Christian

Prof. Dr. Christian Greiner

Research Focus

  •      „Materials Tribology“, focusing on the elementary mechanisms for the microstructure evolution under tribological loading
  •      High resolution electron and ion microscopy
  •      Contact mechanics; Bio-inspired materials

Publications


2024
Influence of multilayer nanoarchitecture on phase transformations in the Ti-Cr-Zr system
Pereira, J. N.; Ott, V.; Afonso, C. R. M.; de Sousa Malafaia, A. M.; Stüber, M.; Greiner, C.; Pinto, H. C.
2024. Surface and Coatings Technology, 477, Art.-Nr.: 130369. doi:10.1016/j.surfcoat.2023.130369
Friction anisotropy and associated surface deformation mechanisms in heterogeneous copper/bronze laminates
Zhang, Q.; Li, Y.; Liang, F.; Zhou, Z.; Li, Y.; Rau, J.; Greiner, C.; Zhao, Y.; Zhu, Y.; Chen, X.
2024. Materials Characterization, 208, Art.-Nr.: 113644. doi:10.1016/j.matchar.2024.113644
Deformation twins as a probe for tribologically induced stress states
Dollmann, A.; Kübel, C.; Tavakkoli, V.; Eder, S. J.; Feuerbacher, M.; Liening, T.; Kauffmann, A.; Rau, J.; Greiner, C.
2024. Communications Materials, 5 (1), Art.-Nr.: 4. doi:10.1038/s43246-023-00442-8
Wear-resistant CoCrNi multi-principal element alloy at cryogenic temperature
Ren, Y.; Zhou, Q.; Hua, D.; Huang, Z.; Li, Y.; Jia, Q.; Gumbsch, P.; Greiner, C.; Wang, H.; Liu, W.
2024. Science Bulletin, 69 (2), 227–236. doi:10.1016/j.scib.2023.12.003
2023
A Framework to Generate, Store, and Publish FAIR Data in Experimental Sciences
Garabedian, N.; Bagov, I.; Flachmann, M.; Ye, N.; Meller, M.; Bresser, F.; Greiner, C.
2023. SEMPDS 2023: Posters and Demos at SEMANTiCS 2023 - 19th International Conference on Semantic Systems (SEMANTICS), Leipzig, 20th-22nd September 2023, 5 S., CEUR-WS
Waviness Affects Friction and Abrasive Wear
Li, Y.; Garabedian, N.; Schneider, J.; Greiner, C.
2023. Tribology Letters, 71 (2), Art.-Nr.: 64. doi:10.1007/s11249-023-01736-1
Temporal sequence of deformation twinning in CoCrNi under tribological load
Dollmann, A.; Rau, J. S.; Bieber, B.; Mantha, L.; Kübel, C.; Kauffmann, A.; Tirunilai, A. S.; Heilmaier, M.; Greiner, C.
2023. Scripta Materialia, 229, Art.-Nr.: 115378. doi:10.1016/j.scriptamat.2023.115378
2022
Generating FAIR research data in experimental tribology
Garabedian, N. T.; Schreiber, P. J.; Brandt, N.; Zschumme, P.; Blatter, I. L.; Dollmann, A.; Haug, C.; Kümmel, D.; Li, Y.; Meyer, F.; Morstein, C. E.; Rau, J. S.; Weber, M.; Schneider, J.; Gumbsch, P.; Selzer, M.; Greiner, C.
2022. Scientific Data, 9 (1), Art.Nr. 315. doi:10.1038/s41597-022-01429-9
Injection Molding of Magnesium Aluminate Spinel Nanocomposites for High‐Throughput Manufacturing of Transparent Ceramics
Mader, M.; Prediger, R.; Schell, K. G.; Schmidt, G.; Dorn, A.; Dorn, A.; Jenne, S.; Kluck, S.; Hambitzer, L.; Luitz, M.; Luitz, M.; Schwarz, C.; Milich, M.; Greiner, C.
2022. Advanced Science, 9 (31), Art.Nr. 2204385. doi:10.1002/advs.202204385
Three regimes in the tribo‐oxidation of high purity copper at temperatures of up to 150°C
Rau, J. S.; Schmidt, O.; Schneider, R.; Debastiani, R.; Greiner, C.
2022. Advanced Engineering Materials, 24 (11), Art.Nr. 2200518. doi:10.1002/adem.202200518
Outstanding Bio-Tribological Performance Induced by the Synergistic Effect of 2D Diamond Nanosheet Coating and Silk Fibroin
