Title | Author | Source |
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Micromechanical Indentation Platform for Rapid Analysis of Viscoelastic Biomolecular Hydrogels | Small Methods (2024) |
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Investigation of Thick-Film-Paste Rheology and Film Material for Pattern Transfer Printing (PTP) Technology | A. Adrian, D. Rudolph, J. Lossen, N. Willenbacher |
Coatings 2021, 11, 108 https://doi.org/10.3390/coatings11010108 |
Finger Metallization Using Pattern Transfer Printing Technology for c-Si Solar Cell | A. Adrian, D. Rudolph, N. Willenbacher, J. Lossen |
IEEE Journal of Photovoltaics 10(5), 1290-1298 (2020) |
Tailoring the near-Surface Composition Profiles of Pressure-Sensitive Adhesive Films and the Resulting Mechanical Properties | A. Diethert, K. Ecker, Y. Peykova, N. Willenbacher, P. Müller-Buschbaum |
ACS Applied Material Interfaces 3, 2012–2021 (2011) |
Near-Surface Composition Profiles and the Adhesive Properties of Statistical Copolymer Films Being Model Systems of Pressure Sensitive Adhesive Films | A. Diethert, Y. Peykova, N. Willenbacher, P. Müller-Buschbaum |
ACS Applied Materials & Interfaces Vol. 2, No. 7, 2060-2068 (2010) |
Effect of Base Oil and Thickener on Texture and Flow of Lubricating Greases: Insights from Bulk Rheometry, Optical Microrheology and Electron Microscopy | A. Hodapp, A. Conrad, B. Hochstein, K.-H. Jacob, and N. Willenbacher |
Lubricants 10, 55, (2022), https://doi.org/10.3390/lubricants10040055 |
Nutzung rheologischer Kennwerte zur Beurteilung der Schmierfetteignung bei tiefen Temperaturen | A. Hodapp, A. Conrad, B. Hochstein, K.H. Jacob, N. Willenbacher |
Chemie Ingenieur Technik 94(3), 1-9 (2022), https://doi.org/10.1002/cite.202100142 |
Characterization of Complex Fluids at very Low Frequency: Experimental Verification of the Strain Rate-frequency Superposition (SRFS) Method | A. Kowalczyk, B. Hochstein, P. Stähle, N. Willenbacher |
Applied Rheology 20, 52340 (2010) |
Tracking errors in 2D multiple particle tracking microrheology | A. Kowalczyk, C. Oelschlaeger, N. Willenbacher |
Measurement Science and Technology 26, 015302-015316 (2015) |
Visualization of micro-scale inhomogeneities in acrylic thickener solutions: A multiple particle tracking study | A. Kowalczyk, C. Oelschlaeger, N. Willenbacher |
Polymer 58, 170-179 (2015) |
Optimization of Experimental Parameters to Suppress Nozzle Clogging in Inkjet Printing | A. Lee, K. Sudau, K. H. Ahn, S. J. Lee, N. Willenbacher |
Ind. Eng. Chem. Res. 51, 13195−13204 (2012) |
Effect of Molecular Weight on the Tack of Pressure Sensitive Adhesives | A. O’Connor, C. Macosko, and N. Willenbacher | Int. Journal of Adhesion and Adhesives, 24, 335-346 (2004) |
High-Throughput Object Recognition and Sizing in Disperse Systems | A. R. Völp, F. Fessler, J. Reiner, N. Willenbacher |
Chemical Engineering & Technology 43(9). 1-7 (2020) |
In-situ rheological and structural characterization of milk foams in a commercial foaming device | A. R. Völp, L. Kagerbauer, J. Engmann, D. Z. Gunes, C. Gehin-Delval, N. Willenbacher |
Journal of Food Engineering (2020) |
Shear modulus and yield stress of foams: contribution of interfacial elasticity | A. R. Völp, N. Willenbacher |
Soft Matter, 2021, Advance Article https://doi.org/10.1039/D0SM02246B |
Miniaturized high-throughput synthesis and screening of responsive hydrogels using nanoliter compartments | A. Rosenfeld, C. Oelschlaeger, R. Thelen, S. Heissler, P. A. Levkin |
Materials Today Bio (2020), https://doi.org/10.1016/j.mtbio.2020.100053 |
Miniaturized high-throughput synthesis and screening of responsive hydrogels using nanoliter compartments | A. Rosenfeld, C. Oelschlaeger, R. Thelen, S. Heissler, P. A. Levkin |
Materials Today Bio 6, 100053 (2020) |
High Frequency Viscosity and Shear Modulus of Sterically Stabilized Colloid Particles as Probed by Torsional Resonance Oscillation | A. Weiss, M. Ballauff, and N. Willenbacher | J. Colloid Interface Sci. 216, 185-188 (1999) |
Low-Temperature Rheology and Thermoanalytical Investigation of Lubricating Oils: Comparison of Phase Transition, Viscosity, and Pour Point | Andreas Conrad, Annika Hodapp, Bernhard Hochstein, Norbert Willenbacher, Karl-Heinz Jacob |
Lubricants 2021 MDPI https://doi.org/10.3390/lubricants9100099 |
Structure and rheology of foams stabilized by lupin protein isolate of Lupinus.angustifolius | Annika R. Völp, Jonas Seitz, Norbert Willenbacher |
Elsevier, 2021, Food Hydrocolloids https://doi.org/10.1016/j.foodhyd.2021.106919 |
