User profiles for Mary J. Donahue
Mary J. DonahueLaboratory of Organic Electronics - Linköping University Verified email at emse.fr Cited by 1766 |
[HTML][HTML] Ion-tunable antiambipolarity in mixed ion–electron conducting polymers enables biorealistic organic electrochemical neurons
Biointegrated neuromorphic hardware holds promise for new protocols to record/regulate
signalling in biological systems. Making such artificial neural circuits successful requires …
signalling in biological systems. Making such artificial neural circuits successful requires …
The role of the side chain on the performance of n-type conjugated polymers in aqueous electrolytes
We report a design strategy that allows the preparation of solution processable n-type
materials from low boiling point solvents for organic electrochemical transistors (OECTs). The …
materials from low boiling point solvents for organic electrochemical transistors (OECTs). The …
Organic transistor arrays integrated with finger‐powered microfluidics for multianalyte saliva testing
…, X Strakosas, MJ Donahue… - Advanced …, 2016 - Wiley Online Library
A compact multianalyte biosensing platform is reported, composed of an organic electrochemical
transistor (OECT) microarray integrated with a pumpless “finger‐powered” microfluidic, …
transistor (OECT) microarray integrated with a pumpless “finger‐powered” microfluidic, …
Metabolite-induced in vivo fabrication of substrate-free organic bioelectronics
Interfacing electronics with neural tissue is crucial for understanding complex biological
functions, but conventional bioelectronics consist of rigid electrodes fundamentally incompatible …
functions, but conventional bioelectronics consist of rigid electrodes fundamentally incompatible …
Tailoring PEDOT properties for applications in bioelectronics
Resulting from its wide range of beneficial properties, the conjugated conducting polymer
poly(3,4‐ethylenedioxythiophene) (PEDOT) is a promising material in a number of emerging …
poly(3,4‐ethylenedioxythiophene) (PEDOT) is a promising material in a number of emerging …
High‐performance vertical organic electrochemical transistors
Organic electrochemical transistors (OECTs) are promising transducers for biointerfacing due
to their high transconductance, biocompatibility, and availability in a variety of form factors. …
to their high transconductance, biocompatibility, and availability in a variety of form factors. …
A microfluidic ion pump for in vivo drug delivery
…, VF Curto, AM Pappa, MJ Donahue… - Advanced …, 2017 - Wiley Online Library
Implantable devices offer an alternative to systemic delivery of drugs for the treatment of
neurological disorders. A microfluidic ion pump (µFIP), capable of delivering a drug without the …
neurological disorders. A microfluidic ion pump (µFIP), capable of delivering a drug without the …
Redox‐Stability of Alkoxy‐BDT Copolymers and their Use for Organic Bioelectronic Devices
…, CB Nielsen, J Li, MJ Donahue… - Advanced Functional …, 2018 - Wiley Online Library
Organic semiconductors can be employed as the active layer in accumulation mode organic
electrochemical transistors (OECTs), where redox stability in aqueous electrolytes is …
electrochemical transistors (OECTs), where redox stability in aqueous electrolytes is …
[PDF][PDF] Microsecond response in organic electrochemical transistors: exceeding the ionic speed limit
DOI: 10.1002/adma. 201602684 decreasing the concentration of secondary polar dopants
increases device speed but decreases channel conductance and transconductance.[36] Also, …
increases device speed but decreases channel conductance and transconductance.[36] Also, …
Vertical Organic Electrochemical Transistors and Electronics for Low Amplitude Micro‐Organ Signals
Electrical signals are fundamental to key biological events such as brain activity, heartbeat,
or vital hormone secretion. Their capture and analysis provide insight into cell or organ …
or vital hormone secretion. Their capture and analysis provide insight into cell or organ …