Gravure-printed electronics: recent progress in tooling development, understanding of printing physics, and realization of printed devices G Grau, J Cen, H Kang, R Kitsomboonloha, WJ Scheideler, ... Flexible and Printed Electronics 1 (2), 023002, 2016 | 228 | 2016 |
The 2021 flexible and printed electronics roadmap Y Bonnassieux, CJ Brabec, Y Cao, TB Carmichael, ML Chabinyc, ... Flexible and printed electronics 6 (2), 023001, 2021 | 136 | 2021 |
Printed transistors on paper: Towards smart consumer product packaging G Grau, R Kitsomboonloha, SL Swisher, H Kang, V Subramanian Advanced functional materials 24 (32), 5067-5074, 2014 | 122 | 2014 |
Fully high‐speed gravure printed, low‐variability, high‐performance organic polymer transistors with sub‐5 V operation G Grau, V Subramanian Advanced Electronic Materials 2 (4), 1500328, 2016 | 98 | 2016 |
High-speed printing of transistors: From inks to devices V Subramanian, J Cen, A de la Fuente Vornbrock, G Grau, H Kang, ... Proceedings of the IEEE 103 (4), 567-582, 2015 | 62 | 2015 |
Megahertz-class printed high mobility organic thin-film transistors and inverters on plastic using attoliter-scale high-speed gravure-printed sub-5 μm gate electrodes H Kang, R Kitsomboonloha, K Ulmer, L Stecker, G Grau, J Jang, ... Organic Electronics 15 (12), 3639-3647, 2014 | 61 | 2014 |
Printed unmanned aerial vehicles using paper-based electroactive polymer actuators and organic ion gel transistors G Grau, EJ Frazier, V Subramanian Microsystems & Nanoengineering 2 (1), 1-8, 2016 | 32 | 2016 |
Printing electronics directly onto carbon fiber composites: unmanned aerial vehicle (UAV) wings with integrated heater for de-icing MK Idris, J Qiu, GW Melenka, G Grau Engineering Research Express 2 (2), 025022, 2020 | 30 | 2020 |
MHz‐Range Fully Printed High‐Performance Thin‐Film Transistors by Using High‐Resolution Gravure‐Printed Lines R Kitsomboonloha, H Kang, G Grau, W Scheideler, V Subramanian Advanced Electronic Materials 1 (12), 1500155, 2015 | 30 | 2015 |
Dimensional scaling of high-speed printed organic transistors enabling high-frequency operation G Grau, V Subramanian Flexible and Printed Electronics 5 (1), 014013, 2020 | 26 | 2020 |
Machine learning based data driven inkjet printed electronics: jetting prediction for novel inks FP Brishty, R Urner, G Grau Flexible and Printed Electronics 7 (1), 015009, 2022 | 21 | 2022 |
One-step fabrication of low-resistance conductors on 3D-printed structures by laser-induced graphene M Tavakkoli Gilavan, MS Rahman, A Minhas-Khan, S Nambi, G Grau ACS Applied Electronic Materials 3 (9), 3867-3875, 2021 | 20 | 2021 |
Low-resistance laser-induced graphitic carbon by maximizing energy delivery and pulse overlap A Minhas-Khan, S Nambi, G Grau Carbon 181, 310-322, 2021 | 20 | 2021 |
Fabrication of a high-resolution roll for gravure printing of 2µm features G Grau, R Kitsomboonloha, V Subramanian Organic Field-Effect Transistors XIV; and Organic Sensors and Bioelectronics …, 2015 | 20 | 2015 |
An energy-efficient optically-enhanced highly-linear implantable wirelessly-powered bidirectional optogenetic neuro-stimulator T Yousefi, M Taghadosi, A Dabbaghian, R Siu, G Grau, G Zoidl, H Kassiri IEEE Transactions on Biomedical Circuits and Systems 14 (6), 1274-1286, 2020 | 13 | 2020 |
Improved Inkjet-Printed Pattern Fidelity: Suppressing Bulges by Segmented and Symmetric Drop Placement R Abunahla, MS Rahman, P Naderi, G Grau Journal of Micro- and Nano-Manufacturing, 2020 | 13 | 2020 |
A computational model for doctoring fluid films in gravure printing DS Hariprasad, G Grau, PR Schunk, K Tjiptowidjojo Journal of Applied Physics 119 (13), 2016 | 13 | 2016 |
High performance printed organic transistors using a novel scanned thermal annealing technology G Grau, R Kitsomboonloha, H Kang, V Subramanian Organic Electronics 20, 150-157, 2015 | 13 | 2015 |
Electroluminescent strain sensing on carbon fiber reinforced polymer J Qiu, MK Idris, G Grau, GW Melenka Composites Part B: Engineering 238, 109893, 2022 | 12 | 2022 |
Direct writing of stretchable metal flake conductors: improved stretchability and conductivity by combining differently sintered materials MS Rahman, G Grau Flexible and Printed Electronics 5 (2), 025005, 2020 | 10 | 2020 |