Ni-NHC nanoparticles in micelles as an effective and reusable catalyst for hydrogenations and reductive-aminations in water | Avello, Marta; Blas Martinez, Jorge; Romero, Thierry; Papaefthimiou, Vasiliki; Chetcuti, Michael; Ritleng, Vincent; Pham-Huu, Cuong; Oelschlaeger, Claude; Michon, Christophe |
ACS Sustainable Chem. Eng. 2024, 12, 29, 10739-10751 |
Interaction between Polymeric Additives and Secondary Fluids in Capillary Suspensions | B. Bitsch, B. Braunschweig, N. Willenbacher |
Langmuir, 2016, 32 (6), pp 1440–1449 |
A novel slurry concept for the fabrication of Lithium-Ion battery electrodes with beneficial properties | B. Bitsch, J. Dittmann, M. Schmitt, P. Scharfer, W. Schabel, N. Willenbacher |
Journal of Power Sources 265, 81-90 (2014) |
Einflüsse der mechanischen Verfahrenstechnik auf die Herstellung von Elektroden für Lithium-Ionen-Batterien | B. Bitsch, N. Willenbacher, V. Wenzel, S. Schmelzle, H. Nirschl |
Chem. Ing. Tech. 87 (4), 466–474 (2015) |
Capillary suspensions as benificial formulation concept for high energy density Li-ion battery electrodes | B. Bitsch, T. Gallasch, M. Schroeder, M. Börner, M. Winter, N. Willenbacher |
Journal of Power Sources 328, 114-123 (2016) |
An Empirical Model to Predict the Viscosity of Highly Concentrated, Bimodal Dispersions with Colloidal Interactions | B. Dames, B.R. Morrison and N. Willenbacher | Rheologica Acta 40, 434-440 (2001) |
Innovatives Inline-Rheometer zur Bestimmung des Stärkeabbaus im Extruder | B. Hochstein, Z. Kizilbay, M. Horvat, H. P. Schuchmann, N. Willenbacher |
Chem. Ing. Tech. 87 (1-2), 1-6 (2015) |
Chain flexibility and dynamics of alginate solutions in different solvents | B. Maciel, C. Oelschlaeger, N. Willenbacher |
Colloid and Polymer Science 1-11 (2020) |
The Influence of Rheological and Wetting Properties of Hydrogel-based Bio-Inks on Extrusion-based Bioprinting | B.R. Maciel, K. Baki, C. Oelschlaeger, and N. Willenbacher |
Chemie Ingenieur Technik 94(3), 1–10 (2022), https://doi.org/10.1002/cite.202100139 |
Deformation of soft particles with controlled elasticity by liquid-liquid interfacial tension | Benedikt Sapotta, Jongmin Q. Kim, Norbert Willenbacher and Siyoung Q. Choi |
Soft Matter |
Chain flexibility and dynamics of alginate solutions in different solvents | Bruna Maciel, Claude Oelschlaeger, Norbert Willenbacher |
Colloid and Polymer Science (2020), https://doi.org/10.1007/s00396-020-04612-9 |
Correction to: Chain flexibility and dynamics of alginate solutions in different solvents | Bruna Maciel, Claude Oelschlaeger, Norbert Willenbacher |
Colloid and Polymer Science (2021) https://doi.org/10.1007/s00396-020-04612-9 |
Targeted micro-heterogeneity in bioinks allows for 3D printing of complex constructs with improved resolution and cell viability | Bruna R Maciel, Alisa Grimm, Claude Oelschlaeger, Ute Schepers, Norbert Willenbacher |
Biofabrication, 2023, 15, 045013, https://dx.doi.org/10.1088/1758-5090/acee22 |
Targeted Micro-Phase separation – A generic design concept to control the elasticity of extrudable hydrogels | Bruna R. Maciel, Ke Wang, Marc Müller, Claude Oelschlaeger, Norbert Willenbacher |
Materials & Design, 2023, 227, 111803, https://doi.org/10.1016/j.matdes.2023.111803 |
Synthesis, Structural and Micromechanical Properties of 3D Hyaluronic Acid-Based Cryogel Scaffolds | C. Oelschlaeger, F. Bossler, N. Willenbacher |
Biomacromolecules, 17 (2), pp 580–589 (2016) |
Linear-to-Branched Micelles Transition: A Rheometry and Diffusing Wave Spectroscopy (DWS) Study | C. Oelschlaeger, M. Schopferer, F. Scheffold, N. Willenbacher |
Langmuir, 25(2), 716-729 (2009) |
Chain flexibility and dynamics of polysaccharide hyaluronan in entangled solutions: a high frequency rheology and diffusing wave spectroscopy study | C. Oelschlaeger, M. C. Pinto Coelho, N. Willenbacher |
Biomacromolecules 14 (10), 3689-3696 (2013) |
Rheological Properties of Aqueous Solutions of Cetylpyridinium Chloride in the Presence of Sodium Chlorate | C. Oelschlaeger, N. Willenbacher |
Rheologica Acta 50, 655–660 (2011) |
Mixed wormlike micelles of cationic surfactants: effect of the cosurfactant chain length on the bending elasticity and rheological properties | C. Oelschlaeger, N. Willenbacher |
Colloids and Surfaces A: Physicochemical and Engineering Aspects 406, 31-37 (2012) |
Multiple-Particle Tracking (MPT) Measurements of Heterogeneities in Acrylic Thickener Solutions | C. Oelschlaeger, N. Willenbacher, S. Neser |
Progress in Colloid and Polymer Science, 134, 74-79 (2008) |
Effect of Counterion Binding Efficiency on Structure and Dynamics of Wormlike Micelles | C. Oelschlaeger, P. Suwita, N. Willenbacher |
Langmuir 26 (10), 7045–7053 (2010) |
Effect of weak attractive interactions on flow behavior of highly concentrated crystalline suspensions | C. Weis, I. Natalia, N. Willenbacher |
