Publications

Ahuis, M.; Aluzoun, A.; Keppeler, M.; Melzig, S.; Kwade A. (2024): Direct recycling of lithium-ion battery production scrap – Solvent-based recovery and reuse of anode and cathode coating materials. In: Journal of Power Sources, 593. DOI: 10.1016/j.jpowsour.2023.233995.

Ahuis, M.; Doose, S.; Vogt, D.; Michalowski, P.; Zellmer, S.; Kwade, A. (2024): Recycling of solid-state batteries. In: Nature Energy (2024). DOI: 10.1038/s41560-024-01463-4.

Ali, A.-R.; Bartie, N.; Husmann, J.; Cerdas, F.; Schröder, D.; Herrmann, C. (2024): Simulation-based life cycle assessment of secondary materials from recycling of lithium-ion batteries. In: Resources, Conservation and Recycling, 202. DOI: 10.1016/j.resconrec.2023.107384.

Ali, A.-R.; Castillo, M.S.; Cerdas, F.; Herrmann, C., (2024): A stepwise approach for determining absolute environmental sustainability targets for an electric vehicle battery. In: CIRP Annals. DOI: 10.1016/j.cirp.2024.04.044.

Blömeke, S.; Husmann, J.; Cerdas, F.; Herrmann, C. (2024): Extended Kaya Identity for Primary and Secondary Material Production for Lithium-ion Batteries. In: Procedia CIRP, 122. DOI: 10.1016/j.procir.2024.01.027.

Bredekamp, M.; Gottschalk, L.; Peter, M.; Kwade, A. (2024): Structuring Electrodes for Lithium-Ion Batteries: A Novel Material Loss-Free Process Using Liquid Injection. In: Energy Technology. DOI: 10.1002/ente.202400256.

Drees, R.; Herdegen, J.; Lienesch, F.; Kurrat, M. (2024): Investigation of different locations for reference electrodes inside lithium-ion pouch cells. In: Journal of Power Sources, 594. DOI: 10.1016/j.jpowsour.2023.233986.

Elsayed, A.; Voges, K.; Michalowski, P.; Kwade, A. (2024): Towards a scalable production of β-Li₃PS₄-based all-solid-state batteries: Optimizing pressing parameters of the tape-casted solid electrolyte and composite cathode films.
In: Journal of Power Sources, Volume 613, 234772. DOI: 10.1016/j.jpowsour.2024.234772.

Fenske, H.; Lombardo, T.; Gerstenberg, J.; Kern, C.; Steckermeier, D.; Michalowski, P.; Janek, J.; Kwade, A. (2024): Influence of Moisture on the Electrochemical Performance of Prelithiated Graphite/SiOx Composite Anodes for Li-Ion Batteries. In: Journal of the Electrochemical Society, 171, 4. DOI: 10.1149/1945-7111/ad3856.

Frankenberg, F.; Kissel, M.; Burmeister, C.F.; Lippke, M.; Janek, J.; Kwade, A. (2024): Investigating the production of all-solid-state battery composite cathodes by numerical simulation of the stressing conditions in a high-intensity mixer. In: Powder Technology, 435. DOI: 10.1016/j.powtec.2024.119403.

Gerstenberg, J.; Steckermeier, D.; Kwade, A.; Michalowski, P. (2024): Effect of Mixing Intensity on Electrochemical Performance of Oxide/Sulfide Composite Electrolytes. In: Batteries, 10 (3), 95. DOI: 10.3390/batteries10030095.

Giannis, K.; Thon, C.; Yang, G.; Kwade, A.; Schilde C. (2024): Predicting 3D particles shapes based on 2D images by using convolutional neural network. In: Powder Technology, 432. DOI: 10.1016/j.powtec.2023.119122.

Gottschalk, L.; Müller, J.; Schoo, A.; Baasch, E.; Kwade, A. (2024): Spherical Graphite Anodes: Influence of Particle Size Distribution and Multilayer Structuring in Lithium-Ion Battery Cells. In: Batteries, 10(2), 40. DOI: 10.3390/batteries10020040.

Grenda, T.; Weber, M.; Jagau, R.; Wiegmann, E.; Müller, J.; Strzelczyk, N.; Gottschalk, L.; Dempwolf, W.; Kwade, A. (2024): Impact of Screw Geometry and Solids Content on the Properties of Continuously Produced Si Anodes. In: Energy Technology. DOI: 10.1002/ente.202301556.

Grotkopp, N.; Horst, M.; Garnweitner, G. (2024): Effect of ether medium in LiTFSI and LiFSI-based liquid electrolytes for lithium–sulfur batteries. In: Battery Energy, Volume 3, Issue 4. DOI: 10.1002/bte2.20240002.

Haupt, J.; Cerdas, F.; Herrmann, C. (2024): Derivation of requirements for life cycle assessment-related information to be integrated in digital battery passports. In: Procedia CIRP, Volume 122, Pages 300-305. DOI: 10.1016/j.procir.2024.01.044.

Heck, C. A.; Scharmann, T.; Osenberg, M.; Diener, A.; Manke, I.; Michalowski, P.; Kwade, A. (2024): Opportunities and Challenges of Calendering Sulfide-Based Separators for Solid-State Batteries. In: Batteries & Supercaps. DOI: 10.1002/batt.202300487.

Husmann, J.; Popien, J.-L.; Cerdas, F.; Barke, A.; Spengler, T.; Herrmann, C. (2024): Sustainability implications of establishing a circular European supply chain of battery materials. In: Procedia CIRP, Volume 122, Pages 121-126.
DOI: 10.1016/j.procir.2024.01.017.

Popien, J.-L.; Husmann, J.; Echternach, T.; Barke, A.; Cerdas, F.; Herrmann, C.; Spengler, T. (2024): Design of battery supply chains under consideration of environmental and socio-economic criteria. In: Procedia CIRP, Volume 122, Pages 127-132. DOI: 10.1016/j.procir.2024.01.018.

Scharmann, T.; Özcelikman, C.; Nguyen, D. M.; Heck, C. A.; Wacker, C.; Michalowski, P.; Kwade, A.; Dröder, K. (2024): Atmospheric Influences on Li₆PS₅Cl Separators and the Resulting Ionic Conductivity for All-Solid-State Batteries. In: Journal of The Electrochemical Society, Volume 171, Number 8. DOI: 10.1149/1945-7111/ad68a8.

