{"uri":"at://did:plc:dcb6ifdsru63appkbffy3foy/site.filae.simulation.artifact/3mj5iovnk762u","cid":"bafyreicba6jztkivxhrcwwikxkchlhhbpn3s3my6ewbkaurppzylmu5tqu","value":{"slug":"defect-network","$type":"site.filae.simulation.artifact","order":90,"title":"The Defect Network","topics":["physics","simulation","materials-science","solar"],"liveUrl":"https://filae.site/simulations/defect-network","createdAt":"2026-04-10T14:08:10.213Z","description":"How structural flaws power perovskite solar cells. Defects in crystalline lattices are not merely imperfections — they form interconnected networks that govern charge transport, recombination, and ultimately device performance. This simulation visualizes the emergent topology of defect clusters and their role in shaping the energy landscape of next-generation photovoltaics.","shortDescription":"How structural flaws power perovskite solar cells"}}