Publications by Dr.-Ing. Michael Selzer

From Powder to Pouch Cell: Setting up a Sodium‐Ion Battery Reference System Based on Na3V2(PO4)3/C and Hard Carbon
Stüble, P.; Müller, C.; Bohn, N.; Müller, M.; Hofmann, A.; Akçay, T.; Klemens, J.; Koeppe, A.; Kolli, S.; Rajagopal, D.; Geßwein, H.; Schabel, W.; Scharfer, P.; Selzer, M.; Binder, J. R.; Smith, A.
2024. Batteries & Supercaps, 7 (12), e202400406. doi:10.1002/batt.202400406

Using ELN Functionality of Kadi4Mat (KadiWeb) in a Materials Science Case Study of a User Facility
Schlabach, S.; Wild, J.; Petkau, O.; Selzer, M.; Szabó, D. V.
2024. Data Science Journal, 23, Art.-Nr.: 50. doi:10.5334/dsj-2024-050

Experimental evaluation of phase-field-based load-specific shape optimization of nature-inspired porous structures
Wallat, L.; Koeppe, A.; Selzer, M.; Seiler, M.; Poehler, F.; Nestler, B.
2024. Materials Today Communications, 38, 108088. doi:10.1016/j.mtcomm.2024.108088

A continuous benchmarking infrastructure for high-performance computing applications
Alt, C.; Lanser, M.; Plewinski, J.; Janki, A.; Klawonn, A.; Köstler, H.; Selzer, M.; Rüde, U.
2024. International Journal of Parallel, Emergent and Distributed Systems, 39 (4), 501–523. doi:10.1080/17445760.2024.2360190

On the reproducibility of extrusion-based bioprinting: round robin study on standardization in the field
Grijalva Garces, D.; Strauß, S.; Gretzinger, S.; Schmieg, B.; Jüngst, T.; Groll, J.; Meinel, L.; Schmidt, I.; Hartmann, H.; Schenke-Layland, K.; Brandt, N.; Selzer, M.; Zimmermann, S.; Koltay, P.; Southan, A.; Tovar, G. E. M.; Schmidt, S.; Weber, A.; Ahlfeld, T.; Gelinsky, M.; Scheibel, T.; Detsch, R.; Boccaccini, A. R.; Naolou, T.; Lee-Thedieck, C.; Willems, C.; Groth, T.; Allgeier, S.; Köhler, B.; Friedrich, T.; Briesen, H.; Buchholz, J.; Paulus, D.; von Gladiss, A.; Hubbuch, J.
2024. Biofabrication, 16 (1), Art.-Nr.: 015002. doi:10.1088/1758-5090/acfe3b

Shape optimization of porous structures by phase-field modeling with strain energy density reduction
Wallat, L.; Reder, M.; Selzer, M.; Poehler, F.; Nestler, B.
2023. Materials Today Communications, 37, Art.-Nr. 107018. doi:10.1016/j.mtcomm.2023.107018

Identification of Lithium Compounds on Surfaces of Lithium Metal Anode with Machine-Learning-Assisted Analysis of ToF-SIMS Spectra
Zhao, Y.; Otto, S.-K.; Lombardo, T.; Henss, A.; Koeppe, A.; Selzer, M.; Janek, J.; Nestler, B.
2023. ACS Applied Materials & Interfaces, 15 (43), 50469 – 50478. doi:10.1021/acsami.3c09643

Data‐Driven Virtual Material Analysis and Synthesis for Solid Electrolyte Interphases
Rajagopal, D.; Koeppe, A.; Esmaeilpour, M.; Selzer, M.; Wenzel, W.; Stein, H.; Nestler, B.
2023. Advanced Energy Materials, 13 (40), Art.-Nr.: 2301985. doi:10.1002/aenm.202301985

Phase-field modelling of electromigration-induced intergranular slit propagation in metal interconnects
Mukherjee, A.; Ankit, K.; Selzer, M.; Nestler, B.
2023. Computational Materials Science, 228, Art.-Nr.: 112330. doi:10.1016/j.commatsci.2023.112330

Phase‐Field Simulations of Epitaxial Crystal Growth in Open Fractures With Reactive Lateral Flow
Späth, M.; Selzer, M.; Busch, B.; Schneider, D.; Hilgers, C.; Urai, J. L.; Nestler, B.
2023. Water Resources Research, 59 (8), Nr.: e2023WR034605. doi:10.1029/2023WR034605

