Mary J. Donahue
Mary J. Donahue
Laboratory of Organic Electronics - Linköping University
Bestätigte E-Mail-Adresse bei
Zitiert von
Zitiert von
N-type organic electrochemical transistors with stability in water
A Giovannitti, CB Nielsen, DT Sbircea, S Inal, M Donahue, MR Niazi, ...
Nature communications 7 (1), 13066, 2016
The role of the side chain on the performance of n-type conjugated polymers in aqueous electrolytes
A Giovannitti, IP Maria, D Hanifi, MJ Donahue, D Bryant, KJ Barth, ...
Chemistry of Materials 30 (9), 2945-2953, 2018
Organic transistor arrays integrated with finger‐powered microfluidics for multianalyte saliva testing
AM Pappa, VF Curto, M Braendlein, X Strakosas, MJ Donahue, M Fiocchi, ...
Advanced Healthcare Materials 5 (17), 2295-2302, 2016
Tailoring PEDOT properties for applications in bioelectronics
MJ Donahue, A Sanchez-Sanchez, S Inal, J Qu, RM Owens, ...
Materials Science and Engineering: R: Reports 140, 100546, 2020
High‐performance vertical organic electrochemical transistors
MJ Donahue, A Williamson, X Strakosas, JT Friedlein, RR McLeod, ...
Advanced Materials 30 (5), 1705031, 2018
A microfluidic ion pump for in vivo drug delivery
I Uguz, CM Proctor, VF Curto, AM Pappa, MJ Donahue, M Ferro, ...
Advanced Materials 29 (27), 1701217, 2017
Microsecond response in organic electrochemical transistors: exceeding the ionic speed limit
JT Friedlein, MJ Donahue, SE Shaheen, GG Malliaras, RR McLeod
Advanced Materials 28 (38), 8398-8404, 2016
Redox‐Stability of Alkoxy‐BDT Copolymers and their Use for Organic Bioelectronic Devices
A Giovannitti, KJ Thorley, CB Nielsen, J Li, MJ Donahue, GG Malliaras, ...
Advanced Functional Materials 28 (17), 1706325, 2018
Ion-tunable antiambipolarity in mixed ion–electron conducting polymers enables biorealistic organic electrochemical neurons
PC Harikesh, CY Yang, HY Wu, S Zhang, MJ Donahue, AS Caravaca, ...
Nature materials 22 (2), 242-248, 2023
A bilayered PVA/PLGA-bioresorbable shuttle to improve the implantation of flexible neural probes
J Pas, AL Rutz, PP Quilichini, A Slézia, A Ghestem, A Kaszas, ...
Journal of neural engineering 15 (6), 065001, 2018
Metabolite-induced in vivo fabrication of substrate-free organic bioelectronics
X Strakosas, H Biesmans, T Abrahamsson, K Hellman, MS Ejneby, ...
Science 379 (6634), 795-802, 2023
Catalytically enhanced organic transistors for in vitro toxicology monitoring through hydrogel entrapment of enzymes
X Strakosas, M Huerta, MJ Donahue, A Hama, AM Pappa, M Ferro, ...
Journal of Applied Polymer Science 134 (7), 2017
Vertical Organic Electrochemical Transistors and Electronics for Low Amplitude Micro‐Organ Signals
M Abarkan, A Pirog, D Mafilaza, G Pathak, G N'Kaoua, E Puginier, ...
Advanced Science 9 (8), 2105211, 2022
Multimodal characterization of neural networks using highly transparent electrode arrays
MJ Donahue, A Kaszas, GF Turi, B Rózsa, A Slézia, I Vanzetta, G Katona, ...
Eneuro 5 (6), 2018
NeuroRoots, a bio-inspired, seamless Brain Machine Interface device for long-term recording
MD Ferro, CM Proctor, A Gonzalez, E Zhao, A Slezia, J Pas, G Dijk, ...
BioRxiv, 460949, 2018
Ultrathin paper microsupercapacitors for electronic skin applications
MG Say, I Sahalianov, R Brooke, L Migliaccio, ED Głowacki, M Berggren, ...
Advanced Materials Technologies 7 (8), 2101420, 2022
Noninvasive Stimulation of Peripheral Nerves using Temporally‐Interfering Electrical Fields
B Botzanowski, MJ Donahue, MS Ejneby, AL Gallina, I Ngom, F Missey, ...
Advanced Healthcare Materials 11 (17), 2200075, 2022
Impedance characterization of AlGaN/GaN Schottky diodes with metal contacts
M Donahue, B Lübbers, M Kittler, P Mai, A Schober
Applied Physics Letters 102 (14), 2013
Laser‐Driven Wireless Deep Brain Stimulation using Temporal Interference and Organic Electrolytic Photocapacitors
F Missey, MJ Donahue, P Weber, I Ngom, E Acerbo, B Botzanowski, ...
Advanced Functional Materials 32 (33), 2200691, 2022
Applied nano bio systems with microfluidics and biosensors for three‐dimensional cell culture
A Schober, U Fernekorn, B Lübbers, J Hampl, F Weise, G Schlingloff, ...
Materialwissenschaft und Werkstofftechnik 42 (2), 139-146, 2011
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