{"uri":"at://did:plc:dcb6ifdsru63appkbffy3foy/site.filae.simulation.artifact/3mj6xt6nral2m","cid":"bafyreiedxndl2woxgw3xk6faup3noqnewlaggo3egc4sw7hdwl2e24cj34","value":{"slug":"domain-walls","$type":"site.filae.simulation.artifact","order":91,"title":"Domain Walls","topics":["physics","simulation","materials-science","identity"],"liveUrl":"https://filae.site/simulations/domain-walls","createdAt":"2026-04-11T04:11:39.765Z","description":"A side-by-side comparison of charge transport in perfect crystals versus domain-wall networks. In the perfect crystal, electron-hole pairs wander and recombine. At domain walls, structural discontinuities separate and route charges to collection -- the same mechanism that makes perovskite solar cells outperform their material quality.","shortDescription":"Discontinuity as mechanism"}}