KadiStudio Use-Case Workflow: Automation of Data Processing for in Situ Micropillar Compression Tests
Al-Salman, R.; Teixeira, C. A.; Zschumme, P.; Lee, S.; Griem, L.; Aghassi-Hagmann, J.; Kirchlechner, C.; Selzer, M.
2023. Data Science Journal, 22, Art.-Nr.: 21. doi:10.5334/dsj-2023-021

Characterization of porous membranes using artificial neural networks
Zhao, Y.; Altschuh, P.; Santoki, J.; Griem, L.; Tosato, G.; Selzer, M.; Koeppe, A.; Nestler, B.
2023. Acta Materialia, 253, Art.-Nr.: 118922. doi:10.1016/j.actamat.2023.118922

Establishing structure–property linkages for wicking time predictions in porous polymeric membranes using a data-driven approach
Kunz, W.; Altschuh, P.; Bremerich, M.; Selzer, M.; Nestler, B.
2023. Materials Today Communications, 35, Art.-Nr.: 106004. doi:10.1016/j.mtcomm.2023.106004

A 3D computational method for determination of pores per inch (PPI) of porous structures
Jamshidi, F.; Kunz, W.; Altschuh, P.; Lu, T.; Laqua, M.; August, A.; Löffler, F.; Selzer, M.; Nestler, B.
2023. Materials Today Communications, 34, Art.-Nr.: 105413. doi:10.1016/j.mtcomm.2023.105413

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

Phase-field simulation for the formation of porous microstructures due to phase separation in polymer solutions on substrates with different wettabilities
Farzaneh Kalourazi, S.; Wang, F.; Zhang, H.; Selzer, M.; Nestler, B.
2022. Journal of Physics: Condensed Matter, 34 (44), Art.-Nr.: 444003. doi:10.1088/1361-648X/ac8b4d

Energy absorption capability of graded and non-graded sheet-based gyroid structures fabricated by microcast processing
Wallat, L.; Selzer, M.; Wasmuth, U.; Poehler, F.; Nestler, B.
2022. Journal of Materials Research and Technology, 21, 1798–1810. doi:10.1016/j.jmrt.2022.09.093

KadiStudio: FAIR Modelling of Scientific Research Processes
Griem, L.; Zschumme, P.; Laqua, M.; Brandt, N.; Schoof, E.; Altschuh, P.; Selzer, M.
2022. Data Science Journal, 21 (1), Art.-Nr: 16. doi:10.5334/dsj-2022-016

Structured Data Storage for Data-Driven Process Optimisation in Bioprinting
Schmieg, B.; Brandt, N.; Schnepp, V. J.; Radosevic, L.; Gretzinger, S.; Selzer, M.; Hubbuch, J.
2022. Applied Sciences, 12 (15), Artikel-Nr.: 7728. doi:10.3390/app12157728

Geometric flow control in lateral flow assays: Macroscopic single-phase modeling
Jamshidi, F.; Kunz, W.; Altschuh, P.; Bremerich, M.; Przybylla, R.; Selzer, M.; Nestler, B.
2022. Physics of Fluids, 34 (6), Art.-Nr.: 062110. doi:10.1063/5.0093316

Capillary adsorption of droplets into a funnel-like structure
Wu, Y.; Wang, F.; Huang, W.; Selzer, M.; Nestler, B.
2022. Physical Review Fluids, 7 (5), Art.-Nr.: 054004. doi:10.1103/PhysRevFluids.7.054004

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

Wicking in Porous Polymeric Membranes: Determination of an Effective Capillary Radius to Predict the Flow Behavior in Lateral Flow Assays
Altschuh, P.; Kunz, W.; Bremerich, M.; Reiter, A.; Selzer, M.; Nestler, B.
2022. Membranes, 12 (7), 638. doi:10.3390/membranes12070638

A Two-Dimensional Phase-Field Investigation on Unidirectionally Solidified Tip-Splitting Microstructures
Laxmipathy, V. P.; Wang, F.; Selzer, M.; Nestler, B.
2022. Metals, 12 (3), Art.-Nr.: 376. doi:10.3390/met12030376

Explainable Artificial Intelligence for Mechanics: Physics-Explaining Neural Networks for Constitutive Models
Koeppe, A.; Bamer, F.; Selzer, M.; Nestler, B.; Markert, B.
2022. Frontiers in Materials, 8, Art.-Nr.: 824958. doi:10.3389/fmats.2021.824958

