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Maria Asplund
Maria Asplund
Bestätigte E-Mail-Adresse bei chalmers.se - Startseite
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Zitiert von
Zitiert von
Jahr
Toxicity evaluation of PEDOT/biomolecular composites intended for neural communication electrodes
M Asplund, E Thaning, J Lundberg, AC Sandberg-Nordqvist, B Kostyszyn, ...
Biomedical Materials 4 (4), 045009, 2009
2622009
Tutorial: guidelines for standardized performance tests for electrodes intended for neural interfaces and bioelectronics
C Boehler, S Carli, L Fadiga, T Stieglitz, M Asplund
Nature protocols 15 (11), 3557-3578, 2020
2292020
Electroactive polymers for neural interfaces
M Asplund, T Nyberg, O Inganäs
Polymer Chemistry 1 (9), 1374-1391, 2010
2182010
Actively controlled release of Dexamethasone from neural microelectrodes in a chronic in vivo study
C Boehler, C Kleber, N Martini, Y Xie, I Dryg, T Stieglitz, UG Hofmann, ...
Biomaterials 129, 176-187, 2017
1962017
Incidence of traumatic peripheral nerve injuries and amputations in Sweden between 1998 and 2006
M Asplund, M Nilsson, A Jacobsson, H Von Holst
Neuroepidemiology 32 (3), 217-228, 2009
1922009
Nanostructured platinum grass enables superior impedance reduction for neural microelectrodes
C Boehler, T Stieglitz, M Asplund
Biomaterials 67, 346-353, 2015
1762015
Long-term stable adhesion for conducting polymers in biomedical applications: IrOx and nanostructured platinum solve the chronic challenge
C Boehler, F Oberueber, S Schlabach, T Stieglitz, M Asplund
ACS applied materials & interfaces 9 (1), 189-197, 2017
1742017
Composite biomolecule/PEDOT materials for neural electrodes
M Asplund, H von Holst, O Inganäs
Biointerphases 3 (3), 83-93, 2008
1252008
Applications of PEDOT in bioelectronic medicine
C Boehler, Z Aqrawe, M Asplund
Bioelectronics in Medicine 2 (2), 89-99, 2019
1092019
Stability of poly (3, 4‐ethylene dioxythiophene) materials intended for implants
EM Thaning, MLM Asplund, TA Nyberg, OW Inganäs, H von Holst
Journal of Biomedical Materials Research Part B: Applied Biomaterials 93 (2 …, 2010
1052010
Electrochemically controlled drug release from a conducting polymer hydrogel (PDMAAp/PEDOT) for local therapy and bioelectronics
C Kleber, K Lienkamp, J Rühe, M Asplund
Advanced healthcare materials 8 (10), 1801488, 2019
1022019
An interpenetrating, microstructurable and covalently attached conducting polymer hydrogel for neural interfaces
C Kleber, M Bruns, K Lienkamp, J Rühe, M Asplund
Acta Biomaterialia 58, 365-375, 2017
962017
Conformable polyimide-based μECoGs: bringing the electrodes closer to the signal source
M Vomero, MFP Cruz, E Zucchini, F Ciarpella, E Delfino, S Carli, ...
Biomaterials 255, 120178, 2020
792020
NanoPt—a nanostructured electrode coating for neural recording and microstimulation
C Boehler, DM Vieira, U Egert, M Asplund
ACS applied materials & interfaces 12 (13), 14855-14865, 2020
642020
A detailed insight into drug delivery from PEDOT based on analytical methods: Effects and side effects
C Boehler, M Asplund
Journal of biomedical materials research Part A 103 (3), 1200-1207, 2015
592015
Advancing science: How bias holds us back
M Asplund, CG Welle
Neuron 99 (4), 635-639, 2018
542018
Poly (3, 4‐ethylenedioxythiophene)‐based neural interfaces for recording and stimulation: fundamental aspects and in vivo applications
M Bianchi, A De Salvo, M Asplund, S Carli, M Di Lauro, ...
Advanced Science 9 (12), 2104701, 2022
512022
Tuning drug delivery from conducting polymer films for accurately controlled release of charged molecules
C Boehler, F Oberueber, M Asplund
Journal of Controlled Release 304, 173-180, 2019
502019
On the longevity of flexible neural interfaces: Establishing biostability of polyimide-based intracortical implants
M Vomero, F Ciarpella, E Zucchini, M Kirsch, L Fadiga, T Stieglitz, ...
Biomaterials 281, 121372, 2022
342022
SIROF stabilized PEDOT/PSS allows biocompatible and reversible direct current stimulation capable of driving electrotaxis in cells
J Leal, N Jedrusik, S Shaner, C Boehler, M Asplund
Biomaterials 275, 120949, 2021
342021
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