Scharmann, T.; Özcelikman, C.; Nguyen, D. M.; Heck, C. A.; Wacker, C.; Michalowski, P.; Kwade, A.; Dröder, K. (2024): Quantification of Hydrogen Sulfide Development during the Production of All-Solid-State Batteries with Argyrodite Sulfide-Based Separators. In: ACS Appl. Energy Mater. 2024, 7, 3, 1261–1269. DOI: 10.1021/acsaem.3c02888.

Wolf, S.; Lippke, M.; Schoo, A.; Kwade, A.; Schilde, C. (2024): A Computational Fluid Dynamics–Discrete Element Method Model for Physics-Based Simulation of Structure Formation during Battery Electrode Drying. In: Energy Technology, 12, 4. DOI: 10.1002/ente.202301004.

Batzer, M.; Gundlach, D.; Michalowski, P.; Kwade, A. (2023): Scalable Production of Separator and Cathode Suspensions via Extrusion for Sulfidic Solid-State Batteries. In: ChemElectroChem. DOI: 10.1002/celc.202300452.

Gottschalk, L.; Strzelczyk, N.; Adam, A.; Kwade, A. (2023): Influence of different anode active materials and blends on the performance and fast-charging capability of lithium-ion battery cells. In: Journal of Energy Storage.
DOI: 10.1016/j.est.2023.107706.

Gruhn, H.; Krüger, T.; Mund, M.; Kandula, M.; Dilger, K. (2023): Challenges in Contacting Metal-Polymer Current Collectors in Pouch Cells. In: Manufacturing and Materials Processing 2023, 7, 219.
DOI: 10.3390/jmmp7060219.

Hahn, A.; Doose, S.; Saathoff, D.; Kwade, A. (2023): Effect of External Compression on the Thermal Runaway of Lithium-Ion Battery Cells during Crush Tests: Insights for Improved Safety Assessment. In: Batteries 2023, 9(8), 404. DOI: 10.3390/batteries9080404 .

Haupt, J.; Kononova, N.; Cerdas, F.; Zellmer, S.; Herrmann, C. (2023): Challenges of prospective life cycle assessment of emerging recycling processes: case study of battery materials recovery. In: Procedia CIRP,  Volume 116, 2023, Pages 23-28. DOI: 10.1016/j.procir.2023.02.005.

Heck, C. A.; Huttner, F.; Mayer, J. K.; Fromm, O.; Börner, M.; Heckmann, T.; Scharfer, P.; Schabel, W.; Winter, M.; Kwade, A. (2023): Production of Nickel-Rich Cathodes for Lithium-Ion Batteries from Lab to Pilot Scale under Investigation of the Process Atmosphere. In: Energy Technology. DOI: 10.1002/ente.202200945.

Husmann, J.; Ali, A.-R.; Cerdas, F.; Herrmann, C. (2023): The influence of stakeholder perspectives on the end-of-life allocation in the life cycle assessment of lithium-ion batteries. In: Front. Sustain., Volume 4 - 2023.
DOI: 10.3389/frsus.2023.1163207.

Husmann, J.; Blömeke, S.; Cerdas, F.; Herrmann, C. (2023): Environmental Assessment of Secondary Materials from Battery Recycling Process Chains: The Influence of Recycling Processes and Modelling Choices. In: Procedia CIRP 2023, 116, 29–34. DOI: 10.1016/j.procir.2023.02.006.

Jean-Fulcrand, A.; Jeon, E. J.; Karimpour, S.; Garnweitner, G. (2023): Cross-Linked Solid Polymer-Based Catholyte for Solid-State Lithium-Sulfur Batteries. In: Batteries 2023, 9(7), 341. DOI: 10.3390/batteries9070341.

Khakmardan, S.; Rolinck, M.; Cerdas, F.; Herrmann, C.; Giurco, D.; Crawford, R.; Li, W. (2023): Comparative Life Cycle Assessment of Lithium Mining, Extraction, and Refining Technologies: a Global Perspective. In: Procedia CIRP, Volume 116, 2023, Pages 606-611. DOI: 10.1016/j.procir.2023.02.102.

Kononova, N.; Blömeke, S.; Cerdas, F.; Zellmer, S.; Herrmann, C. (2023): Identification of target materials for recycling of solid-state batteries from environmental and economic perspective using information theory entropy. In: Procedia CIRP, Volume 116, 2023, Pages 185-190. DOI: 10.1016/j.procir.2023.02.032.

Kwade, A.; Möller, M.; Müller, J.; Hesselbach, J.; Zellmer, S.; Doose, S.; Mayer, J.; Michalowski, P.; Powell, M.; Breitung-Faes, S. (2023): Comminution and Classification as Important Process Steps for the Circular Production of Lithium Batteries. In: KONA Powder and Particle Journal 2023, 40 (0), 50–73. DOI: 10.14356/kona.2023006.

Molaiyan, P.; Mailhiot, S. E.; Voges, K.; Kantola, A. M.; Hu, T.; Michalowski, P.; Kwade, A.; Telkki, V.-V.; Lassi, U. (2023): Investigation of the structure and ionic conductivity of a Li₃InCl₆ modified by dry room annealing for solid-state
Li-ion battery applications. In: Materials & Design, Volume 227, March 2023, 111690.
DOI: 10.1016/j.matdes.2023.111690.

Naumann, A.; Süß, S.; Mennenga, M.; Herrmann, C. (2023): Towards an integrated control system for a scrap-free circular production of lithium-ion batteries. In: Procedia CIRP, Volume 120, 2023, Pages 297-302.
DOI: 10.1016/j.procir.2023.08.053.

Penningh, N.; Abdollahifar, M.; Michalowski, P.; Haselrieder, W.; Kwade, A. (2023): Significance of dynamic thickness changes and compression effects of commercial lithium-ion spring-braced cells. In: Journal of Energy Storage, Volume 72, Part B. DOI: 10.1016/j.est.2023.108187.

Penningh, N.; Helmers, L.; Wiegmann, E.; Kwade, A. (2023): Application Fields of Extrusion Coating for Battery Manufacturing: A Mini Review. In: Research & Reviews: Journal of Material Sciences. DOI: 10.4172/2321-6212.11.1.004.