Machine Learning Assisted Design of Experiments for Solid State Electrolyte Lithium Aluminum Titanium Phosphate
Zhao, Y.; Schiffmann, N.; Koeppe, A.; Brandt, N.; Bucharsky, E. C.; Schell, K. G.; Selzer, M.; Nestler, B.
2022. Frontiers in Materials, 9, Art.-Nr.: 821817. doi:10.3389/fmats.2022.821817

Equilibrium droplet shapes on chemically patterned surfaces: theoretical calculation, phase-field simulation, and experiments
Wu, Y.; Kuzina, M.; Wang, F.; Reischl, M.; Selzer, M.; Nestler, B.; Levkin, P. A.
2022. Journal of Colloid and Interface Science, 606, 1077–1086. doi:10.1016/j.jcis.2021.08.029

Kinematics of Crystal Growth in Single‐Seal Syntaxial Veins in Limestone ‐ A Phase‐Field Study
Späth, M.; Spruženiece, L.; Urai, J. L.; Selzer, M.; Arndt, M.; Nestler, B.
2021. Journal of geophysical research / Solid earth, 126 (10), e2021JB022106. doi:10.1029/2021JB022106

Wide-blocky veins explained by dependency of crystal growth rate on fracture surface type: Insights from phase-field modeling
Spruženiece, L.; Späth, M.; Urai, J. L.; Ukar, E.; Selzer, M.; Nestler, B.
2021. Geology, 49 (6), 641–646. doi:10.1130/G48472.1

Quantitative Phase-Field Modeling of Faceted Crystal Dissolution Processes
Prajapati, N.; Späth, M.; Knecht, L.; Selzer, M.; Nestler, B.
2021. Crystal growth & design, 21 (6), 3266–3279. doi:10.1021/acs.cgd.0c01715

Formation of wide-blocky calcite veins by extreme growth competition
Spruženiece, L.; Späth, M.; Urai, J. L.; Ukar, E.; Selzer, M.; Nestler, B.; Schwedt, A.
2021. Journal of the Geological Society, 178 (2), jgs2020–104. doi:10.1144/jgs2020-104

Kadi4Mat : A Research Data Infrastructure for Materials Science
Brandt, N.; Griem, L.; Herrmann, C.; Schoof, E.; Tosato, G.; Zhao, Y.; Zschumme, P.; Selzer, M.
2021. Data science journal, 20 (1), Art.-Nr.: 8. doi:10.5334/dsj-2021-008

Phase-field simulations of grain boundary grooving under diffusive-convective conditions
Laxmipathy, V. P.; Wang, F.; Selzer, M.; Nestler, B.
2021. Acta materialia, 204, Art.-Nr.: 116497. doi:10.1016/j.actamat.2020.116497

Workflow concepts to model nonlinear mechanics with computational intelligence
Koeppe, A.; Bamer, F.; Selzer, M.; Nestler, B.; Markert, B.
2021. PAMM, 21 (Special Issue), e202100238. doi:10.1002/pamm.202100238

Computational determination of macroscopic mechanical and thermal material properties for different morphological variants of cast iron
Herrmann, C.; Schmid, S.; Schneider, D.; Selzer, M.; Nestler, B.
2021. Metals, 11 (10), Art. Nr.: 1588. doi:10.3390/met11101588

A two-dimensional phase-field study on dendritic growth competition under convective conditions
Laxmipathy, V. P.; Wang, F.; Selzer, M.; Nestler, B.
2021. Computational materials science, 186, Art.-Nr.: 109964. doi:10.1016/j.commatsci.2020.109964

Microstructural transition in monotectic alloys: A phase-field study
Laxmipathy, V. P.; Wang, F.; Selzer, M.; Nestler, B.
2020. International journal of heat and mass transfer, 159, Art.-Nr. 120096. doi:10.1016/j.ijheatmasstransfer.2020.120096

A digital workflow for learning the reduced-order structure-property linkages for permeability of porous membranes
Yabansu, Y. C.; Altschuh, P.; Hötzer, J.; Selzer, M.; Nestler, B.; Kalidindi, S. R.
2020. Acta materialia, 195, 668–680. doi:10.1016/j.actamat.2020.06.003