Chen, H.; Cai, T.; Ruan, X.; Jiao, C.; Xia, J.; Wei, X.; Wang, Y.; Gong, P.; Li, H.; Atkin, R.; Yin, G.; Zhou, X.; Nishimura, K.; Rosenkranz, A.; Greiner, C.; Wang, B.; Yu, J.; Jiang, N.
2022. ACS Applied Materials and Interfaces, 14 (42), 48091–48105. doi:10.1021/acsami.2c12552
Role of Nitrogen and Yttrium Contents in Manufacturing (Cr, Y)Nx Film Nanostructures
Apolinario, R. C.; Rodrigues, A. M.; Avila, P. R. T.; Pereira, J. N.; Ramirez, C. A. O.; Daum, P.; Costa, F. P. da; Lira, H. de L.; Neves, G. de A.; Greiner, C.; Pinto, H. C.
2022. Nanomaterials, 12 (14), Art.Nr.: 2410. doi:10.3390/nano12142410
Deformation and phase transformation in polycrystalline cementite (FeC) during single- and multi-pass sliding wear
Tsybenko, H.; Tian, C.; Rau, J.; Breitbach, B.; Schreiber, P.; Greiner, C.; Dehm, G.; Brinckmann, S.
2022. Acta Materialia, 227, Art.-Nr.: 117694. doi:10.1016/j.actamat.2022.117694
Managing FAIR Tribological Data Using Kadi4Mat
Brandt, N.; Garabedian, N. T.; Schoof, E.; Schreiber, P. J.; Zschumme, P.; Greiner, C.; Selzer, M.
2022. Data, 7 (2), Art.-Nr. 15. doi:10.3390/data7020015
Formation and thermal stability of two-phase microstructures in Al-containing refractory compositionally complex alloys
Laube, S.; Kauffmann, A.; Schellert, S.; Seils, S.; Tirunilai, A. S.; Greiner, C.; Eggeler, Y. M.; Gorr, B.; Christ, H.-J.; Heilmaier, M.
2022. Science and Technology of Advanced Materials, 23 (1), 692–706. doi:10.1080/14686996.2022.2132118
Dislocation-mediated and twinning-induced plasticity of CoCrFeMnNi in varying tribological loading scenarios
Dollmann, A.; Kauffmann, A.; Heilmaier, M.; Srinivasan Tirunilai, A.; Mantha, L. S.; Kübel, C.; Eder, S. J.; Schneider, J.; Greiner, C.
2022. Journal of Materials Science, 57, 17448–17461. doi:10.1007/s10853-022-07661-3
Replicative manufacturing of metal moulds for low surface roughness polymer replication
Kluck, S.; Hambitzer, L.; Luitz, M.; Mader, M.; Sanjaya, M.; Balster, A.; Milich, M.; Greiner, C.; Kotz-Helmer, F.; Rapp, B. E.
2022. Nature Communications, 13 (1), Art.-Nr.: 5048. doi:10.1038/s41467-022-32767-2
Tribological mechanisms of slurry abrasive wear
Li, Y.; Schreiber, P.; Schneider, J.; Greiner, C.
2022. Friction, 11 (6), 1079–1093. doi:10.1007/s40544-022-0654-1
Tailoring the Hybrid Magnetron Sputtering Process (HiPIMS and dcMS) to Manufacture Ceramic Multilayers: Powering Conditions, Target Materials, and Base Layers
de Castilho, B. C. N. M.; de Sousa Mazuco, F.; Rodrigues, A. M.; Avila, P. R. T.; Apolinario, R. C.; Daum, P.; da Costa, F. P.; Menezes, R. R.; de Araújo Neves, G.; Greiner, C.; Pinto, H. C.
2022. Nanomaterials, 12 (14), Art.-Nr.: 2465. doi:10.3390/nano12142465
On the origin of plasticity-induced microstructure change under sliding contacts
Xu, Y.; Balint, D. S.; Greiner, C.; Dini, D.
2022. Friction, 11 (3), 473–488. doi:10.1007/s40544-022-0624-7
A wear-resistant metastable CoCrNiCu high-entropy alloy with modulated surface and subsurface structures
Ren, Y.; Jia, Q.; Du, Y.; Zhou, Q.; Greiner, C.; Hua, K.; Wang, H.; Wang, J.
2022. Friction, 10 (10), 1722–1738. doi:10.1007/s40544-022-0606-9
Tribologically induced crystal rotation kinematics revealed by electron backscatter diffraction
Haug, C.; Molodov, D.; Gumbsch, P.; Greiner, C.