J. Rheol. 58(5), 1583-1597 (2014) |
Rheology and Screen-Printing Performance of Model Silver Pastes for Metallization of Si-Solar Cells | C. Yüce, M. König, N. Willenbacher |
Coatings 2018, 8, 406; doi:10.3390/coatings8110406 |
Non-volatile free silver paste formulation for front-side metallization of silicon solar cells | Ceren Yüce, Kininori Okamoto, Lindsey Karpowich, Adrian Adrian, Norbert Willenbacher |
Solar Energy Materials and Solar Cells 200 (2019) 110040 |
How rheological properties affect fine-line screen printing of pastes: A combined rheological and high-speed video imaging study | Chenhui Xu, Norbert Willenbacher |
https://doi.org/10.1007/s11998-018-0091-2 |
Ionic strength effect on the structure and dynamics of colloidal dispersions with weak attractive interactions | Claude Oelschlaeger, Bruna R. Maciel, Louise Ratel, Marc Müller, Norbert Willenbacher |
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 700, 2024, 134694 |
Imaging of the microstructure of Carbopol dispersions and correlation with their macroelasticity: A micro- and macrorheological study | Claude Oelschlaeger, Jonas Marten, Florian Péridont and Norbert Willenbacher |
Journal of Rheology 66, 749 (2022), https://doi.org/10.1122/8.0000452
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Giant Functional Properties in Porous Electroceramics through Additive Manufacturing of Capillary Suspensions | D. Menne, L. Lemos da Silva, M. Rotan, J. Glaum, M. Hinterstein, N. Willenbacher |
ACS Applied Materials and Interfaces (2022), https://pubs.acs.org/doi/10.1021/acsami.1c19297 |
Determination of axial forces during the capillary breakup of liquid filaments – the tilted CaBER method | D. Sachsenheimer, B. Hochstein, H. Buggisch, N. Willenbacher |
Rheologica Acta 51, 909–923 (2012) |
Experimental study on the capillary thinning of entangled polymer solutions | D. Sachsenheimer, B. Hochstein, N. Willenbacher |
Rheologica Acta 53, 725–739 (2014) |
Elongational deformation of wormlike micellar solutions | D. Sachsenheimer, C. Oelschlaeger, S. Müller, J. Küstner, S. Bindgen, N. Willenbacher |
Journal of Rheology 58, 2017-2042 (2014) |
Method for determining the average filament length during a rotational atomization, and screening method based thereon during the development of a paint | Daniel Briesenick, Dirk Eierhoff, Georg Wigger, Christian Bornemann, Siegfried Riediger, Norbert Willenbacher, Walter Oswald |
United States Patent Application Publication Pub. No.: US 2021/0262912 A1 |
A Robust Soil Water Potential Sensor with High Sensitivity and Broad Measuring Range | David Menne, Christof Hübner, Dennis Trebbels, Norbert Willenbacher |
IEEE DOI: 10.1109/ISEMA49699.2021.9508320 |
Capillary suspensions: Particle networks formed through the capillary force | E. Koos |
Current Opinion in Colloid and Interface Science 19 (6), 575-584 (2014) |
Capillary Forces in Suspension Rheology | E. Koos, N. Willenbacher |
Science 331, 897 (2011) |
Kapillarkräfte in Suspensionen: Rheologische Eigenschaften und potenzielle Anwendungen | E. Koos, J. Dittmann, N. Willenbacher |
Chemie Ingenieur Technik 83 (8), 1305–1309 (2011) |
Tuning suspension rheology using capillary forces | E. Koos, J. Johannsmeier, L. Schwebler, N. Willenbacher |
Soft Matter 8 (24), 6620 - 6628 (2012) |
Restructuring and aging in a capillary suspension | E. Koos, W. Kannowade, N. Willenbacher |
Rheologica Acta 53, 947-957 (2014) |
Particle configurations and gelation in capillary suspensions | E. Koos, N. Willenbacher |
Soft Matter 8 (14), 3988 - 3994 (2012) |
Microscopic structure in pressure sensitive adhesives: an ultrasmall angle X-ray study | E. Maurer, S. Loi, D. Wulff, N. Willenbacher, P. Müller-Buschbaum | Physica B, 357 144-147 (2005) |
Fractal approaches to characterize the structure of capillary suspensions using rheology and confocal microscopy | F. Bossler, J. Maurath, K. Dyhr, N. Willenbacher, E. Koos |
Journal of Rheology, 62 (1), 183–196 (2018) |
Influence of mixing conditions on the rheological properties and structure of capillary suspensions | F. Bossler, L. Weyrauch, R. Schmidt, E. Koos |
Colloids and Surfaces A: Physicochemical and Engineering Aspects 518, 85-97 (2017) |
Structure of particle networks in capillary suspensions with wetting and nonwetting fluids | F. Bossler, E. Koos |
Langmuir, 32 (6), 1489–1501 (2016) |
Hydrodynamic and Colloidal Interactions in Concentrated Charge Stabilized Polymer Dispersions | F.M. Horn, W. Richtering, J. Bergenholtz, N. Willenbacher, and N.J. Wagner | J. Colloid Interface Sci. 225, 166-178 (2000) |
High Frequency Rheology of Hard Sphere Colloidal Dispersions Measured with a Torsional Resonator | G. Fritz, B. Maranzano, N.J. Wagner, and N. Willenbacher | J. Non-Newtonian Fluid Mech. 102, 149-156 (2002) |
