Upgrading 1990s technologies with enzymatic polymerization for sustainable material production
enzymatic polymerization
sustainable materials
industrial upgrading
biocatalysis
green chemistry
Aligning asteroid mining ventures with 2035 SDG targets for sustainable resource extraction
asteroid mining
sustainable development goals
space resources
ethical extraction
circular economy
Blending ancient Roman concrete science with carbon nanotube reinforcement for durable infrastructure
Roman concrete
carbon nanotubes
sustainable infrastructure
material science
ancient technologies
Advancing solvent-free polymer synthesis using mechanochemical reaction pathways
solvent-free processing
mechanochemistry
polymer synthesis
green chemistry
sustainable materials
Optimizing enzymatic polymerization for sustainable bioplastic production at industrial scales
enzymatic polymerization
bioplastics
sustainable materials
enzyme engineering
green chemistry
Enzymatic polymerization for biodegradable plastics with flow chemistry robots
enzymatic polymerization
flow chemistry
biodegradable plastics
automation
sustainable materials
Combining ancient and modern methods for sustainable concrete production
Roman concrete
sustainable materials
geopolymers
construction technology
carbon sequestration
For megacity-scale solutions through mechanochemical reactions in waste management
mechanochemistry
urban waste
megacity recycling
sustainable materials
green chemistry
Aligning with 2035 SDG targets through self-optimizing reactors for plastic waste upcycling
circular economy
smart reactors
plastic upcycling
SDG innovation
catalytic processes
Designing biodegradable electronics using plant-based substrates for sustainable wearable tech
biodegradable electronics
plant-based substrates
wearable technology
sustainable materials
green electronics
Enhancing enzymatic polymerization via photoredox chemistry for sustainable material synthesis
enzymatic polymerization
photoredox chemistry
sustainable materials
catalysis
green chemistry
Designing self-healing concrete for megacity-scale solutions with 100-year maintenance cycles
self-healing concrete
urban resilience
material science
autonomous repair
megacities