2022. Acta Materialia, 225, Art.-Nr.: 117566. doi:10.1016/j.actamat.2021.117566
2021
Melt-Extrusion-Based Additive Manufacturing of Transparent Fused Silica Glass
Mader, M.; Hambitzer, L.; Schlautmann, P.; Jenne, S.; Greiner, C.; Hirth, F.; Helmer, D.; Kotz-Helmer, F.; Rapp, B. E.
2021. Advanced Science, 8 (23), Art.-Nr. 2103180. doi:10.1002/advs.202103180
High diffusivity pathways govern massively enhanced oxidation during tribological sliding
Rau, J. S.; Balachandran, S.; Schneider, R.; Gumbsch, P.; Gault, B.; Greiner, C.
2021. Acta Materialia, 221, Art.-Nr.: 117353. doi:10.1016/j.actamat.2021.117353
Design and Characterization of Self-Lubricating Refractory High Entropy Alloy-Based Multilayered Films
Luo, D.; Zhou, Q.; Ye, W.; Ren, Y.; Greiner, C.; He, Y.; Wang, H.
2021. ACS Applied Materials and Interfaces, 13 (46), 55712–55725. doi:10.1021/acsami.1c16949
On the origin of microstructural discontinuities in sliding contacts: A discrete dislocation plasticity analysis
Xu, Y.; Ruebeling, F.; Balint, D.; Greiner, C.; Dini, D.
2021. International Journal of Plasticity, 138, Article no: 102942. doi:10.1016/j.ijplas.2021.102942
Characterization of the Microstructure After Composite Peening of Aluminum
Seitz, M.; Dürrschnabel, M.; Kauffmann, A.; Kurpiers, C.; Greiner, C.; Weidenmann, K. A.
2021. Advanced engineering materials, 23 (2), Art.Nr. 2000575. doi:10.1002/adem.202000575
Normal Load and Counter Body Size Influence the Initiation of Microstructural Discontinuities in Copper during Sliding
Ruebeling, F.; Xu, Y.; Richter, G.; Dini, D.; Gumbsch, P.; Greiner, C.
2021. ACS applied materials & interfaces, 13 (3), 4750–4760. doi:10.1021/acsami.0c19736
How Tribo-Oxidation Alters the Tribological Properties of Copper and Its Oxides
Lehmann, J. S.; Schwaiger, R.; Rinke, M.; Greiner, C.
2021. Advanced materials interfaces, 8 (1), Art.-Nr.: 2001673. doi:10.1002/admi.202001673
Subsurface microstructural evolution during scratch testing on Bcc iron
Linsler, D.; Ruebeling, F.; Greiner, C.
2021. Metals, 11 (8), 1258. doi:10.3390/met11081258
The Force Cone Method Applied to Explain Hidden Whirls in Tribology
Mattheck, C.; Greiner, C.; Bethge, K.; Tesari, I.; Weber, K.
2021. Materials, 14 (14), Art.-Nr. 3894. doi:10.3390/ma14143894
Tribological Performance of Additively Manufactured AISI H13 Steel in Different Surface Conditions
Guenther, E.; Kahlert, M.; Vollmer, M.; Niendorf, T.; Greiner, C.
2021. Materials, 14 (4), 928. doi:10.3390/ma14040928
Variations in strain affect friction and microstructure evolution in copper under a reciprocating tribological load
Becker, S.; Schulz, K.; Scherhaufer, D.; Gumbsch, P.; Greiner, C.
2021. Journal of Materials Research, 36, 970–981. doi:10.1557/s43578-020-00050-z
2020
Solid solution strengthening and deformation behavior of single-phase Cu-base alloys under tribological load
Laube, S.; Kauffmann, A.; Ruebeling, F.; Freudenberger, J.; Heilmaier, M.; Greiner, C.
2020. Acta materialia, 185, 300–308. doi:10.1016/j.actamat.2019.12.005
Early deformation mechanisms in the shear affected region underneath a copper sliding contact
Haug, C.; Ruebeling, F.; Kashiwar, A.; Gumbsch, P.; Kübel, C.; Greiner, C.
2020. Nature Communications, 11 (1), Art.-Nr. 839. doi:10.1038/s41467-020-14640-2
