Nature’s hierarchical materials P Fratzl, R Weinkamer Progress in materials Science 52 (8), 1263-1334, 2007 | 3072 | 2007 |
Self healing in concrete materials VC Li, EH Yang Self healing materials: an alternative approach to 20 centuries of materials …, 2007 | 439* | 2007 |
Architecture of the osteocyte network correlates with bone material quality M Kerschnitzki, P Kollmannsberger, M Burghammer, GN Duda, ... Journal of bone and mineral research 28 (8), 1837-1845, 2013 | 388 | 2013 |
Mechanical properties of micro-and nanocapsules: Single-capsule measurements A Fery, R Weinkamer Polymer 48 (25), 7221-7235, 2007 | 300 | 2007 |
Artful interfaces within biological materials JWC Dunlop, R Weinkamer, P Fratzl Materials Today 14 (3), 70-78, 2011 | 286 | 2011 |
The bone mineralization density distribution as a fingerprint of the mineralization process D Ruffoni, P Fratzl, P Roschger, K Klaushofer, R Weinkamer Bone 40 (5), 1308-1319, 2007 | 250 | 2007 |
Aging leads to a dysregulation in mechanically driven bone formation and resorption H Razi, AI Birkhold, R Weinkamer, GN Duda, BM Willie, S Checa Journal of Bone and Mineral Research 30 (10), 1864-1873, 2015 | 231 | 2015 |
The small world of osteocytes: connectomics of the lacuno-canalicular network in bone P Kollmannsberger, M Kerschnitzki, F Repp, W Wagermaier, ... New Journal of Physics 19 (7), 073019, 2017 | 156 | 2017 |
Melting of PDADMAC/PSS capsules investigated with AFM force spectroscopy R Mueller, K Köhler, R Weinkamer, G Sukhorukov, A Fery Macromolecules 38 (23), 9766-9771, 2005 | 154 | 2005 |
Mechanical adaptation of biological materials—The examples of bone and wood R Weinkamer, P Fratzl Materials Science and Engineering: C 31 (6), 1164-1173, 2011 | 145 | 2011 |
The influence of age on adaptive bone formation and bone resorption AI Birkhold, H Razi, GN Duda, R Weinkamer, S Checa, BM Willie Biomaterials 35 (34), 9290-9301, 2014 | 121 | 2014 |
Mineralizing surface is the main target of mechanical stimulation independent of age: 3D dynamic in vivo morphometry AI Birkhold, H Razi, GN Duda, R Weinkamer, S Checa, BM Willie Bone 66, 15-25, 2014 | 110 | 2014 |
The periosteal bone surface is less mechano-responsive than the endocortical AI Birkhold, H Razi, GN Duda, R Weinkamer, S Checa, BM Willie Scientific reports 6 (1), 23480, 2016 | 99 | 2016 |
Skeletal maturity leads to a reduction in the strain magnitudes induced within the bone: a murine tibia study H Razi, AI Birkhold, P Zaslansky, R Weinkamer, GN Duda, BM Willie, ... Acta biomaterialia 13, 301-310, 2015 | 96 | 2015 |
The mechanoresponse of bone is closely related to the osteocyte lacunocanalicular network architecture AF Van Tol, V Schemenz, W Wagermaier, A Roschger, H Razi, I Vitienes, ... Proceedings of the National Academy of Sciences 117 (51), 32251-32259, 2020 | 84 | 2020 |
Salt-induced swelling-to-shrinking transition in polyelectrolyte multilayer capsules K Köhler, PM Biesheuvel, R Weinkamer, H Möhwald, GB Sukhorukov Physical review letters 97 (18), 188301, 2006 | 82 | 2006 |
Effect of temporal changes in bone turnover on the bone mineralization density distribution: a computer simulation study D Ruffoni, P Fratzl, P Roschger, R Phipps, K Klaushofer, R Weinkamer Journal of Bone and Mineral Research 23 (12), 1905-1914, 2008 | 81 | 2008 |
Monitoring in vivo (re) modeling: a computational approach using 4D microCT data to quantify bone surface movements AI Birkhold, H Razi, R Weinkamer, GN Duda, S Checa, BM Willie Bone 75, 210-221, 2015 | 80 | 2015 |
Spatial heterogeneity in the canalicular density of the osteocyte network in human osteons F Repp, P Kollmannsberger, A Roschger, M Kerschnitzki, A Berzlanovich, ... Bone reports 6, 101-108, 2017 | 74 | 2017 |
New suggestions for the mechanical control of bone remodeling JWC Dunlop, MA Hartmann, YJ Bréchet, P Fratzl, R Weinkamer Calcified tissue international 85, 45-54, 2009 | 64 | 2009 |