BEGIN:VCALENDAR VERSION:2.0 PRODID:-//132.216.98.100//NONSGML kigkonsult.se iCalcreator 2.20.4// BEGIN:VEVENT UID:20250627T063042EDT-9474ROu0uW@132.216.98.100 DTSTAMP:20250627T103042Z DESCRIPTION:Solution processing of 2D materials allows simple and low-cost techniques\, such as ink-jet printing\, to be used for fabrication of hete rostructure-based devices of arbitrary complexity. However\, the success o f this technology is determined by the nature and quality of the inks used .\n\nOur group has developed highly concentrated\, defect-free\, printable and water-based 2D crystal formulations\, designed to provide optimal fil m formation for multi-stack fabrication [1]. We have demonstrated printed photosensors on plastic\, programmable logic memory devices\, capacitors\, transistors\, high-gain inverters\, logic gates\, and current mirrors [1- 4]. Our graphene ink also enables fabrication of visco-elastic electrodes for soft tissues\, such as the brain [5].\n\nFinally\, cytotoxicity tests confirm biocompatibility of the graphene inks [1]\; in particular\, cation ic graphene dispersions produced with our approach show exceptional intrac ellular uptake profile as well as stability in the biological medium\, mak ing this type of graphene very attractive to use in nanomedicine [6].\n\n[ 1] McManus et al\, Nature Nano\, 12\, 343 (2017)\n\n[2] Worsley et al\, AC S Nano\, 2018\, DOI: 10.1021/acsnano.8b06464\n\n[3] Lu et al\, ACS Nano\, ACS Nano\, 13\, 11263 (2019)\n\n[4] Conti et al\, Nature comms\, 11 (1)\, 1-9 (2020)\n\n[5] Tringides et al\, Nature Nano\, just accepted\n\n[6] Shi n et al\, Nanoscale\, 2020\, DOI: 10.1039/D0NR02689A\n\n \n\n \n\nJoin Zoo m Meeting!\n Meeting ID: 892 8936 5032\n DTSTART:20211119T160000Z DTEND:20211119T173000Z SUMMARY:Water-based and defect free 2D material inks: from printed electron ics to biomedical applications URL:/miam/channels/event/water-based-and-defect-free-2 d-material-inks-printed-electronics-biomedical-applications-334601 END:VEVENT END:VCALENDAR