Advanced materials for next-gen technology

Enhancing robotic tactile intelligence through bio-inspired multimodal sensor arrays

robotic haptics multimodal sensing bio-inspired design tactile feedback adaptive grippers

Accelerating material discovery with rapid prototyping cycles and AI-driven synthesis

combinatorial chemistry additive manufacturing AI optimization material informatics high-throughput screening

At millikelvin thermal states for probing topological quantum matter phases

topological quantum computing millikelvin cryogenics anyons quantum materials condensed matter physics

Developing room-temperature superconductors with perovskite-based materials for lossless power grids

room-temperature superconductors perovskites power grids energy efficiency materials science

With adaptive CNC toolpaths for precision machining of metamaterials

CNC machining metamaterials precision engineering adaptive toolpaths advanced manufacturing

Reengineering Renaissance designs for lightweight aerospace structures using advanced composites

aerospace engineering Renaissance architecture composite materials lightweight design structural optimization

3D monolithic integration of photonic and electronic circuits for terahertz computing

monolithic integration photonic computing terahertz gap 3D chip stacking hybrid circuits

Medieval alchemy-inspired discovery of amorphous metal alloys through combinatorial crucible techniques

amorphous metals combinatorial chemistry alchemical manuscripts rapid alloy screening bulk metallic glasses

At spin relaxation timescales for probing quantum coherence in biological molecules

spin relaxation quantum coherence biomolecules ultrafast dynamics magnetic resonance

Marrying ethology with swarm robotics to engineer emergent collective behaviors in synthetic systems

ethology swarm robotics emergent behavior synthetic systems collective intelligence

Employing ruthenium interconnects for next-generation smartphone integration to reduce power consumption

ruthenium interconnects smartphone integration power efficiency semiconductor scaling advanced materials

Using 2D material heterostructures in quantum radar systems for enhanced signal resolution

2D materials quantum radar heterostructures signal resolution photonics