How do chemical patterns affect equilibrium droplet shapes?
Wu, Y.; Wang, F.; Ma, S.; Selzer, M.; Nestler, B.
2020. Soft matter, 16 (26), 6115–6127. doi:10.1039/d0sm00196a

Morphological stability of rod-shaped continuous phases
Wang, F.; Tschukin, O.; Leisner, T.; Zhang, H.; Nestler, B.; Selzer, M.; Cadilha Marques, G.; Aghassi-Hagmann, J.
2020. Acta materialia, 192, 20–29. doi:10.1016/j.actamat.2020.04.028

Quadrijunctions-stunted grain growth in duplex microstructure: A multiphase-field analysis
Perumal, R.; Kubendran Amos, P. G.; Selzer, M.; Nestler, B.
2020. Scripta materialia, 182, 16–20. doi:10.1016/j.scriptamat.2020.02.041

Multiphase-field modelling of concurrent grain growth and coarsening in complex multicomponent systems
Kubendran Amos, P. G.; Perumal, R.; Selzer, M.; Nestler, B.
2020. Journal of materials science & technology, 45, 215–229. doi:10.1016/j.jmst.2019.11.011

Application of Random Forests in ToF-SIMS Data
Zhao, Y.; Otto, S.-K.; Brandt, N.; Selzer, M.; Nestler, B.
2020. Procedia computer science, 176, 410–419. doi:10.1016/j.procs.2020.08.042

Multiphase-field modelling of crack propagation in geological materials and porous media with Drucker-Prager plasticity
Späth, M.; Herrmann, C.; Prajapati, N.; Schneider, D.; Schwab, F.; Selzer, M.; Nestler, B.
2020. Computational geosciences, 25 (1), 325–343. doi:10.1007/s10596-020-10007-0

Brittle anisotropic fracture propagation in quartz sandstone: insights from phase-field simulations
Prajapati, N.; Herrmann, C.; Späth, M.; Schneider, D.; Selzer, M.; Nestler, B.
2020. Computational geosciences, 24, 1361–1376. doi:10.1007/s10596-020-09956-3

Interface tracking characteristics of color-gradient lattice Boltzmann model for immiscible fluids
Subhedar, A.; Reiter, A.; Selzer, M.; Varnik, F.; Nestler, B.
2020. Physical review / E, 101 (1), Article: 013313. doi:10.1103/PhysRevE.101.013313

A Stochastic Study of Flow Anisotropy and Channelling in Open Rough Fractures
Marchand, S.; Mersch, O.; Selzer, M.; Nitschke, F.; Schoenball, M.; Schmittbuhl, J.; Nestler, B.; Kohl, T.
2020. Rock mechanics and rock engineering, 53, 233–249. doi:10.1007/s00603-019-01907-4

Influence of melt convection on the morphological evolution of seaweed structures: Insights from phase-field simulations
Pavan Laxmipathy, V.; Wang, F.; Selzer, M.; Nestler, B.; Ankit, K.
2019. Computational materials science, 170, Art.-Nr. 109196. doi:10.1016/j.commatsci.2019.109196

Droplets on chemically patterned surface: A local free-energy minima analysis
Wu, Y.; Wang, F.; Selzer, M.; Nestler, B.
2019. Physical review / E, 100 (4), Art.Nr. 041102. doi:10.1103/PhysRevE.100.041102

Non-Arrhenius grain growth in strontium titanate: Quantification of bimodal grain growth
Rheinheimer, W.; Schoof, E.; Selzer, M.; Nestler, B.; Hoffmann, M. J.
2019. Acta materialia, 174, 105–115. doi:10.1016/j.actamat.2019.05.040

Progress Report on Phase Separation in Polymer Solutions
Wang, F.; Altschuh, P.; Ratke, L.; Zhang, H.; Selzer, M.; Nestler, B.
2019. Advanced materials, 31 (26), Art.Nr. 1806733. doi:10.1002/adma.201806733

Investigation of Equilibrium Droplet Shapes on Chemically Striped Patterned Surfaces Using Phase-Field Method
Wu, Y.; Wang, F.; Selzer, M.; Nestler, B.
2019. Langmuir, 35 (25), 8500–8516. doi:10.1021/acs.langmuir.9b01362

On the multiphase-field modeling of martensitic phase transformation in dual-phase steel using J2-viscoplasticity
Schoof, E.; Herrmann, C.; Streichhan, N.; Selzer, M.; Schneider, D.; Nestler, B.
2019. Modelling and simulation in materials science and engineering, 27 (2), 025010. doi:10.1088/1361-651X/aaf980

