Veronika Magdanz
Veronika Magdanz
Assistant professor at University of Waterloo
Verified email at - Homepage
Cited by
Cited by
Self-propelled micromotors for cleaning polluted water
L Soler, V Magdanz, VM Fomin, S Sanchez, OG Schmidt
ACS nano 7 (11), 9611-9620, 2013
Development of a sperm‐flagella driven micro‐bio‐robot
V Magdanz, S Sanchez, OG Schmidt
Advanced materials 25 (45), 6581-6588, 2013
Sperm-hybrid micromotor for targeted drug delivery
H Xu, M Medina-Sánchez, V Magdanz, L Schwarz, F Hebenstreit, ...
ACS nano 12 (1), 327-337, 2018
Stimuli‐responsive microjets with reconfigurable shape
V Magdanz, G Stoychev, L Ionov, S Sanchez, OG Schmidt
Angewandte Chemie 126 (10), 2711-2715, 2014
Magnetic actuation methods in bio/soft robotics
N Ebrahimi, C Bi, DJ Cappelleri, G Ciuti, AT Conn, D Faivre, N Habibi, ...
Advanced Functional Materials 31 (11), 2005137, 2021
IRONSperm: Sperm-templated soft magnetic microrobots
V Magdanz, ISM Khalil, J Simmchen, GP Furtado, S Mohanty, J Gebauer, ...
Science advances 6 (28), eaba5855, 2020
Swimming microrobots: Soft, reconfigurable, and smart
M Medina‐Sánchez, V Magdanz, M Guix, VM Fomin, OG Schmidt
Advanced Functional Materials 28 (25), 1707228, 2018
Spermatozoa as functional components of robotic microswimmers
V Magdanz, M Medina‐Sánchez, L Schwarz, H Xu, J Elgeti, OG Schmidt
Advanced Materials 29 (24), 1606301, 2017
Dynamic polymeric microtubes for the remote‐controlled capture, guidance, and release of sperm cells
V Magdanz, M Guix, F Hebenstreit, OG Schmidt
Advanced materials 28 (21), 4084-4089, 2016
Propulsion mechanism of catalytic microjet engines
VM Fomin, M Hippler, V Magdanz, L Soler, S Sanchez, OG Schmidt
IEEE Transactions on Robotics 30 (1), 40-48, 2013
Sperm‐driven micromotors moving in oviduct fluid and viscoelastic media
F Striggow, M Medina‐Sánchez, GK Auernhammer, V Magdanz, ...
Small 16 (24), 2000213, 2020
The control of self-propelled microjets inside a microchannel with time-varying flow rates
ISM Khalil, V Magdanz, S Sanchez, OG Schmidt, S Misra
IEEE Transactions on Robotics 30 (1), 49-58, 2013
How to improve spermbot performance
V Magdanz, M Medina‐Sánchez, Y Chen, M Guix, OG Schmidt
Advanced Functional Materials 25 (18), 2763-2770, 2015
Effect of surfactants on the performance of tubular and spherical micromotors–a comparative study
J Simmchen, V Magdanz, S Sanchez, S Chokmaviroj, D Ruiz-Molina, ...
RSC advances 4 (39), 20334-20340, 2014
Three-dimensional closed-loop control of self-propelled microjets
ISM Khalil, V Magdanz, S Sanchez, OG Schmidt, S Misra
Applied physics letters 103 (17), 2013
Nano-and micromotors designed for cancer therapy
L Sonntag, J Simmchen, V Magdanz
Molecules 24 (18), 3410, 2019
Microfluidic reactor for continuous cultivation of Saccharomyces cerevisiae
A Edlich, V Magdanz, D Rasch, S Demming, S Aliasghar Zadeh, ...
Biotechnology progress 26 (5), 1259-1270, 2010
The motility-based swim-up technique separates bull sperm based on differences in metabolic rates and tail length
V Magdanz, S Boryshpolets, C Ridzewski, B Eckel, K Reinhardt
PLoS One 14 (10), e0223576, 2019
Polyelectrolyte multilayer surface functionalization of poly (dimethylsiloxane)(PDMS) for reduction of yeast cell adhesion in microfluidic devices
H Schmolke, S Demming, A Edlich, V Magdanz, S Büttgenbach, ...
Biomicrofluidics 4 (4), 2010
Tubular micromotors: from microjets to spermbots
V Magdanz, M Guix, OG Schmidt
Robotics and Biomimetics 1, 1-10, 2014
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