High Frequency Rheology of Complex Fluids from Torsional Resonance Oscillation at Multiple Frequencies | G. Fritz, N. Willenbacher, and N.J. Wagner |
J. Rheol. 47(2), 303-319 (2003) |
Electrosteric Stabilization of Colloidal Dispersions | G. Fritz, V. Schädler, N. Willenbacher, and N.J. Wagner | Langmuir 18, 6381-6390 (2002) |
Mutations in Desmin's Carboxy-Terminal "Tail" Domain Severely Modify Filament and Network Mechanics | H. Bär, M. Schopferer, S. Sharma, B. Hochstein, N. Mücke, H. Herrmann, N. Willenbacher |
Journal of Molecular Biology, 397, 1188–1198 (2010) |
Elastic Interactions of High-spin and Low-spin Complex Molecules in Spin-crossover Compounds: II | H. Spiering and N. Willenbacher | J. Phys. Condens. Matter, 1, 10089-10105 (1989) |
Highly Conductive and Stretchable Filament for Flexible Electronics | H. Sun, J. Zettl, und N. Willenbacher |
Additive Manufacturing doi: 10.1016/j.addma.2023.103872 |
Ultrastrechable Conductive Elastomers with a Low Percolation Threshold for Printed Soft Electronics | H. Sun, Z. Han, N. Willenbacher |
ACS Applied Materials Interfaces 2019,11
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Rheometry on Magnetorheological (MR) Fluids I. Steady Shear Flow in Stationary Magnetic Fields | H.M. Laun, C. Kormann, and N. Willenbacher | Rheologica Acta 35, 417-432 (1996) |
Rheology of Thermosensitive Latex Particles Including the High Frequency Limit | I. Deike, A. Weiss, N. Willenbacher, and M. Ballauff | J. Rheol. 45(3), 709-720 (2001) |
Relationship Between Short- time Self-diffusion and High Frequency Viscosity in Charge Stabilized Dispersions | J. Bergenholtz, F. M. Horn, W. Richtering, N. Willenbacher, N. J. Wagner | Physical Review E, Rapid Communications, 58 (4), 4088-4091 (1998) |
Colloidal Charge Determination in Concentrated Liquid Dispersions Using Torsional Resonance Oscillation | J. Bergenholtz, N. Willenbacher, B. Morrison, N.J. Wagner, D. van de Ende, and J. Mellema | J. Colloid Interface Sci., 202, 430-440 (1998) |
Physical properties of cytoplasmic intermediate filaments | J. Block, V. Schroeder, P. Pawelzyk, N. Willenbacher, S. Köster |
Biochimica et Biophysica Acta xxx (2015) xxx–xxx |
Characterization of the Viscoelastic Behavior of Complex Fluids using the Piezoelastic Axial Vibrator (PAV) | J. Crassous, R. Régisser, M. Ballauff, N. Willenbacher | Journal of Rheology, 49(4), 851-864 (2005) |
Ceramic Capillary Suspensions: Novel Processing Route for Macroporous Ceramic Materials | J. Dittmann, E. Koos, N. Willenbacher |
J. Am. Ceram. Soc., 96 (2) 391–397 (2013) |
Highly Porous Materials with Unique Mechanical Properties from Smart Capillary Suspensions | J. Dittmann, J. Maurath, B. Bitsch, N. Willenbacher |
Advanced Materials, 28(8), 1689-1696 (2016)
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Micro Structural Investigations and Mechanical Properties of Macro Porous Ceramic Materials from Capillary Suspensions | J. Dittmann, N. Willenbacher |
J. Am. Ceram. Soc., 1–6 (2014) |
Microrheology imaging of fiber suspensions - a case study for lyophilized collagen I in HCI solutions | J. Hafner, C. Oelschlaeger, N. Willenbacher |
Soft Matter (2020) |
Monitoring matrix remodeling in the cellular microenvironment using microrheology for complex cellular systems | J. Hafner, D. Grijalva, A. Ludwig-Husemann, S. Bertels, L. Bensinger, A. Raic, J. Gebauer, C. Oelschlaeger, M. Bastmeyer, K. Bieback, C. Lee-Thedieck, N. Willenbacher |
Acta Biomaterialia 111, 254-266 (2020) |
The Influence of Extensional Properties on the dewatering of Coating Colors | J. Jäder, N. Willenbacher, G. Engström, L. Järnström | Journal of Pulp and Paper Science, 31(4), 181-187 (2005) |
Prozess- und Produktentwicklung von Elektroden für Li-Ionen-Zellen | J. Kaiser, V. Wenzel, H. Nirschl, B. Bitsch, N. Willenbacher, M. Baunach, M. Schmitt, S. Jaiser, P. Scharfer, W. Schabel |
Chem. Ing. Tech. 86 (5), 1-13 (2014) |
Influence of particle shape on the rheological behavior of three-phasenon-brownian suspensions | J. Maurath, B. Bitsch, Y. Schwegler, N. Willenbacher |
Colloids and Surfaces A: Physicochemical and Engineering Aspects 497, 316-326 (2016) |
Fabrication of highly porous glass filters using capillary suspension processing | J. Maurath, J. Dittmann, N. Schultz, N. Willenbacher |
Separation and Purification Technology 149 (6) 470–478 (2015) |
3D printing of open-porous cellular ceramics with high specific strength | J. Maurath, N. Willenbacher |
Journal of the European Ceramic Society (2017) |