Variation of the frictional anisotropy on ventral scales of snakes caused by nanoscale steps
Wu, W.; Yu, S.; Schreiber, P.; Dollmann, A.; Lutz, C.; Gomard, G.; Greiner, C.; Hölscher, H.
2020. Bioinspiration & biomimetics, 15 (5), Art.-Nr.: 056014. doi:10.1088/1748-3190/ab9e51
Site-Specific Controlled Growth of Coiled Lambda-Shaped Carbon Nanofibers for Potential Application in Catalyst Support and Nanoelectronics
Lutz, C.; Bog, U.; Thelen, R.; Syurik, J.; Malik, S.; Greiner, C.; Hoelscher, H.; Hirtz, M.
2020. ACS applied nano materials, 3 (8), 7899–7907. doi:10.1021/acsanm.0c01374
Microstructural changes in CoCrFeMnNi under mild tribological load
Dollmann, A.; Kauffmann, A.; Heilmaier, M.; Haug, C.; Greiner, C.
2020. Journal of materials science, 55 (26), 12353–12372. doi:10.1007/s10853-020-04806-0
2019
Solids Under Extreme Shear: Friction-Mediated Subsurface Structural Transformations
Greiner, C.; Gagel, J.; Gumbsch, P.
2019. Advanced materials, 31 (26), Art.Nr.: 1806705. doi:10.1002/adma.201806705
Carbon Nanofibers: Locally Controlled Growth of Individual Lambda-Shaped Carbon Nanofibers
Lutz, C.; Bog, U.; Loritz, T.; Syurik, J.; Malik, S.; Kumar, C. N. S.; Kübel, C.; Bruns, M.; Greiner, C.; Hirtz, M.; Hölscher, H.
2019. Small, 15 (7), 1970036. doi:10.1002/smll.201970036
Insights into tribology from in situ nanoscale experiments
Jacobs, T. D. B.; Greiner, C.; Wahl, K. J.; Carpick, R. W.
2019. MRS bulletin, 44 (6), 478–486. doi:10.1557/mrs.2019.122
Locally Controlled Growth of Individual Lambda-Shaped Carbon Nanofibers
Lutz, C.; Bog, U.; Loritz, T.; Syurik, J.; Malik, S.; Kumar, C. N. S.; Kübel, C.; Bruns, M.; Greiner, C.; Hirtz, M.; Hölscher, H.
2019. Small, Article no 1803944. doi:10.1002/smll.201803944
2018
The origin of surface microstructure evolution in sliding friction
Greiner, C.; Liu, Z.; Schneider, R.; Pastewka, L.; Gumbsch, P.
2018. Scripta materialia, 153, 63–67. doi:10.1016/j.scriptamat.2018.04.048
Nanocomposites: Glassomer-Processing Fused Silica Glass Like a Polymer (Adv. Mater. 22/2018) [Nur Titelseite]
Kotz, F.; Schneider, N.; Striegel, A.; Wolfschläger, A.; Keller, N.; Worgull, M.; Bauer, W.; Schild, D.; Milich, M.; Greiner, C.; Helmer, D.; Rapp, B. E.
2018. Advanced materials, 30 (22), Art.Nr. 1870151. doi:10.1002/adma.201870151
Glassomer-Processing Fused Silica Glass Like a Polymer
Kotz, F.; Schneider, N.; Striegel, A.; Wolfschläger, A.; Keller, N.; Worgull, M.; Bauer, W.; Schild, D.; Milich, M.; Greiner, C.; Helmer, D.; Rapp, B. E.
2018. Advanced materials, 30 (22), 1707100. doi:10.1002/adma.201707100
Friction reduction through biologically inspired scale-like laser surface textures
Schneider, J.; Djamiykov, V.; Greiner, C.
2018. Beilstein journal of nanotechnology, 9, 2561–2572. doi:10.3762/bjnano.9.238
Characterization of the microscopic tribological properties of sandfish (Scincus scincus) scales by atomic force microscopy
Wu, W.; Lutz, C.; Mersch, S.; Thelen, R.; Greiner, C.; Gomard, G.; Hölscher, H.
2018. Beilstein journal of nanotechnology, 9, 2618–2627. doi:10.3762/bjnano.9.243
Microstructure evolution and deformation mechanisms during high rate and cryogenic sliding of copper
Chen, X.; Schneider, R.; Gumbsch, P.; Greiner, C.
2018. Acta materialia, 161, 138–149. doi:10.1016/j.actamat.2018.09.016