Popien, J.-L.; Thies, C.; Barke, A.; Spengler, T. (2023): Comparative sustainability assessment of lithium-ion, lithium-sulfur, and all-solid-state traction batteries. In: The International Journal of Life Cycle Assessment (2023).
DOI: 10.1007/s11367-023-02134-4.

Rolinck, M.; Khakmardan, S.; Cerdas, F.; Mennenga, M.; Li, W.; Herrmann, C. (2023): Completeness evaluation of LCI datasets for the environmental assessment of lithium compound production scenarios. In: Procedia CIRP, Volume 116, 2023, Pages 726-731. DOI: 10.1016/j.procir.2023.02.122.

Scheller, C.; Schmidt, K.; Spengler, T. (2023): Effects of network structures on the production planning in closed-loop supply chains – A case study based analysis for lithium-ion batteries in Europe. In: International Journal of Production Economics, Volume 262, August 2023, 108892. DOI: 10.1016/j.ijpe.2023.108892.

Schoo, A.; Moschner, R.; Hülsmann, J.; Kwade, A. (2023): Coating Defects of Lithium-Ion Battery Electrodes and Their Inline Detection and Tracking. In: Batteries, Volume 9, Issue 2. DOI: 10.3390/batteries9020111.

Süß, S.; Mennenga, M. (2023): Framework for Industrial Cyber-Physical System of Systems and Application Towards an Effective Treatment of End-of-Life Products. In: Production at the Leading Edge of Technology, pp 238–247.
DOI: 10.1007/978-3-031-47394-4_24.

Ventura Silva, G.; Heckmann, T.; Abraham, T.; Scharfer, P.; Schabel, W.; Herrmann, C. (2023): Model-based process design under consideration of production performance for battery cell production: A coating and drying study.
In: Procedia CIRP, Volume 120, 2023, Pages 780-785. DOI: 10.1016/j.procir.2023.09.075.

Vogt, D.; Michalowski, P.; Kwade, A. (2023): Correction: Vogt et al. Production and Characterisation of Fibre-Reinforced All-Solid-State Electrodes and Separator for the Application in Structural Batteries. Batteries 2022, 8, 55. In: Batteries 2023, 9 (3), 161. DOI: 10.3390/batteries9030161.

Wiegmann, E.; Cavers, H.; Diener, A.; Kwade, A. (2023): Semi-Dry Extrusion-Based Processing for Graphite Anodes: Morphological Insights and Electrochemical Performance. In: Energy Technology. DOI: 10.1002/ente.202300341.

Wu, S.; Kaden, N.; Dröder, K. (2023): A Systematic Review on Lithium-Ion Battery Disassembly Processes for Efficient Recycling. In: Batteries 9, no. 6: 297. DOI: 10.3390/batteries9060297.

Zhang, C.; Ventura Silva, G.; Abraham, T.; Herrmann, C. (2023): Development of a virtual quality gate concept based on high-potential tests for lithium-ion battery cell manufacturing. In: Procedia CIRP, Volume 120, 2023,
Pages 1119-1124. DOI: 10.1016/j.procir.2023.09.135.

Abdollahifar, M.; Vinograd, A.; Lu, C.-Y.; Chang, S.-J.; Müller, J.; Frankenstein, L.; Placke, T.; Kwade, A.; Winter, M.; Chao, C.-Y.; Wu, N.-L. (2022): Enabling Long-Cycling Life of Si-on-Graphite Composite Anodes via Fabrication of a Multifunctional Polymeric Artificial Solid–Electrolyte Interphase Protective Layer.
In: ACS Applied Material Interfaces 2022, 14, 34, 38824–38834. DOI: 10.1021/acsami.2c10175.

Abdollahifar, M.; Doose, S.; Cavers, H.; Kwade, A. (2022): Graphite Recycling from End-of-Life Lithium-Ion Batteries: Processes and Applications. In: Advanced Materials Technolgies. DOI: 10.1002/admt.202200368.

Abdollahifar, M.; Molaiyan, P.; Perovic, M.; Kwade, A. (2022): Insights into Enhancing Electrochemical Performance of Li-Ion Battery Anodes via Polymer Coating. In: Energies 2022, 15(23), 8791.
DOI: 10.3390/en15238791.

Abdollahifar, M.; Molaiyan, P.; Lassi, U.; Wu, N.-L.; Kwade, A. (2022): Multifunctional behaviour of graphite in lithium–sulfur batteries. In: Renewable and Sustainable Energy Reviews, Volume 169, November 2022, 112948. DOI: 10.1016/j.rser.2022.112948.

Barke, A.; Cistjakov, W.; Steckermeier, D.; Thies, C.; Popien, J.-L.; Michalowski, P.; Pinheiro Melo, S.; Cerdas, F.; Herrmann, C.; Krewer, U.; Kwade, A.; Spengler, T. (2022): Green batteries for clean skies: Sustainability assessment of lithium-sulfur all-solid-state batteries for electric aircraft. In: Journal of Industrial Ecology. DOI: 10.1111/jiec.13345.

Batzer, M.; Heck, C.; Michalowski, P.; Kwade, A. (2022): Current Status of Formulations and Scalable Processes for Producing Sulfidic Solid-State Batteries. In: Batteries & Supercaps, Volume 5, Issue 12, December 2022.
DOI: 10.1002/batt.202200328.

Batzer, M.; Voges, K.; Wang, W.; Michalowski, P.; Kwade, A. (2022): Systematic Evaluation of Materials and Recipe for Scalable Processing of Sulfide-Based Solid-State Batteries. In: Materials Today Communications 2022, 30, 103189.
DOI: 10.1016/j.mtcomm.2022.103189.

Bergmann, T.; Schlüter, N.: (2022): Introducing Alternative Algorithms for the Determination of the Distribution of Relaxation Times. In: ChemElectroChem. DOI: 10.1002/cphc.202200012.

Blömeke, S.; Scheller, C.; Cerdas, F.; Thies, C.; Hachenberger, R.; Gonter, M.; Herrmann, C.; Spengler, T. (2022): Material and energy flow analysis for environmental and economic impact assessment of industrial recycling routes for lithium-ion traction batteries. In: Journal of Cleaner Production. DOI: 10.1016/j.jclepro.2022.134344.

Burmeister, C. F.; Hofer, M.; Molaiyan, P.; Michalowski, P.; Kwade, A. (2022): Characterization of Stressing Conditions in a High Energy Ball Mill by Discrete Element Simulations. In: Processes 2022, 10(4), 692. DOI: 10.3390/pr10040692.