Surface characterization of functionalized latexes with different surface functionalities using rheometry and dynamic light scattering | J. S. Vesaratchanon, K. Takamura, N. Willenbacher |
Journal of Colloid and Interface Science, 345, 214–221 (2010) |
How the interaction between styrene-butadiene-rubber (SBR) binder and a secondary fluid affects the rheology, microstructure and adhesive properties of capillary-suspension-type graphite slurries used for Li-ion battery anodes | Jieun Park, Norbert Willenbacher, Kyung Hyun Ahn |
Colloids und Surfaces A |
Monitoring matrix remodelling in the cellular microenvironment using microrheology for complex cellular systems | Johanna Hafner, David Grijalva, Anita Ludwig-Husemann, Sarah Bertels, Lea Bensinger, Annamarija Raic, Julian Gebauer, Claude Oelschlaeger, Martin Bastmeyer, Karen Bieback, Cornelia Lee-Thedieck , Norbert Willenbacher |
Acta Biomaterialia, accepted April 2020 |
Hyaluronic acid cryogels with non-cytotoxic crosslinker genipin | Johanna Roether, Claude Oelschlaeger, Norbert Willenbacher |
Materials Letter: X 4 (2019) 100027 https://www.sciencedirect.com/science/article/pii/S2590150819300511
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Real-time monitoring of DNA immobilization and detection of DNA polymerase activity by a microfluidic nanoplasmonic platform | Johanna Roether, Kang-Yu Chu, Norbert Willenbacher, Amy Q. Shen, Nikhil Bhalla |
Biosensors and Bioelectronics 142 (2019) 111528 |
Front side metallization of silicon solar cells - A high-speed video imaging analysis of the screen printing process | K. Abdel Aal, N. Willenbacher |
Solar Energy Materials snd Solar Cells (2020) |
pH Effects on the Molecular Structure of β‑Lactoglobulin Modified Air−Water Interfaces and its Impact on Foam Rheology | K. Engelhardt, M. Lexis, G. Gochev, C. Konnerth, R. Miller, N. Willenbacher, W. Peukert, B. Braunschweig |
Langmuir 29 (37), 11646-11655 (2013) |
Clogging of microchannels by nano-particles due to hetero-coagulation in elongational flow | K. Georgieva, D.J. Dijkstra, H. Fricke, N. Willenbacher |
Journal of Colloid and Interface Science 352, 265–277 (2010) |
Lightweight Porous Glass Composite Materials Based on Capillary Suspensions | K. Hartung, C. Benner, N. Willenbacher, E. Koos |
Materials 2019, 12, 619; doi:10.3390/ma1240619 |
Extensional rheology of concentrated emulsions as probed by capillary breakup elongational rheometry (CaBER) | K. Niedzwiedz, H. Buggisch, N. Willenbacher |
Rheologica Acta 49, 1103–1116 (2010) |
Capillary Breakup Extensional Rheometry of Yield Stress Fluids | K. Niedzwiedz, O. Arnolds, N. Willenbacher, R. Brummer |
Applied Rheology 19, 41969 (2009) |
Structure of capillary suspensions and their versatile applications in the creation of smart materials | K.Hauf, E.Koos |
MRS Communications, 1-11 |
Manufacture and filtration performance of glass filters made from capillary suspensions | Kevin Tedjokusuma, Werner Lauth, Norbert Willenbacher |
Separation and Purification Technology, Volume 329, 15 January 2024, 125097, https://doi.org/10.1016/j.seppur.2023.125097 |
FLECTILE: 3D-Printable Soft Actuators for Wearable Computing | L. Fang, T. Rödigger, H. Sun, N. Willenbacher, M. Beigl |
Proceedings of the 2020 International Symposium on Wearable Computers, 32-36 (2020) |
Dimensional analysis of droplet size and ligament length during high-speed rotary bell atomization | L. Gödeke, W. Oswald, N. Willenbacher, P. Ehrhard |
Journal of Coatings Technology and Research (2020) |
Improving the processability of coke water slurries for entrained flow gasification | L. Jampolski, A. Sänger, T. Jakobs, G. Guthausen, T. Kolb, N. Willenbacher |
Fuel 185, 102 - 111 (2016) |
Apparent elongational yiel stress of soft matter | L. Martinie, H. Buggisch, N. Willenbacher |
J. Rheol. 57(2), 627-646 (2013) |
Accurate quantification of DNA content in DNA hydrogels prepared by rolling circle amplification | Leonie Schneider, Madleen Richter, Claude Oelschlaeger, Kersten S. Rabe, Carmen M. Dominguez and Christof M. Niemeyer |
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Macro- and microscale structure formation and aging in different arrested states of Laponite dispersions | Müge Pilavtepe, Steffen M. Recktenwald, Rainer Schuhmann, Katja Emmerich and Norbert Willenbacher |
Journal of Rheology, Vol 62, No. 2, pp. 593-605, 2018 |
The Relaxation of Concentrated Polymer Solutions | M. Baumgärtel and N. Willenbacher | Rheologica Acta 35, 168-185 (1996) |
A multiple-step slit die rheometer for rheological characterization of extruded starch melts | M. Horvat, M. A. Emin, B. Hochstein, N. Willenbacher, H. P. Schuchmann |
Journal of Food Engineering 116, 398–403 (2013) |
