Biodegradable shape memory polymers RS Langer, A Lendlein, A Schmidt, H Grablowitz US Patent 6,160,084, 2000 | 608 | 2000 |
BIODEGRADABLE SHAPE MEMORY POLYMERS R LANGER, A LENDLEIN, A SCHMIDT, H GRABLOWITZ, ... WO Patent 1,999,042,147, 1999 | 608 | 1999 |
Electromagnetic activation of shape memory polymer networks containing magnetic nanoparticles AM Schmidt Macromolecular Rapid Communications 27 (14), 1168-1172, 2006 | 572 | 2006 |
AB-polymer networks based on oligo (ɛ-caprolactone) segments showing shape-memory properties A Lendlein, AM Schmidt, R Langer Proceedings of the National Academy of Sciences 98 (3), 842-847, 2001 | 504 | 2001 |
Water-soluble superparamagnetic magnetite nanoparticles with biocompatible coating for enhanced magnetic resonance imaging L Xiao, J Li, DF Brougham, EK Fox, N Feliu, A Bushmelev, A Schmidt, ... ACS nano 5 (8), 6315-6324, 2011 | 302 | 2011 |
Shape‐memory polymer networks from oligo (ϵ‐caprolactone) dimethacrylates A Lendlein, AM Schmidt, M Schroeter, R Langer Journal of Polymer Science Part A: Polymer Chemistry 43 (7), 1369-1381, 2005 | 266 | 2005 |
Magnetic control over liquid surface properties with responsive surfactants P Brown, A Bushmelev, CP Butts, J Cheng, J Eastoe, I Grillo, RK Heenan, ... Angewandte Chemie-International Edition 51 (10), 2414, 2012 | 248 | 2012 |
Thermoresponsive magnetic colloids AM Schmidt Colloid and Polymer Science 285, 953-966, 2007 | 226 | 2007 |
Magnetic thermoresponsive core− shell nanoparticles T Gelbrich, M Feyen, AM Schmidt Macromolecules 39 (9), 3469-3472, 2006 | 200 | 2006 |
Magnetoactive liquid crystal elastomer nanocomposites A Kaiser, M Winkler, S Krause, H Finkelmann, AM Schmidt Journal of materials chemistry 19 (4), 538-543, 2009 | 182 | 2009 |
Cobalt ferrite nanoparticles as multifunctional cross-linkers in PAAm ferrohydrogels R Messing, N Frickel, L Belkoura, R Strey, H Rahn, S Odenbach, ... Macromolecules 44 (8), 2990-2999, 2011 | 144 | 2011 |
Connecting supramolecular bond lifetime and network mobility for scratch healing in poly (butyl acrylate) ionomers containing sodium, zinc and cobalt RK Bose, N Hohlbein, SJ Garcia, AM Schmidt, S Van Der Zwaag Physical Chemistry Chemical Physics 17 (3), 1697-1704, 2015 | 138 | 2015 |
Metal carbonyls supported on iron oxide nanoparticles to trigger the CO-gasotransmitter release by magnetic heating PC Kunz, H Meyer, J Barthel, S Sollazzo, AM Schmidt, C Janiak Chemical Communications 49 (43), 4896-4898, 2013 | 136 | 2013 |
Shape-memory polymer networks from oligo [(ε-hydroxycaproate)-co-glycolate] dimethacrylates and butyl acrylate with adjustable hydrolytic degradation rate S Kelch, S Steuer, AM Schmidt, A Lendlein Biomacromolecules 8 (3), 1018-1027, 2007 | 133 | 2007 |
Polyester urethanes A Lendlein, A Schmidt, K Kratz, J Schulte US Patent 6,852,825, 2005 | 127 | 2005 |
Contrasting macrophage activation by fine and ultrafine titanium dioxide particles is associated with different uptake mechanisms AM Scherbart, J Langer, A Bushmelev, D van Berlo, P Haberzettl, ... Particle and fibre toxicology 8, 1-19, 2011 | 125 | 2011 |
Polymer architecture of magnetic gels: A review R Weeber, M Hermes, AM Schmidt, C Holm Journal of Physics: Condensed Matter 30 (6), 063002, 2018 | 124 | 2018 |
Interpenetrating networks A Lendlein, A Schmidt US Patent 7,037,984, 2006 | 120 | 2006 |
Polymeric networks A Lendlein, A Schmidt, NY Choi US Patent 7,217,744, 2007 | 110 | 2007 |
Perspectives for the mechanical manipulation of hybrid hydrogels R Messing, AM Schmidt Polymer Chemistry 2 (1), 18-32, 2011 | 100 | 2011 |