High-throughput catalyst screening at spin relaxation timescales for green chemistry
catalyst screening
spin relaxation
green chemistry
high-throughput
sustainable catalysis
Within attosecond timeframes via redox flow battery optimization for grid stabilization
attochemistry
flow batteries
smart grids
renewable energy
ultrafast spectroscopy
For 2060 fusion power integration using flow chemistry robots for tritium breeding
nuclear fusion
tritium production
robotic chemistry
molten metals
reactor design
In artificial photosynthesis via interdisciplinary approaches combining plasmonics and synthetic biology
renewable energy
biohybrid systems
plasmonic nanoparticles
metabolic engineering
photochemistry
For automated retrosynthesis with emphasis on metal-organic framework catalysts and graph neural networks
computational chemistry
MOF catalysis
reaction prediction
sustainable synthesis
machine learning
For biodegradable electronics: designing transient circuits with fungal mycelium substrates
biodegradable electronics
mycelium substrates
transient circuits
sustainable tech
biomaterials
Investigating photoredox chemistry for sustainable C-H bond activation in drug discovery
photoredox chemistry
C-H activation
drug discovery
sustainable catalysis
visible-light photocatalysis
Accelerating catalyst discovery through quantum machine learning for green ammonia synthesis
electrocatalysis
Haber-Bosch
computational chemistry
renewable energy
reaction optimization
With enzymatic polymerization to create biodegradable electronics for e-waste reduction
green chemistry
e-waste
biodegradable polymers
enzymatic synthesis
sustainable electronics
Optimizing enzyme turnover numbers in industrial biocatalysis for sustainable chemical production
enzyme kinetics
biocatalysis
industrial enzymes
metabolic engineering
sustainable chemistry
With enzymatic polymerization to create biodegradable electronics for sustainable 2040 urban infrastructure
enzymatic polymerization
biodegradable electronics
sustainable materials
urban planning
green tech
Employing neglected mathematical tools for turbulent flow prediction in fusion reactor designs
turbulence modeling
fusion energy
topological mathematics
plasma physics
reactor design