Advanced materials synthesis and nanotechnology

In picocubic reaction chambers for single-molecule enzymatic activity analysis

picocubic chambers single-molecule analysis enzyme kinetics nanobiotechnology microfluidics

Flow chemistry robots for automated synthesis of complex pharmaceuticals

flow chemistry pharmaceutical synthesis automation robotics continuous manufacturing

Optimizing energy capture in attojoule regimes for nanoscale robotic systems

attojoule nanorobotics energy harvesting quantum efficiency microactuators

Anticipating 2035 energy grid demands using DNA origami nanostructures

DNA origami energy grid nanomaterials storage optimization future infrastructure

Targeting 2025 regulatory approval for epigenetic age reversal therapies via CRISPR-based interventions

epigenetic editing CRISPR age reversal regulatory approval senescence

Employing neglected mathematical tools for predicting quantum decoherence in nanoscale systems

quantum decoherence nanoscale systems mathematical modeling neglected tools nanoelectronics

Accelerating automated retrosynthesis with neurosymbolic integration techniques

retrosynthesis neurosymbolic AI chemical synthesis route planning machine learning

Using art-inspired scientific approaches to design bio-mimetic antiviral surface coatings

bio-mimetic design antiviral coatings nanostructures Islamic geometry surface engineering

Connecting medieval alchemy with modern materials discovery in picocubic reaction chambers

alchemy nanomaterials high-throughput synthesis historical science phase discovery

Advancing continuous flow chemistry with AI-optimized reaction pathways for pharmaceutical synthesis

flow chemistry AI optimization drug synthesis microreactors reaction prediction

Accelerating drug discovery using computational retrosynthesis with transformer-based models

computational retrosynthesis drug discovery transformer models synthetic pathways pharmaceuticals

Planning 22nd century legacy systems via self-repairing nanocomposite architectures

self-healing materials nanocomposites future infrastructure molecular robotics civil engineering