Optimizing enzymatic polymerization for sustainable bioplastic production at industrial scales
enzymatic polymerization
bioplastics
sustainable materials
enzyme engineering
green chemistry
Via coral reef electro-accretion to accelerate artificial reef colonization dynamics
biorock technology
calcium carbonate
marine restoration
electrolytic substrates
biodiversity hotspots
Enhancing impact winter resilience through advanced greenhouse gas capture technologies
impact winter
carbon capture
climate resilience
greenhouse gases
geoengineering
Bridging medieval alchemy with modern high-throughput catalyst screening for sustainable chemistry
alchemy
catalyst screening
sustainable chemistry
materials discovery
high-throughput
Autonomous methane detection drones for precision monitoring of landfill emissions
methane detection
drones
landfill emissions
environmental monitoring
gas sensing
Enzymatic polymerization for biodegradable plastics with flow chemistry robots
enzymatic polymerization
flow chemistry
biodegradable plastics
automation
sustainable materials
Targeting plastic-eating enzymes for high-efficiency waste degradation in marine environments
enzymatic degradation
marine pollution
PETase
synthetic biology
bioremediation
Spectral analysis AI for real-time detection of atmospheric microplastics using LIDAR
microplastics
LIDAR
spectral analysis
environmental AI
atmospheric monitoring
Employing electrocatalytic CO2 conversion for sustainable aviation fuel synthesis
electrocatalysis
carbon capture
sustainable aviation
fuel synthesis
transition metal catalysts
With stem cell exhaustion reversal in age-related muscle atrophy
sarcopenia
satellite cells
regenerative medicine
aging biomarkers
myogenesis
Via deep-ocean carbon sequestration to mitigate climate change impacts
carbon sequestration
ocean storage
climate mitigation
CO2 removal
marine geology
Using explainability through disentanglement in deep learning for climate modeling
explainable AI
climate science
neural networks
disentanglement
predictive modeling