with 2035 SDG targets through microbial carbon sequestration
microbial carbon sequestration
SDG targets
soil engineering
climate mitigation
biotechnology
Synthesizing future-historical approaches to assess long-term nuclear waste storage risks
deep time forecasting
radioactive waste
cultural continuity
materials science
intergenerational ethics