Cavers, H.; Molaiyan, P.; Abdollahifar, M.; Lassi, U.; Kwade, A. (2022): Perspectives on Improving the Safety and Sustainability of High Voltage Lithium-Ion Batteries Through the Electrolyte and Separator Region. In: Advanced Energy Materials. DOI: 10.1002/aenm.202200147.

Diener, A.; Ivanov, S.; Haselrieder, W.; Kwade, A. (2022): Evaluation of Deformation Behavior and Fast Elastic Recovery of Lithium-Ion Battery Cathodes via Direct Roll-Gap Detection During Calendering. In: Energy Technology. DOI: 10.1002/ente.202101033.

Doose, S.; Hahn, A.; Bredekamp, M.; Haselrieder, W.; Kwade, A. (2022): Scaling methodology to describe the capacity dependent responses during thermal runaway of lithium ion batteries. In: Batteries & Supercaps.
DOI: 10.1002/batt.202200060.

Drees, R.; Lienesch, F.; Kurrat, M. (2022): Durable Fast Charging of Lithium-Ion Batteries Based on Simulations with an Electrode Equivalent Circuit Model. In: Batteries 2022, 8(4), 30. DOI: 10.3390/batteries8040030.

Engels, P.; Cerdas, F.; Dettmer, T.; Frey, C.; Hentschel, J.; Herrmann, C.; Mirfabrikikar, T.; Schueler, M. (2022): Life cycle assessment of natural graphite production for lithium-ion battery anodes based on industrial primary data.
In: Journal of Cleaner Production, Volume 336, 130474. DOI: 10.1016/j.jclepro.2022.130474.

Engels, P.; Kononova, N.; Khalid, U.; Cerdas, F.; Herrmann, C. (2022): Methodology for a combined uncertainty analysis and data quality rating of existing graphite datasets in context of battery LCAs. In: Procedia CIRP, Volume 105, Pages 577-582. DOI: 10.1016/j.procir.2022.02.096.

Gottschalk, L.; Oertel, C.; Strzelczyk, N.; Müller, J.; Krüger, J.; Haselrieder, W.; Kwade, A. (2022): Improving the Performance of Lithium-Ion Batteries Using a Two-Layer, Hard Carbon-Containing Silicon Anode for Use in High-Energy Electrodes. In: Energy Technology. DOI: 10.1002/ente.202200858.

Grotkopp, N.; Horst, M.; Batzer, M.; Jean-Fulcrand, A.; Garnweitner, G. (2022): Flexible Freestanding Thin Polyethylene Oxide-Based Film as Artificial Solid–Electrolyte Interface to Protect Lithium Metal in Lithium–Sulfur Batteries. In: Advanced Energy and Sustainability Research. DOI: 10.1002/aesr.202200146.

Jagau, R.; Huttner, F.; Mayer, J.; Cavers, H.; Scheffler, S.; Brokmann, J.; Kwade, A. (2022): Influence of Different Alginate and Carboxymethyl Cellulose Binders on Moisture Content, Electrode Structure, and Electrochemical Properties of Graphite-Based Anodes for Lithium-Ion Batteries. In: Energy Technology. DOI: 10.1002/ente.202200871.

Jeon, E. J.; Jean-Fulcrand, A.; Kwade, A.; Garnweitner, G. (2022): A room-temperature high performance all-solid-state lithium-sulfur battery enabled by a cross-linked copolymer@ceramic hybrid solid electrolyte. In: Nano Energy, Volume 104, Page 107912. DOI: 10.1016/j.nanoen.2022.107912.

Kwade, A.; Möller, M.; Müller, J.; Hesselbach, J.; Zellmer, S.; Doose, S.; Mayer, J.; Michalowski P.; Powell, M.; Breitung-Faes, S. (2022): Comminution and Classification as Important Process Steps for the Circular Production of Lithium Batteries. In: KONA Powder and Particle Journal. DOI: 10.14356/kona.2023006.

Lippke, M.; Meister, J.; Schilde, C.; Kwade, A. (2022): Preheating of Lithium-Ion Battery Electrodes as Basis for Heated Calendering - A Numerical Approach. In: Processes 2022, 10(8), 1667.
DOI: 10.3390/pr10081667.

Lippke, M.; Ohnimus, T.; Heckmann, T.; Ivanov, D.; Scharfer, P.; Schabel, W.; Schilde, C.; Kwade, A. (2022): Simulation of Structure Formation during Drying of Lithium-Ion Battery Electrodes using Discrete Element Method. In: Energy Technology. DOI: 10.1002/ente.202200724.

Mayer, J.; Bockholt, H.; Kwade, A. (2022): Inner carbon black porosity as characteristic parameter for the microstructure of lithium-ion electrodes and its effect on physical and electrochemical properties.
In: Journal of Power Sources, Volume 529. DOI: 10.1016/j.jpowsour.2022.231259.

Mayer, J.; Huttner, F.; Heck, C.; Steckermeier, D.; von Horstig, M.; Kwade, A. (2022): Investigation of Moisture Content, Structural and Electrochemical Properties of Nickel-Rich NCM Based Cathodes Processed at Ambient Atmosphere. In: Journal of The Electrochemical Society, Volume 169, Number 6.
DOI: 10.1149/1945-7111/ac7358.

Meiners, J.; Fröhlich, A.; Dröder, K. (2022): Potential of a machine learning based cross-process control in lithium-ion battery production. In: Procedia CIRP, Volume 112, 2022, Pages 525-530.
DOI: 10.1016/j.procir.2022.09.093.

Müller, J.; Abdollahifar, M.; Doose, S.; Michalowski, P.; Wu, N.; Kwade, A. (2022): Effects of carbon coating on calendered nano-silicon graphite composite anodes of LiB. In: Journal of Power Sources, Volume 548.
DOI: 10.1016/j.jpowsour.2022.232000.

Nöske, M.; Müller, J.; Nowak, C.; Li, K.; Xu, X.; Breitung-Faes, S.; Kwade, A. (2022): Multicomponent Comminution within a Stirred Media Mill and Its Application for Processing a Lithium-Ion Battery Slurry. In: Processes, Volume 10, Issue 11. DOI: 10.3390/pr10112309.

