Atomfair Brainwave Hub: SciBase II / Advanced Materials and Nanotechnology / Advanced materials for extreme environments

Advanced materials for extreme environments

Showing 313-324 of 565 articles

Ethology-inspired swarm robotics for underground mine rescue operations in GPS-denied environments

Mapping tectonic plate movements using deep-sea fiber optic sensing

Predicting material stability over 10,000 years for volcanic winter preparation

Modeling megayear material degradation in deep geological nuclear waste repositories

Employing soft robot control policies for delicate underwater archaeology

At petapascal pressure regimes to synthesize room-temperature superconducting hydrides

Optimizing neutrino detection in deep-sea environments using bioluminescent sensors

During impact winter scenarios: modeling fungal proliferation as a carbon cycle buffer

Exploring prebiotic chemical pathways under interstellar medium conditions

Simulating magnetar magnetic field decay for high-energy astrophysics models

Via multi-modal embodiment to improve human-robot collaboration in hazardous environments

Spanning tectonic plate movements during impact winter scenarios