Stages in the tribologically-induced oxidation of high-purity copper
Liu, Z.; Patzig, C.; Selle, S.; Höche, T.; Gumbsch, P.; Greiner, C.
2018. Scripta materialia, 153, 114–117. doi:10.1016/j.scriptamat.2018.05.008
2017
Transparent, abrasion-insensitive superhydrophobic coatings for real-world applications
Helmer, D.; Keller, N.; Kotz, F.; Stolz, F.; Greiner, C.; Nargang, T. M.; Sachsenheimer, K.; Rapp, B. E.
2017. Scientific reports, 7, Art.Nr. 15078. doi:10.1038/s41598-017-15287-8
2016
Sequence of Stages in the Microstructure Evolution in Copper under Mild Reciprocating Tribological Loading
Greiner, C.; Liu, Z.; Strassberger, L.; Gumbsch, P.
2016. ACS applied materials & interfaces, 8 (24), 15809–15819. doi:10.1021/acsami.6b04035
A reciprocating optical in situ tribometer with high-speed data acquisition
Becker, S.; Popp, U.; Greiner, C.
2016. Review of scientific instruments, 87 (8), 085101. doi:10.1063/1.4959883
Haften wie ein Gecko
Greiner, C.; Hölscher, H.
2016. Physik in unserer Zeit, 47 (3), 116–122. doi:10.1002/piuz.201601422
Chronology of the microstructure evolution for pearlitic steel under unidirectional tribological loading
Wolff, K.; Liu, Z.; Braun, D.; Schneider, J.; Greiner, C.
2016. Tribology international, 102, 540–545. doi:10.1016/j.triboint.2016.06.016
Liquid Glass: A Facile Soft Replication Method for Structuring Glass
Kotz, F.; Plewa, K.; Bauer, W.; Schneider, N.; Keller, N.; Nargang, T.; Helmer, D.; Sachsenheimer, K.; Schäfer, M.; Worgull, M.; Greiner, C.; Richter, C.; Rapp, B.
2016. Advanced materials, 28 (23), 4646–4650. doi:10.1002/adma.201506089
2015
Bio-inspired scale-like surface textures and their tribological properties
Schaefer, M.; Greiner, C.
2015. Bioinspiration & biomimetics, 10 (4), Art.Nr.:044001. doi:10.1088/1748-3190/10/4/044001
Optimum dimple diameter for friction reduction with laser surface texturing: the effect of velocity gradient
Greiner, C.; Merz, T.; Braun, D.; Codrignani, A.; Magagnato, F.
2015. Surface topography, 3 (4). doi:10.1088/2051-672X/3/4/044001
Study on micro texturing of uncoated cemented carbide cutting tools for wear improvement and built-up edge stabilisation
Kümmel, J.; Braun, D.; Gibmeier, J.; Schneider, J.; Greiner, C.; Schulze, V.; Wanner, A.
2015. Journal of Materials Processing Technology, 215, 62–70. doi:10.1016/j.jmatprotec.2014.07.032
2014
Contact Splitting and the Effect of Dimple Depth on Static Friction of Textured Surfaces
Greiner, C.; Schäfer, M.; Popp, U.; Gumbsch, P.
2014. ACS Applied Materials & Interfaces, 6 (11), 7986–7990. doi:10.1021/am500879m
Efficiency of laser surface texturing in the reduction of friction under mixed lubrication
Braun, D.; Greiner, C.; Schneider, J.; Gumbsch, P.
2014. Tribology International, 77, 142–147. doi:10.1016/j.triboint.2014.04.012
A Phase-Field Approach for Wetting Phenomena of Multiphase Droplets on Solid Surfaces
Ben Said, M.; Selzer, M.; Nestler, B.; Braun, D.; Greiner, C.; Garcke, H.
2014. Langmuir, 30 (14), 4033–4039. doi:10.1021/la500312q
2012
Controlling Nanoscale Friction through the Competition between Capillary Adsorption and Thermally Activated Sliding
Greiner, C.; Felts, J. R.; Dai, Z.; King, W. P.; Carpick, R. W.
2012. ACS Nano, 6 (5), 4305–4313. doi:10.1021/nn300869w
2010
Bioinspired fibrillar adhesives