Pinheiro Melo, S.; Cerdas, F.; Barke, A.; Thies, C.; Spengler, T. S.; Herrmann, C. (2022): Life Cycle Engineering Modelling Framework for batteries powering electric aircrafts – the contribution of eVTOLs towards a more sustainable urban mobility. In: Procedia CIRP, Volume 105, 2022, Pages 368-373. DOI: 10.1016/j.procir.2022.02.061.

Popien, J.-L.; Thies, C.; Spengler, T. (2022): Exploring recycling options in battery supply chains – a life cycle sustainability assessment. In: Procedia CIRP, Volume 105, Pages 434-439. DOI: 10.1016/j.procir.2022.02.072.

Puchta, A.; Fleischer, J.; Schmied, J.; Kampker, A.; Scharmann, T.; Dröder, K.; Töpper, H.-C.; Daub, R. (2022): Industrie 4.0 in der Batteriezellproduktion/Systemic integration of Industry 4.0 in battery cell production – Industry 4.0 in battery cell production. In: wt Werkstattstechnik online, Pages 496-500. DOI: 10.37544/1436-4980-2022-07-08-50.

Scheffler, S.; Jagau, R.; Müller, N.; Diener, A.; Kwade, A. (2022): Calendering of Silicon-Containing Electrodes and Their Influence on the Mechanical and Electrochemical Properties. In: Batteries 2022, 8(5), 46.
DOI: 10.3390/batteries8050046.

Schlüter, N.; Novák, P.; Schröder, D. (2022): Nonlinear Electrochemical Analysis: Worth the Effort to Reveal New Insights into Energy Materials. In: Advanced Energy Materials. DOI: 10.1002/aenm.202200708.

Schmied, J.; Puchta, A.; Scharmann, T.; Töpper, H.-C.; Kampker, A. (2022): Framework for the Application of Industry 4.0 in Lithium-Ion Battery Cell Production. In: Proceedings of the Conference on Production Systems and Logistics, Pages 151-160. DOI: 10.15488/12168.

Stein, A.; Kehl, D.; Jackmann, C.; Essmann, S.; Lienesch, F.; Kurrat, M. (2022): Thermal Electrical Tests for Battery Safety Standardization. In: Energies 2022, 15(21), 7930. DOI: 10.3390/en15217930.

Strzelczyk, N.; Gottschalk, L.; Müller, J.; Kwade, A. (2022): The Influence of Calendering on the Fast Charging Performance and Lithium Plating of Hard Carbon Blend Anodes. In: Energy Technology.
DOI: 10.1002/ente.202200865.

Tao, F.; Kishita, Y.; Scheller, C.; Blömeke, S.; Umeda, Y. (2022): Designing a Sustainable Circulation System of Second-life Traction Batteries: A Scenario-based Simulation Approach. In: Procedia CIRP, Volume 105, Pages 733-738.
DOI: 10.1016/j.procir.2022.02.122.

Thomitzek, M.; Schmidt, O.; Ventura Silva, G.; Karaki, H.; Lippke, M.; Krewer, U.; Schröder, D.; Kwade, A.; Herrmann, C. (2022): Digitalization Platform for Mechanistic Modeling of Battery Cell Production. In: Sustainability, Volume 14, Issue 3. DOI: 10.3390/su14031530.

Ventura Silva, G.; Thomitzek, M.; Lippke, M.; Heckmann, T.; Karaki, H.; Lischka, C.; Möhlen, F.; Mayer, D.; Hagemeister, D.; Daub, R.; Fleischer, J.; Nirschl, H.; Schröder, D.; Scharfer, P.; Schabel, W.; Kwade, A.; Herrmann, C. (2022): Digitalization Platform for Sustainable Battery Cell Production: Coupling of Process, Production, and Product Models. In: Energy Technology, Page 2200801, DOI: 10.1002/ente.202200801.

Ventura Silva, G.; Thomitzek, M.; Abraham, T.; Herrmann, C. (2022): Simulation-based Assessment of Energy Demand and Costs Associated with Production Scrap in the Battery Production. In: Simulation Notes Europe, Volume 32(3), Special Issue ASIM SPL 2021, Page 143-150. DOI: 10.11128/sne.32.tn.10614.

Vogt, D.; Michalowski, P.; Kwade, A. (2022): Production and Characterisation of Fibre-Reinforced All-Solid-State Electrodes and Separator for the Application in Structural Batteries. In: Batteries 2022, 8 (6), 55.
DOI: 10.3390/batteries8060055.

Vogt, M.; Platzdasch, A.; Abraham, T.; Herrmann, C. (2022): Model-based energy flexibility analysis of a dry room HVAC system in battery cell production. In: Procedia CIRP, Volume 105, Pages 410-415.
DOI: 10.1016/j.procir.2022.02.068.

von Boeselager, C.; Kapelar, M.; Dröder, K. (2022): Multi-Body Simulation of a Novel Electrode Stacking Process for Lithium-Ion Battery Production. In: Procedia CIRP, Volume 112, 2022, Pages 519-524.
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von Boeselager, C.; Müller, A.; Tönjes, L.; Shi, X.; Wassenberg, D.; Evans, D.; Glodde, A.; Dietrich, F.; Dröder, K. (2022): Model-Based Design and Experimental Evaluation of a High-Throughput Electrode Feeding and Stacking Process.
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von Drachenfels, N.; Husmann, J.; Khalid, U.; Cerdas, F.; Herrmann, C. (2022): LCA of the Battery Cell Production: Using a Modular Material and Energy Flow Model to Assess Product and Process Innovations. In: Energy Technology. DOI: 10.1002/ente.202200673.

von Horstig, M.; Schoo, A.; Loellhoeffel, T.; Mayer, J.; Kwade, A. (2022): A Perspective on Innovative Drying Methods for Energy-Efficient Solvent-Based Production of Lithium-Ion Battery Electrodes. In: Energy Technology.
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Weber, M.; Moschner, R.; Kwade, A. (2022): Modifying the Network Structures of High Energy Anodes for Lithium-Ion Batteries through Intensive Dry Mixing. In: Energy Technology. DOI: 10.1002/ente.202200852.

Wiegmann, E.; Haselrieder, W.; Kwade, A. (2022): Solvent reduced extrusion based anode production process integrating granulate coating, drying and calendering. In: Energy Technology. DOI: 10.1002/ente.202200020.

