Biomimicry and bio-inspired materials for advanced engineering

Exploring quantum coherence in biological systems at millikelvin thermal states

quantum biology cryogenics coherence biomolecules low-temperature physics

Enhancing CRISPR-Cas12a gene editing efficiency with ferroelectric hafnium oxide nanoparticles

CRISPR gene therapy nanoparticles hafnium oxide genome engineering

For 2040 urban planning with adaptive algae-based carbon capture facades

biophilic design carbon sequestration smart cities algal biotechnology climate resilience

Integrating coral reef ecology with 3D printing for scalable reef restoration designs

coral reefs 3D printing restoration ecology marine conservation biomimicry

Uniting glacier physics with semiconductor design for cryogenic computing architectures

glacier physics cryogenic computing quantum heat transfer superconducting circuits analog modeling

In attojoule energy regimes: Harvesting ambient vibrations with piezoelectric metamaterials

attojoule harvesting piezoelectric metamaterials ambient energy mechanical rectifiers nanoscale vibrations

Optimizing neural network training efficiency through self-supervised curriculum learning

self-supervised learning curriculum design computational efficiency neural networks data ordering

Employing neglected mathematical tools like tropical geometry in biological network modeling

tropical geometry biological networks metabolic pathways mathematical modeling neglected tools

Via generative design optimization of bio-inspired aerospace structures

generative design bio-inspired engineering aerospace structures topology optimization biomimicry

Enhancing underwater navigation by bridging sonar technology with bat echolocation principles

biomimicry sonar echolocation underwater navigation signal processing

Designing phase-change material synapses for neuromorphic computing with 50-year durability requirements

neuromorphic computing phase-change materials durability artificial synapses nanotechnology

Planning 22nd century legacy systems with 10,000-year material stability

legacy systems material stability long-term planning future infrastructure ultra-durable materials