Boesel, L. F.; Greiner, C.; Arzt, E.; Campo, A. del
2010. Advanced materials, 22 (19), 2125–2137
Bio-inspired deposition of TiO2 thin films induced by hydrophobines
Santhiya, D.; Burkhard, Z.; Greiner, C.; Juergens, L. P. H.; Aken, P. A. van; Bill, J.
2010. Langmuir, 26 (9), 6494–6502. doi:10.1021/la9039557
Temperature dependence of nanoscale friction investigated with thermal AFM probes
Greiner, C.; Felts, J.; Dai, Z.; King, W. P.; Carpick, R. W.
2010. Mechanochemistry in materials science : November 30 - December 4, 2009, Boston, Massachussetts, USA, 13–20, Curran
Local nanoscale heating modulates single-asperity friction
Greiner, C.; Felts, J.; Dai, Z.; King, W. P.; Carpick, R. W.
2010. Nano Letters, 10 (11), 4640–4645. doi:10.1021/nl102809k
2009
Adhesion design maps for fibrillar adhesives: The effect of shape
Greiner, C.; Spolenak, R.; Arzt, E.
2009. Acta Biomaterialia, 5 (2), 597–606
Experimental Parameters Controlling Adhesion of Biomimetic Fibrillar Surfaces
Greiner, C.; Buhl, S.; Campo, A. del; Arzt, E.
2009. The Journal of Adhesion, 85 (9), 646–661
Humidity influence on the adhesion of biomimetic fibrillar surfaces
Buhl, S.; Greiner, C.; Campo, A. del; Arzt, E.
2009. The International Journal of Materials Research, 100 (8), 1119–1126
Hierarchical Gecko-Like Adhesives
Greiner, C.; Arzt, E.; Campo, A. del
2009. Advanced Materials, 21 (4), 479–482
2008
A Gecko-Inspired Reversible Adhesive
Northern, M. T.; Greiner, C.; Arzt, E.; Turner, K. L.
2008. Advanced Materials, 20 (20), 3905–3909
2007
Gecko-Inspired Nanomaterials
Greiner, C.
2007. Bio-mimetic and Bio-inspired Nanomaterials for Life Sciences, Wiley-VCH Verlag. doi:10.1002/9783527610419.ntls0203
A hierarchical gecko-inspired switchable adhesive
Northen, M. T.; Turner, K. L.; Greiner, C.; Arzt, E.
2007. Proceedings of the Hilton Head 2006 - A Solid State Sensors, Actuators and Microsystems Workshop, Hilton Head Island, SC, USA, June 4 - 8, 2006; 1 CD-Rom, 43–46, Transducer Research Foundation
Adhesion of Bioinspired Micropatterned Surfaces: Effects of Pillar Radius, Aspect Ratio, and Preload
Greiner, C.; Campo, A. del; Arzt, E.
2007. Langmuir, 23 (7), 3495–3502
SU-8: A photoresist for high-aspect-ratio and 3D submicron lithography
Campo, A. del; Greiner, C.
2007. Journal of Micromechanics and Microengineering, 17 (6), R81-R95
Designing model systems for enhanced adhesion
Chan, E. P.; Greiner, C.; Arzt, E.; Crosby, A. J.
2007. MRS Bulletin, 32 (6), 496–503
Patterned Surfaces with Pillars with Controlled 3D Tip Geometry Mimicking Bioattachment Devices
Campo, A. del; Greiner, C.; Alvarez, I.; Arzt, E.
2007. Advanced Materials, 19 (15), 1973–1977
Contact Shape Controls Adhesion of Bioinspired Fibrillar Surfaces
Campo, A. del; Greiner, C.; Arzt, E.
2007. Langmuir, 23 (20), 10235–10243
2006
Polymeric structured surfaces for adhesion enhancement
Greiner, C.; Arzt, E.; Campo, A. del
2006. Proceedings of the 29th Annual Meeting of the Adhesion Society, Inc., Jacksonville, Florida, USA, February 19 - 22, 2006. Ed.: Gregory Anderson, 319–338, Adhesion Society
2005
High strength, low stiffness, porous NiTi with superelastic properties
Greiner, C.; Oppenheimer, S. M.; Dunand, D. C.
2005. Acta Biomaterialia, 1 (6), 705–716
Veröffentlichungen
Titel Autor Quelle

