Folgen
René Hensel
René Hensel
Carl Zeiss AG, Cooperate Research and Technology
Bestätigte E-Mail-Adresse bei zeiss.com
Titel
Zitiert von
Zitiert von
Jahr
Wetting resistance at its topographical limit: the benefit of mushroom and serif T structures
R Hensel, R Helbig, S Aland, HG Braun, A Voigt, C Neinhuis, C Werner
Langmuir 29 (4), 1100-1112, 2013
2602013
The springtail cuticle as a blueprint for omniphobic surfaces
R Hensel, C Neinhuis, C Werner
Chemical Society Reviews 45 (2), 323-341, 2016
2302016
Functional surface microstructures inspired by nature–From adhesion and wetting principles to sustainable new devices
E Arzt, H Quan, RM McMeeking, R Hensel
Progress in Materials Science 120, 100823, 2021
1822021
Biologically Inspired Omniphobic Surfaces by Reverse Imprint Lithography
R Hensel, A Finn, R Helbig, HG Braun, C Neinhuis, WJ Fischer, C Werner
Advanced Materials 26 (13), 2029-2033, 2014
1792014
Engineering micropatterned dry adhesives: from contact theory to handling applications
R Hensel, K Moh, E Arzt
Advanced Functional Materials 28 (28), 1800865, 2018
1692018
Tunable nano-replication to explore the omniphobic characteristics of springtail skin
R Hensel, R Helbig, S Aland, A Voigt, C Neinhuis, C Werner
NPG Asia Materials 5 (2), e37-e37, 2013
1102013
Composite pillars with a tunable interface for adhesion to rough substrates
SCL Fischer, E Arzt, R Hensel
ACS applied materials & interfaces 9 (1), 1036-1044, 2017
1032017
Fibrillar elastomeric micropatterns create tunable adhesion even to rough surfaces
V Barreau, R Hensel, NK Guimard, A Ghatak, RM McMeeking, E Arzt
Advanced Functional Materials 26 (26), 4687-4694, 2016
962016
Numerical study of adhesion enhancement by composite fibrils with soft tip layers
RG Balijepalli, SCL Fischer, R Hensel, RM McMeeking, E Arzt
Journal of the Mechanics and Physics of Solids 99, 357-378, 2017
822017
The multi-layered protective cuticle of Collembola: a chemical analysis
J Nickerl, M Tsurkan, R Hensel, C Neinhuis, C Werner
Journal of The Royal Society Interface 11 (99), 20140619, 2014
762014
Improved development procedure to enhance the stability of microstructures created by two-photon polymerization
J Purtov, A Verch, P Rogin, R Hensel
Microelectronic Engineering 194, 45-50, 2018
752018
Strong wet and dry adhesion by cupped microstructures
Y Wang, V Kang, E Arzt, W Federle, R Hensel
ACS applied materials & interfaces 11 (29), 26483-26490, 2019
682019
In situ observation reveals local detachment mechanisms and suction effects in micropatterned adhesives
V Tinnemann, L Hernández, SCL Fischer, E Arzt, R Bennewitz, R Hensel
Advanced Functional Materials 29 (14), 1807713, 2019
582019
Funnel‐shaped microstructures for strong reversible adhesion
SCL Fischer, K Groß, O Torrents Abad, MM Becker, E Park, R Hensel, ...
Advanced Materials Interfaces 4 (20), 1700292, 2017
582017
In Situ Experiments To Reveal the Role of Surface Feature Sidewalls in the Cassie–Wenzel Transition
R Hensel, A Finn, R Helbig, S Killge, HG Braun, C Werner
Langmuir 30 (50), 15162-15170, 2014
512014
Elevated temperature adhesion of bioinspired polymeric micropatterns to glass
V Barreau, D Yu, R Hensel, E Arzt
Journal of the mechanical behavior of biomedical materials 76, 110-118, 2017
402017
Nanopillar diffraction gratings by two-photon lithography
J Purtov, P Rogin, A Verch, VE Johansen, R Hensel
Nanomaterials 9 (10), 1495, 2019
372019
Switchable double-sided micropatterned adhesives for selective fixation and detachment
V Tinnemann, E Arzt, R Hensel
Journal of the Mechanics and Physics of Solids 123, 20-27, 2019
352019
A design strategy for mushroom-shaped microfibrils with optimized dry adhesion: Experiments and finite element analyses
X Zhang, Y Wang, R Hensel, E Arzt
Journal of Applied Mechanics 88 (3), 031015, 2021
342021
Bioinspired polydimethylsiloxane-based composites with high shear resistance against wet tissue
SCL Fischer, O Levy, E Kroner, R Hensel, JM Karp, E Arzt
journal of the mechanical behavior of biomedical materials 61, 87-95, 2016
322016
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20