Interactive Surfaces, INM

Interactive Surfaces

Our research department studies the mechanical properties of materials with a focus on surfaces. We aim to understand mechanisms of adhesion, friction, and wear through innovative experiments and to contribute to the design of new materials with mechanical functions. Example projects address the contact mechanics of novel lubricants, the nanomechanics of biomaterials, and the tactile perception of micro-structured materials.

Aleeza-Farrukh, INM – Leibniz-Institut für Neue Materialien gGmbH
Prof. Dr. Roland Bennewitz
Head of Interactive Surfaces
Telefon: +49 (0)681-9300-213
Team Members
Phone: +49 (0)681-9300-238
Phone: +49 (0)681-9300-453
Phone: +49 (0)681-9300-238
Phone: +49 (0)681-9300-359
Phone: +49 (0)681-9300-153/280
Phone: +49 (0)681-9300-416
Phone: +49 (0)681-9300-330
Phone: +49 (0)681-9300-272
Phone: +49 (0)681-9300-239
Research

Molecular mechanics of soft matter

We use high-resolution force microscopy (AFM) in aqueous solution to study molecular forces at the surface of soft matter. Single-molecule force spectroscopy on hydrogels contributes to the understanding and control of the mechanisms of bioadhesion and mechanotransduction on biomaterials. In active materials, we employ light-activated molecular motors for the mechanical stimulation. For rapid force measurements on the single-molecular level, we develop novel high-throughput techniques based on tethered-particle motion in microfluidic devices.

Relevant publications:

Nanotribology

Friction force microscopy in ultra-high vacuum or in aqueous solutions reveals molecular mechanisms of friction. As one example, we investigate the limits of superlubricity in 2D materials under high local pressure. We also move our research towards a nanotribology of hydrogels and study dissipative interactions of single fluctuating polymers.

Relevant publications:

Tactile perception of materials

Fingertip friction plays a key role in the tactile exploration of materials and in the perception of material properties and surfaces structures. We implement psychophysical studies to find correlations between fingertip friction and individual judgement on touch of materials.

Relevant publications:

Materials for the future of tactile communication

Materials with switchable surface structure offer opportunities to quickly convey information to humans by varying the touch experience. We develop micro-structured elastomers which change the surface shape by applied electric fields or pneumatic mechanisms. The sensory reaction to such stimulation of touch is evaluated by EEG and MEG experiments.

Relevant publications:

Publications

Crystalline structure and squeeze-out dissipation of liquid solvation layers observed by small-amplitude dynamic AFM

Hofbauer, Wulf | Ho, R. J. | Hairul Nizam, R. | Gosvami, Nitya Nand | O'Shea, Sean J.

Physical Review B , 2009, 80 (13), 134104.
http://dx.doi.org/10.1103/PhysRevB.80.134104

A kelvin probe force microscopy of charged indentation-induced dislocation structures in KBr

Egberts, Philip | Filleter, Tobin | Bennewitz, Roland

Nanotechnology , 2009, 20 (26), 264005 (7pp).
http://dx.doi.org/10.1088/0957-4484/20/26/264005

Friction and dissipation in epitaxial graphene films

Filleter, Tobin | McChesney, Jessica L. | Bostwick, Aaron | Rotenberg, Eli | Emtsev, Konstantin V. | Seyller, Thomas | Horn, Karsten | Bennewitz, Roland

Physical Review Letters , 2009, 102 (8), 086102-4.
http://dx.doi.org/10.1103/PhysRevLett.102.086102

Local work function measurements of epitaxial graphene

Filleter, Tobin | Emtsev, Konstantin V. | Seyller, Thomas | Bennewitz, Roland

Applied Physics Letters , 2008, 93 (13), 133117.
http://dx.doi.org/10.1063/1.2993341

Surface softening in metal-ceramic sliding contacts: An experimental and numerical investigation

Stoyanov, Pantcho | Merz, Rolf | Romero, Pedro A. | Wählisch, Felix C. | Torrents Abad, Oscar | Gralla, Robert | Stemmer, Priska | Kopnarski, Michael | Moseler, Michael | Bennewitz, Roland | Dienwiebel, Martin

ACS Nano , 2015, 9 (2), 1478-1491.
http://dx.doi.org/10.1021/nn505968m

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Surviving the surf: The tribomechanical properties of the periostracum of Mytilus sp

Wählisch, Felix C. | Peter, Nicolas J. | Torrents Abad, Oscar | Oliveira, Mariana V. G. | Schneider, Andreas S. | Schmahl, Wolfgang | Griesshaber, Erika | Bennewitz, Roland

Acta Biomaterialia , 2014, 10 (9), 3978-3985.
http://dx.doi.org/10.1016/j.actbio.2014.05.014

Mechanical and thermal behaviours of polyetheretherketone-based multi-scale composites

Lin, Leyu | Tlatlik, Harald | Gralla, Robert | Igartua, M. Amaya | De Baets, Patrick | Schlarb, Alois K.

Journal of Composite Materials , 2013, 47 (17), 2087-2096.
http://dx.doi.org/10.1177/0021998312454317

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Atomistic in situ investigation of the morphogenesis of grains during pressure-induced phase transitions: Molecular dynamics simulations of the B1-B2 transformation of RbCl

Zahn, Dirk | Tlatlik, Harald

Chemistry : a European journal , 2010, 16 13385-13389.
http://dx.doi.org/10.1002/chem.201001481

Fundamental studies of nanometer-scale wear mechanisms

Bennewitz, Roland | Dickinson, J. Thomas

MRS Bulletin , 2008, 33 (12), 1174-1180.
http://dx.doi.org/10.1557/mrs2008.248

Nanotribology of clean and modified gold surfaces

Bennewitz, Roland | Hausen, Florian | Gosvami, Nitya Nand

Journal of Materials Research , 2013, 28 (10), 1279-1288.
http://dx.doi.org/10.1557/jmr.2013.103

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