Influence of medium-chain triglycerides on expansion and rheological properties of extruded corn starch | M. Horvat, M. A. Emin, B. Hochstein, N. Willenbacher, H. P. Schuchmann |
Carbohydrate Polymers 93, 492– 498 (2013) |
Einfluss der Flüssigkeitsviskosität auf das rheologische Verhalten von Schäumen | M. Lexis, N. Willenbacher |
Chemie Ingenieur Technik 85, No. 8, 1–8 (2013) |
Yield stress and elasticity of aqueous foams from protein and surfactant solutions – The role of continuous phase viscosity and interfacial properties | M. Lexis, N. Willenbacher |
Colloids and Surfaces A: Physicochem. Eng. Aspects 459, 177–185 (2014) |
Relating foam and interfacial rheological properties of beta-lactoglobulin solutions | M. Lexis, N. Willenbacher |
Soft Matter 10 (48), 9626-9636 (2014) |
Formation of Arrested States in Natural Di- and Trioctahedral Smectite Dispersions Compared to those in Synthetic Hectorite – a Macro- and Microrheological Study | M. Pilavtepe, L. Delavernhe, A. Steudel, R. Schuhmann, N. Willenbacher, and K. Emmerich (2018). |
Clays and Clay Minerals, Vol. 66, No. 4, 339-352. |
Highly conductive, printable pastes from capillary suspensions | M. Schneider, E. Koos, N. Willenbacher |
Scientific Reports 6, 31367 (2016) |
Desmin and vimentin intermediate filament networks: Their viscoelastic properties investigated by mechanical rheometry | M. Schopferer, H. Bär, B. Hochstein, S. Sharma, N. Mücke, H. Herrmann, N. Willenbacher |
Journal of Molecular Biology, 388, 133–143 (2009) |
Shrinkage and dimensional accuracy of porous ceramics derived from capillary suspensions | M. Weiß, J. Maurath, N. Willenbacher, E. Koos |
Journal of the European Ceramic Society 39 (2019) 1887-1892 https://doi.org/10.1016/j.jeurceramsoc.2019.01.011
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3D-Printed lightweight ceramics using capillary suspensions with incorporated nanoparticles | M. Weiß, P. Sälzler, N. Willenbacher, E. Koos |
Journal of the European Ceramic Society 40(8), 3140-3147 (2020) |
Effects of cross-link density on re-entrant melting of microgel colloids | M. Wiemann, N. Willenbacher, E. Bartsch |
Colloids and Surfaces A: Physicochem. Eng. Aspects 413, 78-83 (2012) |
Squeeze flow rheometry as a novel tool for the characterization of highly concentrated protein solutions | M.-T. Schermeyer, H. Sigloch , K. C. Bauer, C. Oelschlaeger, J. Hubbuch |
Biotechnology and Bioengineering 113, 576-587 (2016) |
Phenolic Acid Decarboxylase Based All-Enzyme Hydrogel for Microreactor Technology | Mittmann, E., Gallus, S., Bitterwolf, P., Oelschlaeger, C., Willenbacher, N., Niemeyer, C.M., Rabe, K.S. |
Micromachines, 10 (12), 795. (2019) |
Unusual Thixotropic Properties of Aqueous Dispersions of Laponite RD | N. Willenbacher | Journal of Colloid and Interface Science 182, 501-510 (1996) |
The Elastic Interaction of High-spin and Low-spin Complex Molecules in Spin-crossover Compounds | N. Willenbacher and H. Spiering | J. Phys. C: Solid State Phys. 21, 1423-1439 (1988) |
Shear and Elongational Flow Properties of Fluid S1 from Rotational, Capillary, and Opposed Jet Rheometry | N. Willenbacher and R. Hingmann | J. Non-Newtonian Fluid Mech., 52 163-176 (1994) |
Dynamics and structure of complex fluids from high frequency mechanical and optical rheometry | N. Willenbacher, C. Oelschlaeger |
Current Opinion of Colloid & Interface Science, 12, 43-49 (2007) |
Broad Bandwidth Optical and Mechanical Rheometry of Wormlike Micelle Solution | N. Willenbacher, C. Oelschlaeger, M. Schopferer, P. Fischer, F. Cardinaux, F. Scheffold |
Physical Review Letters, 99, 068302 (2007) |
High Shear Viscosity of Paper Coating Colors - more than just Viscosity | N. Willenbacher, H. Hanciogullari, and H.G. Wagner | Chemical Engineering and Technology, 20, 557-563 (1997) |
New Laboratory Test to Characterize Immobilization and Dewatering of Paper Coating Colors | N. Willenbacher, H. Hanciogullari, and M. Raedle | TAPPI Journal 82, 167-174 (1999) |
An alternative route to highly concentrated, freely flowing colloidal dispersions | N. Willenbacher, J. S. Vesaratchanon, O. Thorwarth, E. Bartsch |
Soft Matter 7, 5777-5788 (2011) |
Tailoring PSA-Dispersion Rheology for High-Speed Coating | N. Willenbacher, L. Börger, D. Urban, L. Varela de la Rosa |
ASI, Adhesives & Sealants, 10(9), 26-35 (2003) |
Effect of aggregation on shear and elongational flow properties of acrylic thickeners | N. Willenbacher, Y. Matter, I. Gubaydullin, V. Schädler |
Korea-Australia Rheology Journal, 20(3), 109-116 (2008) |
Capillary breakup extensional rheometry (CaBER) on semi-dilute and concentrated polyethyleneoxide (PEO) solutions | O. Arnolds, H. Buggisch, D. Sachsenheimer, N. Willenbacher |
Rheologica Acta 49, 11, 1207 (2010) |
