%0 Generic %A van Hazendonk, Laura %A Pinto, Artur %A Arapov, Kirill %A Pillai, Nikhil %A Beurskens, Michiel %A Teunissen, Jean-Pierre %A Sneck, Asko %A Smolander, Maria %A Rentrop, Corne %A Bouten, Piet %D 2023 %T Data and code related to the publication: Printed Stretchable Graphene Conductors for Wearable Technology %U %R 10.4121/703fd633-9de8-4977-a05f-4b648cb1e94d.v1 %K Graphene %K Wearables %K Wearable technology %K Printed electronics %K Stretchable conductors %K Annealing %K Photonic annealing %K Screen printing %K Rheology %X
In the publication related to this dataset, we report on the screen printing of stretchable, graphene-based conductors for use in wearable technology. The conductors remained conductive even under 100% strain and demonstrated high fatigue resistance to cyclic strains of 20-50%. Using photonic annealing, the sheet resistance of the printed conductors was reduced from ca 34 Ω □−1 mil−1 to <10 Ω □−1 mil−1, while the stretchability and fatigue resistance were preserved. This dataset contains the data and analysis scripts needed to reproduce the findings in the study.
%I 4TU.ResearchData