Barke, A.; Thies, C.; Popien, J.-L.; Melo, S. P.; Cerdas, F.; Herrmann, C.; Spengler, T. S. (2021): Life cycle sustainability assessment of potential battery systems for electric aircraft. In: Procedia CIRP, 98, pp. 660–665. DOI: 10.1016/j.procir.2021.01.171.

Dilger, N.; Kaluza, A.; Kiesewetter, A.; Cerdas, F.; Blume, S.; Zellmer, S.; Herrmann, C. (2021): Definition and Reference Framework for Life Cycle Technologies in Life Cycle Engineering - a Case Study on All Solid State Traction Batteries. In: Procedia CIRP (28th CIRP Life Cycle Engineering (LCE) Conference), Elsevier B.V., Amsterdam, 2021, 98, pp. 217-222. DOI: 10.1016/j.procir.2021.01.033.

Doose, S.; Haselrieder, W.; Kwade, A. (2021): Effects of the Nail Geometry and Humidity on the Nail Penetration of High-Energy Density Lithium Ion Batteries. In: Batteries 2021, 7(1), 6. DOI: 10.3390/batteries7010006.

Doose, S.; Mayer, J.; Michalowski, P.; Kwade, A. (2021): Challenges in Ecofriendly Battery Recycling and Closed Material Cycles: A Perspective on Future Lithium Battery Generations. In: Metals 2021, 11(2), 291. DOI: 10.3390/met11020291.

Drees, R.; Lienesch, F.; Kurrat M. (2021): Fast charging lithium-ion battery formation based on simulations with an electrode equivalent circuit model. In: Journal of Energy Storage 2021, 36. DOI: 10.1016/j.est.2021.102345.

Hoffmann, L.; Kasper, M.; Kahn, M.; Gramse, G.; Silva, G. V.; Herrmann, C.; Kurrat, M.; Kienberger, F. (2021): High-Potential Test for Quality Control of Separator Defects in Battery Cell Production. In: Batteries 2021, 7(4), 64. DOI: 10.3390/batteries7040064.

Huttner, F.; Diener, A.; Heckmann, T.; Eser, J. C.; Abali, T.; Mayer, J. K.; Scharfer, P.; Schabel, W.; Kwade, A. (2021): Increased Moisture Uptake of NCM622 Cathodes after Calendering due to Particle Breakage. In: Journal of The Electrochemical Society, Volume 168, Number 9. DOI: 10.1149/1945-7111/ac24bb.

Huttner, F.; Marth, A.; Eser, J. C.; Heckmann, T.; Mohacsi, J.; Mayer, J. K.; Scharfer, P.; Schabel, W.; Kwade, A. (2021): Design of Vacuum Post-Drying Procedures for Electrodes of Lithium-Ion Batteries. In: Batteries & Supercaps. DOI: 10.1002/batt.202100088.

Kaden, N.; Schlüter, N.; Leithoff, R.; Savas, S.; Grundmeier, S.; Dröder, K. (2021): Influence of the Lamination Process on the Wetting Behavior and the Wetting Rate of Lithium-Ion Batteries. In: Processes, Volume 9, Issue 10 (Special Issue Production Technologies for Lithium-Ion Battery Electrodes, Cells and Systems), 1851. DOI: https://doi.org/10.3390/pr9101851.

Kehl, D.; Jennert, T.; Lienesch, F.; Kurrat, M. (2021): Electrical Characterization of Li-Ion Battery Modules for Second-Life Applications. In: Batteries, Volume 7, Issue 2, Page 32. DOI: 10.3390/batteries7020032.

Kouli, M.; Kandula, M.; Dilger, K. (2021): Laser-material-interactions between ultrashort pulse lasers and electrodes for lithium-ion batteries during micro-structuring the electrode surface. In: Proceedings, Volume 11674, Laser-based Micro- and Nanoprocessing XV; 116741E. DOI: 10.1117/12.2582724.

Kulkarni, S.; Vysoudil, F.; Vietor, T. (2021): Evaluation of Modelling and Simulation Strategies to Investigate the Mechanical Integrity of a Battery Cell Using Finite Element Methods. In: Energies, Volume 14, Issue 11, Page 2976. DOI: 10.3390/en14112976.

Marcos, J.T.; Scheller, C.; Godina, R.; Spengler, T.S.; Carvalhoa, H. (2021): Sources of uncertainty in the closed-loop supply chain of lithium-ion batteries for electric vehicles. In: Cleaner Logistics and Supply Chain, Volume 1, October 2021. DOI: 10.1016/j.clscn.2021.100006.

Müller, A.; Aydemir, M.; von Boeselager, C.; van Ohlen, N.; Rahlfs, S.; Leithoff, R.; Dröder, K.; Dietrich, F. (2021): Simulation Based Approach for High-Throughput Stacking Processes in Battery Production. In: Processes 2021, 9(11), 1993. DOI: 10.3390/pr9111993.

Müller, J.; Abdollahifar, M.; Vinograd, A.; Nöske, M.; Nowak, C.; Chang, S.-J.; Placke, T.; Haselrieder, W.; Winter, M.; Kwade, A.; Wu, N.-L. (2021): Si-on-Graphite fabricated by fluidized bed process for high-capacity anodes of Li-ion batteries. In: Chemical Engineering Journal, Volume 407, 126603. DOI: 10.1016/j.cej.2020.126603.

Pierri, E.; Cirillo, V.; Vietor, T.; Sorrentino, M. (2021): Adopting a Conversion Design Approach to Maximize the Energy Density of Battery Packs in Electric Vehicles. In: Energies, Volume 14, Issue 7, Page 1939. DOI: 10.3390/en14071939.

Rajkumar, P.; Diwakar, K.; Ramachandran, M.; Mozaffar, A.; Gnanamuthu, R. M. ; Subadevi, R.; Sivakumar, M. (2021): Enriched energy storage capability and bi-functional ability of boron-doped graphene as efficient electrode for supercapacitors and lithium sulfur batteries. In: Journal of Materials Science: Materials in Electronics, Volume 32, Pages 22760–22770. DOI: 10.1007/s10854-021-06650-7.

Ryll, K.; Hoffmann, L.; Landrath, O.; Lienesch, F.; Kurrat, M. (2021): Key Figure Based Incoming Inspection of Lithium-Ion Battery Cells. In: Batteries 2021, 7 (1), 9. DOI: 10.3390/batteries7010009.