Phase-Field Study of Electromigration-Induced Shape Evolution of a Transgranular Finger-Like Slit
Santoki, J.; Mukherjee, A.; Schneider, D.; Selzer, M.; Nestler, B.
2019. Journal of electronic materials, 48 (1), 182–193. doi:10.1007/s11664-018-6619-5

Phase-field investigation on the growth orientation angle of aluminum carbide with a needle-like structure at the surface of graphite particles
Cai, Y.; Wang, F.; Selzer, M.; Nestler, B.
2019. Modelling and simulation in materials science and engineering, 27 (6), Art.-Nr.: 065010. doi:10.1088/1361-651X/ab2351

Concurrent grain growth and coarsening of two-phase microstructures; large scale phase-field study
Perumal, R.; Selzer, M.; Nestler, B.
2019. Computational materials science, 159, 160–176. doi:10.1016/j.commatsci.2018.12.017

Multiphase-field model of small strain elasto-plasticity according to the mechanical jump conditions
Herrmann, C.; Schoof, E.; Schneider, D.; Schwab, F.; Reiter, A.; Selzer, M.; Nestler, B.
2018. Computational mechanics, 62 (6), 1399–1412. doi:10.1007/s00466-018-1570-0

Evaporation rate analysis of capillaries with polygonal cross-section
Schweigler, K. M.; Seifritz, S.; Selzer, M.; Nestler, B.
2018. International journal of heat and mass transfer, 121, 943–951. doi:10.1016/j.ijheatmasstransfer.2017.12.090

The parallel multi-physics phase-field framework PACE3D
Hötzer, J.; Reiter, A.; Hierl, H.; Steinmetz, P.; Selzer, M.; Nestler, B.
2018. Journal of computational science, 26, 1–12. doi:10.1016/j.jocs.2018.02.011

Phase-field study of the transient phenomena induced by ’abnormally’ large grains during 2-dimensional isotropic grain growth
Perumal, R.; Kubendran Amos, P. G.; Selzer, M.; Nestler, B.
2018. Computational materials science, 147, 227–237. doi:10.1016/j.commatsci.2018.02.028

Multiphase-field modeling of martensitic phase transformation in a dual-phase microstructure
Schoof, E.; Schneider, D.; Streichhan, N.; Mittnacht, T.; Selzer, M.; Nestler, B.
2018. International journal of solids and structures, 134, 181–194. doi:10.1016/j.ijsolstr.2017.10.032

Phase-field modeling of reactive wetting and growth of the intermetallic Al2 Au phase in the Al-Au system
Wang, F.; Reiter, A.; Kellner, M.; Brillo, J.; Selzer, M.; Nestler, B.
2018. Acta materialia, 146, 106–118. doi:10.1016/j.actamat.2017.12.015

Correction to: Small strain multiphase-field model accounting for configurational forces and mechanical jump conditions
Schneider, D.; Schoof, E.; Tschukin, O.; Reiter, A.; Herrmann, C.; Schwab, F.; Selzer, M.; Nestler, B.
2018. Computational mechanics, 61 (3), 297. doi:10.1007/s00466-017-1485-1

Small strain multiphase-field model accounting for configurational forces and mechanical jump conditions
Schneider, D.; Schoof, E.; Tschukin, O.; Reiter, A.; Herrmann, C.; Schwab, F.; Selzer, M.; Nestler, B.
2018. Computational mechanics, 61 (3), 277–295. doi:10.1007/s00466-017-1458-4

Three-Dimensional Phase-Field Investigation of Pore Space Cementation and Permeability in Quartz Sandstone
Prajapati, N.; Selzer, M.; Nestler, B.; Busch, B.; Hilgers, C.; Ankit, K.
2018. Journal of geophysical research / Solid earth, 123 (8), 6378–6396. doi:10.1029/2018JB015618

Phase-field study of surface irregularities of a cathode particle during intercalation
Santoki, J.; Schneider, D.; Selzer, M.; Wang, F.; Kamlah, M.; Nestler, B.
2018. Modelling and simulation in materials science and engineering, 26 (6), 065013. doi:10.1088/1361-651X/aad20a

