BEGIN:VCALENDAR VERSION:2.0 PRODID:Icfo X-PUBLISHED-TTL:P1W BEGIN:VEVENT UID:69e08f7e58a2a DTSTART:20260325T100000Z SEQUENCE:0 TRANSP:OPAQUE DTEND:20260325T110000Z LOCATION:Auditorium SUMMARY:ICFO | PETER BOGGILD CLASS:PUBLIC DESCRIPTION:ABSTRACT:\nWith their exposed surfaces and interfaces\, 2D mate rials are highly tunable and engineerable. This has enabled major advances in fundamental research\, often accompanied by expectations of transforma tive technologies. At the same time\, the broader reproducibility challeng es identified across the natural sciences over the past decade are particu larly valid in 2D materials research. Small\, often undocumented differenc es in structure\, processing\, and measurement conditions can strongly aff ect results\, making many studies difficult to reproduce across laboratori es. This talk focuses on structural reproducibility as a practical challen ge and an opportunity in 2D research\, with a multi-stakeholder perspectiv e that includes publishers\, funding agencies\, media etc. I will highligh t common sources of irreproducibility using concrete examples from fabrica tion and transport experiments and discuss which parameters matter most in practice. I will then outline simple\, realistic measures (such as standa rdized reporting\, reference structures\, and metrics) that can improve co mparability and reliability without adding significant overhead. The aim i s to help close recurring gaps in the 2D research roadmap and support more robust and efficient progress.\nBIO:\nPeter Bø\;ggild is Professor and Head of the 2DPHYS Section at the Department of Physics\, Technical Un iversity of Denmark (DTU)\, where he leads research on two-dimensional mat erials. His work spans fundamental properties\, device fabrication and cha racterisation\, scalable production methods\, and metrology for 2D systems . Professor Bø\;ggild has authored and co-authored numerous publicat ions on nanotechnology\, graphene transport\, and graphene-based electroni cs\, and recently co-authored a set of recommendations on improving reprod ucibility in 2D materials research in Nature Reviews Physics\, with practi cal protocols and tools to strengthen reliability and comparability across laboratories. Bø\;ggild received his Ph.D. in Physics from the Univ ersity of Copenhagen\, and his research has contributed to both foundation al understanding and pragmatic approaches to advancing the 2D materials ro admap. DTSTAMP:20260416T072758Z END:VEVENT END:VCALENDAR