A holistic view on the role of egg yolk in Old Masters’ oil paints | O. Ranquet, C. Duce, E. Bramanti, P. Dietemann, I. Bonaduce und N. Willenbacher |
Nature Communications, 14, 1534 (2023) |
Tempera and Tempera Grassa – from wet paints to solid films | O. Ranquet, C. Duce, G. Caroti, P. Dietemann, I. Bonaduce und N. Willenbacher |
ACS Applied Polymer Materials |
Investigation of the flow field in thin polymer films due to inhomogeneous drying | P. Cavadini, J. Erz, D. Sachsenheimer, A. Kowalczyk, N. Willenbacher, P. Scharfer, W. Schabel |
J. Coat. Technol. Res., 12 (5) 921–926 (2015) |
Vesicles as Rheology Modifier | P. Fernandez, N. Willenbacher, T. Frechen, A.Kühnle | Colloids and Surfaces A, Physicochemical + Engineering Aspects, 262(1-3), 204-210 (2005) |
Processing of Aqueous Graphite-Silicon Oxide Slurries and Its Impact on Rheology, Coating Behavior, Microstructure and Cell Performance | P. Haberzettl, N. Filipovic, D. Vrankovic und N. Willenbacher |
Batteries |
Mechanics of intermediate filament networks assembled from keratins K8 and K18 | P. Pawelzyk, H. Herrmann, N. Willenbacher |
Soft Matter 9, 8871–8880 (2013) |
Ultrasonic in-line monitoring of styrene miniemulsion polymerization | P. Pawelzyk, M.Toledo, N.Willenbacher |
Chemical Engineering Journal 219 (2013) 303–310 |
Attractive Interactions among Intermediate Filaments Determine Network Mechanics In Vitro | P. Pawelzyk, N. Mücke, H. Herrmann N. Willenbacher |
PLoS ONE 9 (4), e93194 (2014) |
Valency engineering of monomeric enzymes for self-assembling biocatalytic hydrogels | Patrick Bitterwolf, Sabrina Gallus, Theo Peschke, Esther Mittmann, Claude Oelschlaeger, Norbert Willenbacher Kersten S. Rabe and Christof M. Niemeyer |
Chemical Science, 10, 9752-9757 (2019) |
Sedimentation of lithium-iron-phosphate and carbon black particles in opaque suspensions used for lithium-ion-battery electrodes | R. Balbierer, R. Gordon, S. Schuhmann, N. Willenbacher, H. Nierschl, G. Guthausen |
Energy materials https://doi.org/10.1007/s10853-018-03253-2 |
Runnability and Flow-induced Aggregation of Paper Coating Colors | R. Ettl, V. Schädler, and N. Willenbacher, | Nordic Pulp & Paper Research Journal, 5 (2000) |
Effect of Polymeric Binders on Dispersion of Active Particles in Aqueous LiFePO4-Based Cathode Slurries as well as on Mechanical and Electrical Properties of Corresponding Dry Layers | R. Gordon, M. Kassar, N. Willenbacher |
ACS Omega https://dx.doi.org/10.1021/acsomega.0c00477 (2020) |
Effect of carboxymethyl cellulose on the flow behavior of lithium-ion battery anode slurries and the electrical as well as mechanical properties of corresponding dry layers | R. Gordon, R. Orias, N. Willenbacher |
Journal of Material Science (2020) |
Interfacial and Foaming Properties of Tailor-Made Glycolipids - Influence of the Hydrophilic Head Group and Fucnctional Groups in the Hydrophobic Tail | R. Hollenbach, A. R. Völp, L. Höfert, J. Rudat, K. Ochsenreither, N. Willenbacher, C. Syldatk |
Molecules 25, 3797 (2020) |
Microstructure, local viscoelasticity and cell culture suitability of 3D hybrid HA/collagen scaffolds | Roether, Johanna; Bertels, Sarah; Oelschlaeger, Claude; Bastmeyer, Martin; Willenbacher, Norbert |
PLoSONE 13(12): e0207397. https://doi.org/10.1371/journal.pone.0207397 |
Miniemulsion Polymerization of Acrylated Methyl Oleate for Pressure Sensitive Adhesives | S. Bunker, C. Staller, N. Willenbacher, and R. Wool | Int. Journal of Adhesion and Adhesives, 23(1), 29-38 (2003) |
Chemical Force Microscopy Study of Adhesive Properties of Polypropylene Films: Influence of Surface Polarity and Medium | S. Gourianova, N. Willenbacher, .M. Kutschera | Langmuir, 21(12), 5429-5438 (2005) |
Using capillary bridges to tune stability and flow behavior of food suspensions | S. Hoffmann, E. Koos, N. Willenbacher |
Food Hydrocolloids 40, 44-52 (2014) |
Shear and elongational flow behavior of acrylic thickener solutions, Part II: effect of gel content | S. Kheirandish, I. Gubaydullin, N. Willenbacher |
Rheologica Acta 48, 397-407 (2009) |
Characterization of Polymer Dispersions by Fourier Transform Rheology | S. Kirsch, N. Willenbacher, S. Kallus, M. Wilhelm, and H.W. Spieß | Rheologica Acta 40, 552-559 (2001) |
Microrheology with Fluorescence Correlation Spectroscopy | S. Rathgeber, H.-J. Beauvisage, H. Chevreau, N. Willenbacher, C. Oelschlaeger |
Langmuir 25(11), 6368-6376 (2009) |
Heterogeneous flow inside threads of low viscosity fluids leads to anomalous long filament lifetimes | S. Recktenwald, S. J. Haward, A.Q. Shen, N. Willenbacher |
SCIENTIFIC REPORTS (2019) 9:7110 https://doi.org/10.1038/s41598-019-43590-z |