Characterization of a macro porous polymer membrane at micron-scale by Confocal-Laser-Scanning Microscopy and 3D image analysis
Ley, A.; Altschuh, P.; Thom, V.; Selzer, M.; Nestler, B.; Vana, P.
2018. Journal of membrane science, 564, 543–551. doi:10.1016/j.memsci.2018.07.062

Effective Thermal Conductivity of Composite Materials Based on Open Cell Foams
August, A.; Reiter, A.; Kneer, A.; Selzer, M.; Nestler, B.
2018. Heat and Mass Transfer Research Journal, 2 (1), 33–45

Modeling fracture cementation processes in calcite limestone: a phase-field study
Prajapati, N.; Selzer, M.; Nestler, B.; Busch, B.; Hilgers, C.
2018. Geothermal Energy, 6 (1), 7. doi:10.1186/s40517-018-0093-4

Perspectives on material modelling: Porous and particle-based microstructures
Nestler, B.; August, A.; Selzer, M.; Hötzer, J.; Kellner, M.; Prajapati, N.; Rehn, V.; Seiz, M.
2018. Ceramic applications, 6 (1), 73–77

Electromigration-Induced Surface Drift and Slit Propagation in Polycrystalline Interconnects : Insights from Phase-Field Simulations
Mukherjee, A.; Ankit, K.; Selzer, M.; Nestler, B.
2018. Physical review applied, 9 (4), Art.Nr. 044004. doi:10.1103/PhysRevApplied.9.044004

Concepts of modeling surface energy anisotropy in phase-field approaches
Tschukin, O.; Silberzahn, A.; Selzer, M.; Amos, P. G. K.; Schneider, D.; Nestler, B.
2017. Geothermal Energy, 5 (1), Art.Nr. 19. doi:10.1186/s40517-017-0077-9

Phase-field study on the formation of first-neighbour topological clusters during the isotropic grain growth
Perumal, R.; Kubendran Amos, P. G.; Selzer, M.; Nestler, B.
2017. Computational materials science, 140, 209–223. doi:10.1016/j.commatsci.2017.08.043

Computational modeling of calcite cementation in saline limestone aquifers : a phase-field study
Prajapati, N.; Selzer, M.; Nestler, B.
2017. Geothermal Energy, 5 (1), Art. Nr.: 15. doi:10.1186/s40517-017-0072-1

Simulation der martensitischen Transformation in polykristallinen Gefügen mit der Phasenfeldmethode
Schoof, E.; Streichhan, N.; Schneider, D.; Selzer, M.; Nestler, B.
2017. Forschung aktuell, 13–16

Data science approaches for microstructure quantification and feature identification in porous membranes
Altschuh, P.; Yabansu, Y. C.; Hötzer, J.; Selzer, M.; Nestler, B.; Kalidindi, S. R.
2017. Journal of membrane science, 540, 88–97. doi:10.1016/j.memsci.2017.06.020

On the stress calculation within phase-field approaches : a model for finite deformations
Schneider, D.; Schwab, F.; Schoof, E.; Reiter, A.; Herrmann, C.; Selzer, M.; Böhlke, T.; Nestler, B.
2017. Computational mechanics, 60 (2), 203–217. doi:10.1007/s00466-017-1401-8

Integrated Research as Key to the Development of a Sustainable Geothermal Energy Technology
Meller, C.; Bremer, J.; Ankit, K.; Baur, S.; Bergfeldt, T.; Blum, P.; Canic, T.; Eiche, E.; Gaucher, E.; Hagenmeyer, V.; Heberling, F.; Held, S.; Herfurth, S.; Isele, J.; Kling, T.; Kuhn, D.; Mayer, D.; Müller, B.; Nestler, B.; Neumann, T.; Nitschke, F.; Nothstein, A.; Nusiaputra, Y.; Orywall, P.; Peters, M.; Sahara, D.; Schäfer, T.; Schill, E.; Schilling, F.; Schröder, E.; Selzer, M.; Stoll, M.; Wiemer, H.-J.; Wolf, S.; Zimmermann, M.; Kohl, T.
2017. Energy technology, 5 (7), 965–1006. doi:10.1002/ente.201600579

Experimental and numerical investigation of drop evaporation depending on the shape of the liquid/gas interface
Schweigler, K. M.; Ben Said, M.; Seifritz, S.; Selzer, M.; Nestler, B.
2017. International journal of heat and mass transfer, 105, 655–663. doi:10.1016/j.ijheatmasstransfer.2016.10.033