Scheller, C.; Blömeke, S.; Nippraschk, M.; Schmidt, K.; Mennenga, M.; Spengler, T. S.; Herrmann, C.; Goldmann, D. (2021): Coordinated Planning in Closed-loop Supply Chains and its Implications on the Production and Recycling of Lithium-ion Batteries. In: Procedia CIRP, 98th edn., pp. 464–469. DOI: 10.1016/j.procir.2021.01.135.

Scheller, C.; Schmidt, K.; Spengler, T. S. (2021): Effects of CO2-Penalty Costs on the Production and Recycling Planning of Lithium-Ion Batteries. In: Procedia CIRP, 98, pp. 643–647. DOI: 10.1016/j.procir.2021.01.168.

Schlem, R.;  Burmeister, C. F.; Michalowski, P.; Ohno, S.; Dewald, G.F.; Kwade, A.; Zeier, W. G. (2021): Energy Storage Materials for Solid-State Batteries: Design by Mechanochemistry. In: Advanced Energy Materials. DOI: 10.1002/aenm.202101022.

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Thomitzek, M.; Schmidt, O.; Abraham, T.; Cerdas, F.; Röder, F.; Krewer, U.; Herrmann, C. (2021): Model-based identification of production tolerances in battery production. In: Procedia CIRP, Volume 104, Pages 1059-1064. DOI: 10.1016/j.procir.2021.11.178.

Turetskyy, A.; Wessel, J.; Herrmann, C.; Thiede, S. (2021): Battery production design using multi-output machine learning models. In: Energy Storage Materials, Volume 38, June 2021, Pages 93-112. DOI: 10.1016/j.ensm.2021.03.002.

Ventura Silva, G.; Thomitzek, M.; Abraham, T.; Herrmann, C. (2021): Simulation-based Assessment of Energy Demand and Costs Associated with Production Scrap in the Battery Production, In: 19. ASIM Fachtagung Simulation in Produktion und Logistik, Erlangen, Cuvillier Verlag, Göttingen, 2021, Page 227-236, ISBN 978-3-73697-479-1.

Ventura Silva, G.; Thomitzek, M.; Abraham, T.; Herrmann, C. (2021): Bottleneck reduction strategies for energy efficiency in the battery manufacturing. In: Procedia CIRP, Volume 104, Pages 1017-1022. DOI: 10.1016/j.procir.2021.11.171.

Vogt, M.; Koch, K.; Turetskyy, A.; Cerdas, F.; Thiede, S.; Herrmann, C. (2021): Model-based energy analysis of a dry room HVAC system in battery cell production. In: Procedia CIRP (28th CIRP Life Cycle Engineering (LCE) Conference), Elsevier B.V., Amsterdam, 2021, 98, pp. 157-162. DOI: 10.1016/j.procir.2021.01.023.

Von Drachenfels, N.; Engels, P.; Husmann, J.; Cerdas, F.; Herrmann, C. (2021): Scale-Up of Pilot Line Battery Cell Manufacturing Life Cycle Inventory Models for Life Cycle Assessment. In: Procedia CIRP (28th CIRP Life Cycle Engineering (LCE) Conference), Elsevier B.V., Amsterdam, 2021, 98, pp. 13-18. DOI: 10.1016/j.procir.2020.12.002.

Wessel, J.; Turetskyy, A.; Cerdas, F.; Herrmann, C. (2021): Integrated Material-Energy-Quality Assessment for Lithium-ion Battery Cell Manufacturing. In: Procedia CIRP (28th CIRP Life Cycle Engineering (LCE) Conference), Elsevier B.V., Amsterdam, 2021, 98, pp. 388-393. DOI: 10.1016/j.procir.2021.01.122.

Wessel, J.; Turetskyy, A.; Wojahn, O.; Abraham, T.; Herrmann, C. (2021): Ontology-based Traceability System for Interoperable Data Acquisition in Battery Cell Manufacturing. In: Procedia CIRP, Volume 104, Pages 1215-1220. DOI: 10.1016/j.procir.2021.11.204.

Wiegmann, E.; Helmers, L.; Michalowski, P.; Kwade, A. (2021): Highly scalable and solvent-free fabrication of a solid polymer electrolyte separator via film casting technology. In: Advances in Industrial and Manufacturing Engineering, Volume 3. DOI: 10.1016/j.aime.2021.100065.

Witt, D.; Wilde, D.; Baakes, F.; Belkhir, F.; Röder, F.; Krewer, U. (2021): Myth and Reality of a Universal Lithium‐Ion Battery Electrode Design Optimum – A Perspective and Case Study. In: Energy Technology. DOI: 10.1002/ente.202000989.

Blömeke, S.; Mennenga, M.; Herrmann, C.; Scheller, C.; Spengler, T.; Nippraschk, M.; Goldmann; D.; Lawrenz, S.; Sharma, P.; Rausch, A.; Poschmann, H.; Brügemann, H.; Kintscher, L.; Bikker, G. (2020): Recycling 4.0 An Integrated Approach Towards an Advanced Circular Economy. In ICT4S’20: 7th International Conference on ICT for Sustainability, June 21-26, 2020, Bristol, United Kingdom, DOI: 10.1145/3401335.3401666.

Diekmann, J.; Doose, S.; Weber, S.; Münch, S.; Haselrieder, W.; Kwade, A. (2020): Development of a New Procedure for Nail Penetration of Lithium-Ion Cells to Obtain Meaningful and Reproducible Results. In: Journal of The Electrochemical Society, 167 (9), S. 90504, DOI: 10.1149/1945-7111/ab78ff.

Doose, S.; Mayer, J.; Kwade, A. (2020): Aktuelle Trends in der Batterieentwicklung u. die sich daraus ergebenden Herausforderungen für das Recycling. In: Recycling und Sekundärrohstoffe, Bd.13.

