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Dr. Daniil Karnaushenko
Dr. Daniil Karnaushenko
MAIN TU Chemnitz
Bestätigte E-Mail-Adresse bei main.tu-chemnitz.de
Titel
Zitiert von
Zitiert von
Jahr
Technology roadmap for flexible sensors
Y Luo, MR Abidian, JH Ahn, D Akinwande, AM Andrews, M Antonietti, ...
ACS nano 17 (6), 5211-5295, 2023
5272023
Wearable magnetic field sensors for flexible electronics
M Melzer, JI Mönch, D Makarov, Y Zabila, GS Cañón Bermúdez, ...
Advanced Materials 27 (7), 1274-1280, 2015
2802015
Imperceptible magnetoelectronics
M Melzer, M Kaltenbrunner, D Makarov, D Karnaushenko, ...
Nature communications 6 (1), 6080, 2015
2482015
A patternable and in situ formed polymeric zinc blanket for a reversible zinc anode in a skin‐mountable microbattery
M Zhu, J Hu, Q Lu, H Dong, DD Karnaushenko, C Becker, ...
Advanced Materials 33 (8), 2007497, 2021
2322021
Shapeable magnetoelectronics
D Makarov, M Melzer, D Karnaushenko, OG Schmidt
Applied Physics Reviews 3 (1), 2016
1912016
Stretchable magnetoelectronics
M Melzer, D Makarov, A Calvimontes, D Karnaushenko, S Baunack, ...
Nano letters 11 (6), 2522-2526, 2011
1822011
Rolled-up magnetic sensor: nanomembrane architecture for in-flow detection of magnetic objects
I Mönch, D Makarov, R Koseva, L Baraban, D Karnaushenko, C Kaiser, ...
ACS nano 5 (9), 7436-7442, 2011
1462011
Magnetosensitive e-skins with directional perception for augmented reality
GS Cañón Bermúdez, DD Karnaushenko, D Karnaushenko, A Lebanov, ...
Science Advances 4 (1), eaao2623, 2018
1382018
Biomimetic microelectronics for regenerative neuronal cuff implants
D Karnaushenko, N Münzenrieder, DD Karnaushenko, B Koch, AK Meyer, ...
Hoboken, NJ: Wiley, 2015
1292015
Self‐assembled on‐chip‐integrated giant magneto‐impedance sensorics
D Karnaushenko, DD Karnaushenko, D Makarov, S Baunack, R Schäfer, ...
Hoboken, NJ: Wiley, 2015
1252015
3D self‐assembled microelectronic devices: concepts, materials, applications
D Karnaushenko, T Kang, VK Bandari, F Zhu, OG Schmidt
Advanced Materials 32 (15), 1902994, 2020
1152020
High‐performance magnetic sensorics for printable and flexible electronics
D Karnaushenko, D Makarov, M Stöber, DD Karnaushenko, S Baunack, ...
Advanced Materials 27 (5), 880-885, 2015
1092015
Magnetic microstructure of rolled‐up single‐layer ferromagnetic nanomembranes
R Streubel, J Lee, D Makarov, MY Im, D Karnaushenko, L Han, R Schäfer, ...
Advanced Materials 26 (2), 316-323, 2014
1032014
Direct transfer of magnetic sensor devices to elastomeric supports for stretchable electronics
M Melzer, D Karnaushenko, G Lin, S Baunack, D Makarov, OG Schmidt
Advanced Materials (Deerfield Beach, Fla.) 27 (8), 1333, 2015
1022015
Compact helical antenna for smart implant applications
DD Karnaushenko, D Karnaushenko, D Makarov, OG Schmidt
NPG Asia Materials 7 (6), e188-e188, 2015
1012015
Printable giant magnetoresistive devices
D Karnaushenko, D Makarov, C Yan, R Streubel, OG Schmidt
Advanced Materials 24 (33), 4518-4522, 2012
982012
A flexible microsystem capable of controlled motion and actuation by wireless power transfer
VK Bandari, Y Nan, D Karnaushenko, Y Hong, B Sun, F Striggow, ...
Nature Electronics 3 (3), 172-180, 2020
932020
Imperceptible magnetic sensor matrix system integrated with organic driver and amplifier circuits
M Kondo, M Melzer, D Karnaushenko, T Uemura, S Yoshimoto, ...
Science advances 6 (4), eaay6094, 2020
832020
Light weight and flexible high‐performance diagnostic platform
D Karnaushenko, B Ibarlucea, S Lee, G Lin, L Baraban, S Pregl, M Melzer, ...
Advanced healthcare materials 4 (10), 1517-1525, 2015
792015
Self-assembly of integrated tubular microsupercapacitors with improved electrochemical performance and self-protective function
J Wang, VK Bandari, D Karnaushenko, Y Li, F Li, P Zhang, S Baunack, ...
ACS nano 13 (7), 8067-8075, 2019
742019
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