Surface rippling during solidification of binary polycrystalline alloy : Insights from 3-D phase-field simulations
Ankit, K.; Xing, H.; Selzer, M.; Nestler, B.; Glicksman, M. E.
2017. Journal of Crystal Growth, 457, 52–59. doi:10.1016/j.jcrysgro.2016.05.033

Optimierung des Gewichts und des Energieverlusts von um- und durchströmten Bauteilen
Selzer, M.; Nestler, B.; Sarstedt, P.; Kachel, G.
2016. Horizonte, 48, 23–25

Evolution von Mikroporen in Kristallen mit hexagonaler Gitteranisotropie
Schneider, D.; Langerome, B.; Selzer, M.; Reiter, A.; Nestler, B.
2016. Forschung aktuell, 36–38

Calibration of a multi-phase field model with quantitative angle measurement
Hötzer, J.; Tschukin, O.; Ben Said, M.; Berghoff, M.; Jainta, M.; Barthelemy, G.; Smorchkov, N.; Schneider, D.; Selzer, M.; Nestler, B.
2016. Journal of materials science, 51 (4), 1788–1797. doi:10.1007/s10853-015-9542-7

Electric-field-induced lamellar to hexagonally perforated lamellar transition in diblock copolymer thin films: Kinetic pathways
Mukherjee, A.; Ankit, K.; Reiter, A.; Selzer, M.; Nestler, B.
2016. Physical chemistry, chemical physics, 18 (36), 25609–25620. doi:10.1039/c6cp04903f

Phase-field modeling of crack propagation in multiphase Systems
Schneider, D.; Schoof, E.; Huang, Y.; Selzer, M.; Nestler, B.
2016. Computer methods in applied mechanics and engineering, 312, 186–195. doi:10.1016/j.cma.2016.04.009

Modeling of crack propagation on a mesoscopic length scale
Nestler, B.; Schneider, D. M.; Schoof, E.; Huang, Y.; Selzer, M.
2016. GAMM-Mitteilungen, 39 (1), 78–91. doi:10.1002/gamm.201610005

A multiscale approach for thermomechanical simulations of loading courses in cast iron brake discs
Schmid, S.; Schneider, D. M.; Herrmann, C.; Selzer, M.; Nestler, B.
2016. International Journal for Multiscale Computational Engineering, 14 (1), 25–43. doi:10.1615/IntJMultCompEng.2015014764

Underdamped capillary wave caused by solutal Marangoni convection in immiscible liquids
Wang, F.; Ben Said, M.; Selzer, M.; Nestler, B.
2015. Journal of materials science, 51 (4), 1820–1828. doi:10.1007/s10853-015-9600-1

On the motion of droplets driven by solutal Marangoni convection in alloy systems with a miscibility gap
Wang, F.; Selzer, M.; Nestler, B.
2015. Physica D: Nonlinear Phenomena, 307, 82–96. doi:10.1016/j.physd.2015.06.001

Phase‐field Modeling of Fracture Cementation Processes in 3‐D
Ankit, K.; Selzer, M.; Hilgers, C.; Nestler, B.
2015. Journal of Petroleum Science Research, 4 (2), 79–96. doi:10.12783/jpsr.2015.0402.04

Dynamische Lastverteilung auf einem HPC Framework mit nachrichtenbasierter Kommunikation
Heisler, C.; Hötzer, J.; Maier, M.; Reiter, A.; Selzer, M.; Nestler, B.
2015. Forschung aktuell, 2015, 16–18

Small strain elasto-plastic multiphase-field model
Schneider, D.; Schmid, S.; Selzer, M.; Boehlke, T.; Nestler, B.
2015. Computational Mechanics, 55 (1), 27–35. doi:10.1007/s00466-014-1080-7

Phase-field elasticity model based on mechanical jump conditions
Schneider, D.; Tschukin, O.; Choudhury, A.; Selzer, M.; Böhlke, T.; Nestler, B.
2015. Computational mechanics, 55 (5), 887–901. doi:10.1007/s00466-015-1141-6

Prediction of heat conduction in open-cell foams via the diffuse interface representation of the phase-field method
August, A.; Ettrich, J.; Rölle, M.; Schmid, S.; Berghoff, M.; Selzer, M.; Nestler, B.
2015. International Journal of Heat and Mass Transfer, 84, 800–808. doi:10.1016/j.ijheatmasstransfer.2015.01.052