ACS Nano, Band 6, Seiten 4305-4313
(2012)

Nano Letters, 10 (11) 4640-4645 (2010)

Mater. Res. Soc. Symp. Proc. Vol. 1226, 1226-II05-02 (2010)

Langmuir, 26 (9), 6494-6502 (2010)

Advanced Materials, 22 (19), 2125-2137 (2010)

Advanced Materials, 21 (4), 479-482 (2009)

The International Journal of Materials Research, 100 (8) 1119-1126 (2009)

The Journal of Adhesion, 85 (9), 646-661 (2009)
 

Acta Biomaterialia, 5 (2), 597-606 (2009)

Advanced Materials, 20 (20), 3905-3909 (2008)

Langmuir, 23 (20), 10235-10243 (2007)

Advanced Materials, 19(15), 1973-1977 (2007)

MRS Bulletin, 32 (6), 496-503 (2007)

Journal of Micromechanics and Microengineering, 17(6), R81-R95 (2007)

Langmuir, 23 (7), 3495-3502 (2007)

Proceedings of the 29th Annual Meeting of The Adhesion Society, (Jacksonville, Florida), p. 318 (2006)

A Solid-State Sensor, Actuator, and Microsystems Workshop, (Hilton Head, SC), pp. 43-46 (2006)

Acta Biomaterialia, 1 (6), 705-716 (2005)

Buchbeiträge
Titel Quelle

book series Nanomaterials for the Life Sciences, volume 7, Bio-mimetic and Bio-inspired Nanomaterials for Life Sciences published by Wiley-VCH

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