Tailoring flow behavior and texture of water based cocoa suspensions | S. Wollgarten, C. Yuce, E. Koos, N. Willenbacher |
Food Hydrocolloids 52, 167-174 (2015) |
Shear and elongational flow behavior of acrylic thickener solutions, Part I: Effect of intermolecular aggregation | S.Kheirandish, I. Gubaydullin, W. Wohlleben, N.Willenbacher |
Rheologica Acta, DOI 10.1007/s00397-008-0292-1 (2008) |
A Simple and Sensitive Approach for Real-Time Sensing of Enzymatically Catalyzed Hydrogelation | Sebastian Putz, Meriem Kassar, Claude Oelschlaeger, Matthias Franzreb and Gözde Kabay |
Adv. Funct. Mater. 2024, 2316469 (1-13) |
Mesoscopic Fibrillation Properties of Pressure Sensitive Adhesives Based on Latex Films | T. Dimitrova, D. Johannsmann, N. Willenbacher, and A. Pfau | Langmuir, 19, 10247 (2003) |
Elongatinal flow behavior of automotive coatings and its relation to atomization and mottling | T. Dirking, N. Willenbacher, L. Boggs |
Progress in Organic Coatings 42, 59-64 (2001) |
Self-assembling all-enzyme hydrogels for flow biocatalysis | Theo Peschke, Patrick Bitterwolf, Sabrina Gallus, Yong Hu, Claude Oelschlaeger, Norbert Willenbacher, Kersten S. Rabe, Christof M. Niemeyer |
Journal: Angewandte Chemie https://onlinelibrary.wiley.com/doi/pdf/10.1002/ange.201810331 |
Tuning Superfast Curing Thiol-Norbornene-Functionalized Gelatin Hydrogels for 3D Bioprinting | Tobias Glöckler, Sonja Haase, Xenia Kempter, Rebecca Pfister, Bruna R. Maciel, Alisa Grimm, Tamara Molitor, Norbert Willenbacher, Ute Schepers |
Wiley Online Library, Advanced Healthcare Materials https://doi.org/10.1002/adhm.202100206 |
Structural, macro- and micro-mechanical properties of supramolecular bi-component L-Lysine-sodium tetraphenyl borate based hydrogels | U. A. Khan, C. Oelschlaeger, F. I. Ali, J. Roether, N. Willenbacher, I. A. Hashmi |
Colloids and Surfaces A: Physicochemical and Engineering Aspects (2018) |
Novel Insights into Pressure-Sensitive Adhesives Based on Plant Oils | W. Maaßen, S. Oelmann, D. Peter, W. Oswald, N. Willenbacher, M. A. R. Meier |
Macromolecular Chemistry and Physics, 216, 1609−1618 (2015) |
Bottom-Up Assembly of DNA-Silica Nanocomposites into Micrometer-Sized Hollow-Sphere | Y. Hu, M. Grösche, S. Sheshachala, C. Oelschlaeger, N. Willenbacher, K. S. Rabe, C. M. Niemeyer |
Angewandte Chemie, 58, 1-5 (2019) |
Structural, microrheological and kinetic properties of a ternary Silica-Pluronic F127-Starch thermosensitive system | Y. Petkova-Olsson, C. Oelschlaeger, H. Ullsten, L. Järnström |
Journal of Colloid and Interface Science (2018) |
Adhesive properties of acrylate copolymers: Effect of the nature of the substrate and copolymer functionality | Y. Peykova, O. Lebedeva, A. Diethert, P. Müller-Buschbaum, N. Willenbacher |
International Journal of Adhesion & Adhesives 34, 107–116 (2012) |
The effect of surface roughness on adhesive properties of acrylate copolymers | Y. Peykova, S. Guriyanova, O. Lebedeva, A. Diethert, P. Müller-Buschbaum, N. Willenbacher |
International Journal of Adhesion & Adhesives, 30, 245–254 (2010) |
Phase-Change-Enabled, Rapid, High-Resolution Direct Ink Writing of Soft Silicone | Y. Wang and N. Willenbacher, |
Advanced Materials 2109240 (2022) |
Carbon-Nanotube Reinforcement of DNA-Silica Nanocomposites into Micrometer-Sized Hollow-Sphere | Yong Hu, Jens Bauer, Simone Weigel, Claude Oelschlaeger, Norbert Willenbacher, Stephan Keppler, Martin Bastmeyer, Stefan Heißler, Christof Wöll, Tim Scharnweber, Kersten S. Rabe, Christof M. Niemeyer |
Nature Communications, 10, 5522 (2019) |
Title | Author | Source |
---|---|---|
Fluidization of Highly Concentrated Colloidal Dispersions by Tailoring of Attractive Interactions | E. Bartsch, D. Burger, S. Burger, J. Gisin, R. Schneider, O. Thorwarth, J. Vesaratchanon, C. Weis, M. Wiemann, N. Willenbacher |
Kind, Peukert, Rehage, Schuchmann (Eds.), Colloid Process Engineering, Springer 2015 |
Rheology of Foams | N. Willenbacher, M. Lexis |
R. Miller, L. Liggieri (Eds.), Foam Films and Foams: Fundamentals and Applications, Tayler and Francis, in preparation (2014) |
Rheology of Disperse Systems | N. Willenbacher, K. Georgieva |
U. Bröckel., W. Meier, G. Wagner (Eds), Product Design and Engineering, Wiley-VCH Verlag GmbH, Weinheim, pp. 7-49 (2013) |
Polyisobutene-Based Pressure-Sensitive Adhesives | N. Willenbacher, O. Lebedeva |
I. Benedek and M.M. Feldstein (Eds), Handbook of Pressure Sensitive Adhesives and Products, Taylor and Francis Group, Boca Raton (2009) |
Prediction of Emulsion Stability: Facts and Myth | V. André, N. Willenbacher, P. Fernandez, L. Börger, H. Debus, J. Rieger, T. Frechen | Cosmetics and Toiletries Manufacture Worldwide, Eds. Aston Publishing Group, p.102-109, 2003 |