Combined crystal plasticity and phase-field method for recrystallization in a process chain of sheet metal production
Vondrous, A.; Bienger, P.; Schreijäg, S.; Selzer, M.; Schneider, D.; Nestler, B.; Helm, D.; Mönig, R.
2015. Computational mechanics, 55 (2), 439–452. doi:10.1007/s00466-014-1115-0

Phase-field modeling of diffusion coupled crack propagation processes
Schneider, D.; Selzer, M.; Bette, J.; Rementeria, I.; Vondrous, A.; Hoffmann, M. J.; Nestler, B.
2014. Advanced Engineering Materials, 16 (2), 142–146. doi:10.1002/adem.201300073

Virtuelle Material- und Prozessentwicklung am Beispiel der Konstrukturausbildung in Schweißnähten
Nestler, B.; Tschukin, O.; Jainta, M.; Daubermann, M.; Selzer, M.; Widak, V.; Hoffmann, J.; Rieth, M.
2014. Forschungsreport für den Maschinenbau in Baden-Württemberg, 2014, 56–58

Three-dimensional phase-field study of crack-seal microstructures - insights from innovative post-processing techniques
Ankit, K.; Selzer, M.; Nestler, B.
2014. Geoscientific model development discussions, 7, 631–658. doi:10.5194/gmdd-7-631-2014

Numerical study on solutal Marangoni instability in finite systems with a miscibility gap
Wang, F.; Mukherjee, R.; Selzer, M.; Nestler, B.
2014. Physics of fluids, 26 (12), Art.Nr. 1.4902355. doi:10.1063/1.4902355

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

Parallel computing for phase-field models
Vondrous, A.; Selzer, M.; Hötzer, J.; Nestler, B.
2014. The international journal of high performance computing applications, 28 (1), 61–72. doi:10.1177/1094342013490972

Energieeffiziente Um- und Durchströmungsprozesse durch automatisierte Formgebung
Bühler, K.; Kachel, G.; Nestler, B.; Selzer, M.; Peichel, D.
2013. Forschungsreport für den Maschinenbau in Baden-Württemberg, 2013, 61–64

Phase-field study of grain boundary tracking behavior in crack-seal microstructures
Ankit, K.; Nestler, B.; Selzer, M.; Reichardt, M.
2013. Contributions to Mineralogy and Petrology, 166 (6), 1709–1723. doi:10.1007/s00410-013-0950-x

Phase-field simulations at the atomic scale in comparison to molecular dynamics
Berghoff, M.; Selzer, M.; Nestler, B.
2013. The ScientificWorld journal, 2013, 564272. doi:10.1155/2013/564272

Efficient techniques for bridging from atomic to mesoscopic scale in phase-field simulations
Berghoff, M.; Selzer, M.; Choudhury, A.; Nestler, B.
2013. Journal of Computational Methods in Sciences and Engineering, 13 (5-6), 441–454. doi:10.3233/JCM-130476

Multiscale simulations on the coarsening of Cu-rich precipitates in α-Fe using kinetic Monte Carlo, molecular dynamics and phase-field simulations
Molnar, D.; Mukherjee, R.; Choudhury, A.; Mora, A.; Binkele, P.; Selzer, M.; Nestler, B.; Schmauder, S.
2012. Acta materialia, 60, 6961–6971. doi:10.1016/j.actamat.2012.08.051

Effect of solutal Marangoni convection on motion, coarsening, and coalescence of droplets in a monotectic system
Wang, F.; Choudhury, A.; Selzer, M.; Mukherjee, R.; Nestler, B.
2012. Physical review / E, 86 (6), 066318/1–13. doi:10.1103/PhysRevE.86.066318

Generierung offenporiger metallischer Schaumstrukturen zur Simulation der Wärmeübertragungseigenschaften
Rölle, M.; August, A.; Selzer, M.; Nestler, B.
2011. Forschung aktuell, 2011, 21–23

Offenporige metallische Schäume
August, A.; Nestler, B.; Kneer, A.; Wendler, F.; Rölle, M.; Selzer, M.
2011. Werkstoffe in der Fertigung, 2011 (6), 45–46

Simulation von Strömungsprozessen mit der Lattice-Boltzmann-Methode
Jainta, M.; Selzer, M.; Nestler, B.
2008. Forschung aktuell, 2008, 84–86