Froboese, L.; Groffmann, L.; Monsees, F.; Helmers, L.; Loellhoeffel, T; Kwade, A. (2020): Enhancing the Lithium Ion Conductivity of an All Solid-State Electrolyte via Dry and Solvent-Free Scalable Series Production Processes. In: Journal of The Electrochemical Society, DOI: 10.1149/1945-7111/ab6f77

Heck, C.; von Horstig, M.; Huttner, F.; Mayer, J.; Haselrieder, W.; Kwade, A. (2020): Review—Knowledge-Based Process Design for High Quality Production of NCM811 Cathodes. In: Journal of the Electrochemical Society, 167 (16), 160521, DOI: 10.1149/1945-7111/abcd11

Helmers, L.; Froböse, L.; Friedrich, K.; Steffens, M.; Kern, D.; Michalowski, P.; Kwade, A. (2020): Sustainable Solvent‐Free Production and Resulting Performance of Polymer Electrolyte‐Based All‐Solid‐State Battery Electrodes. In: Energy Technology, DOI: 10.1002/ente.202000923

Jeske, H.; Kandula, M. (2020): Batterien: Ölbasierte Binder statt Polyvinylidenchlorid. In: Nachrichten aus der Chemie, Volume 68, Issue 4, Pages 35-37, DOI: 10.1002/nadc.20204095502

Müller, J.; Abdollahifar, M.; Vinograd, A.; Nöske, M.; Nowak, C.; Chang, S.; Placke, T.; Haselrieder, W.; Winter, M.; Kwade, A.; Wu, N. (2020): Si-on-Graphite fabricated by fluidized bed process for high-capacity anodes of Li-ion batteries. In: Chemical Engineering Journal, Volume 407, DOI: 10.1016/j.cej.2020.126603

Pinheiro Melo, S.; Cerdas, F.; Barke, A.; Thies, C.; Spengler, T. S.; Herrmann, C. (2020): Life Cycle Engineering of future aircraft systems: the case of eVTOL vehicles. In: Procedia CIRP, Volume 90, 2020, Pages 297-302. DOI: 10.1016/j.procir.2020.01.060.

Sangrós Giménez, C.; Helmers, L.; Schilde, C.; Diener, A.; Kwade, A. (2020): Modeling the Electrical Conductive Paths within All‐Solid‐State Battery Electrodes. In: Chemical Engineering & Technology, DOI: 10.1002/ceat.201900501.

Scheller, C.; Schmidt, K.; Spengler, T. (2020): Decentralized master production and recycling scheduling of lithium-ion batteries: a techno-economic optimization model. In: Journal of Business Economics. DOI: 10.1007/s11573-020-00999-7.

Scheller, C.; Schmidt, K.; Herrmann, C.; Spengler, T. (2020): Decentralized Planning of Lithium-Ion Battery Production and Recycling. In: Procedia CIRP (27th CIRP Life Cycle Engineering (LCE) Conference), Elsevier B.V., Amsterdam, 2020, Volume 90, pp. 700-704. DOI: 10.1016/j.procir.2020.01.075.

Schlüter, N.; Ernst, S.; Schröder, U. (2020): Direct Access to the Optimal Regularization Parameter in Distribution of Relaxation Times Analysis. In: ChemElectroChem, DOI: 10.1002/celc.202000787.

Schmidt, O.; Thomitzek, M.; Röder, F.; Thiede, S.; Herrmann, C.; Krewer, U. (2020): Modeling the Impact of Manufacturing Uncertainties on Lithium-Ion Batteries. In: Journal of The Electrochemical Society, 167, 060501. DOI: 10.1149/1945-7111/ab798a.

Thiede, S.; Turetskyy, A.; Loellhoeffel, T.; Kwade, A.; Kara, S.; Herrmann, C. (2020): Machine learning approach for systematic analysis of energy efficiency potentials in manufacturing processes: A case of battery production. In: CIRP Annals, Volume 69, Issue 1, Pages 21-24, DOI: 10.1016/j.cirp.2020.04.090

Turetskyy, A.; Wessel, J.; Thiede, S.; Herrmann, C. (2020): Data-driven cyber-physical System for Quality Gates in Lithium-ion Battery Cell Manufacturing. In: Procedia CIRP, Volume 93, Pages 168-173, DOI: 10.1016/j.procir.2020.03.077

Wessel, J.; Turetskyy, A.; Wojahn, O.; Thiede, S.; Herrmann, C. (2020): Tracking and Tracing for Data Mining Application in the Lithium-ion Battery Production. In: Procedia CIRP, Volume 93, Pages 162-167, DOI: 10.1016/j.procir.2020.03.071

Beitz, S.; Uerlich, R.; Bokelmann, T.; Diener, A.; Vietor, T.; Kwade, A. (2019): Influence of Powder Deposition on Powder Bed and Specimen Properties. In: Materials, Volume 12, Issue 2, Page 297. DOI: 10.3390/ma12020297.

Bockwinkel, K.; Nowak, C.; Thiede, B.; Nöske, M.; Dietrich, F.; Thiede, S.; Haselrieder, W.; Dröder, K.; Kwade, A.; Herrmann, C. (2019): Enhanced Processing and Testing Concepts for New Active Materials for Lithium‐Ion Batteries. In: Energy Technology, 18, DOI: 10.1002/ente.201900133 .

Ernst, S.; Heins, T. P.; Schlüter, N.; Schröder, U. (2019): Capturing the Current-Overpotential Nonlinearity of Lithium-Ion Batteries by Nonlinear Electrochemical Impedance Spectroscopy (NLEIS) in Charge and Discharge Direction. In: Front. Energy Res., DOI: 10.3389/fenrg.2019.00151

Froboese, L.; van der Sichel, J.; Loellhoeffel, T.; Helmers, L.; Kwade, A. (2019): Effect of Microstructure on the Ionic Conductivity of an All Solid-State Battery Electrode. In: Journal of The Electrochemical Society, DOI: 10.1149/2.0601902jes .

Haarmann, M.; Haselrieder, W.; Kwade, A. (2019): Extrusion‐Based Processing of Cathodes: Influence of Solid Content on Suspension and Electrode Properties. In: Energy Technology, 3, DOI: 10.1002/ente.201801169 .

Harting, N.; Wolff, N.; Röder, F. & Krewer, U. (2019): State-of-Health Diagnosis of Lithium-Ion Batteries Using Nonlinear Frequency Response Analysis.  In: Journal of The Electrochemical Society, 2, pp. A277-A285, DOI: 10.1149/2.1031902jes .

Heimes, H.; Offermanns, C.; Mohsseni, A.; Laufen, H.; Westerhoff, U.; Hoffmann, L.; Niehoff, P.; Kurrat, M.; Winter, M.; Kampker, A. (2019): The effects of mechanical and thermal loads during lithium‐ion pouch cell formation and their impacts on the process time. In: Energy Technology, 118, DOI: 10.1002/ente.201900118 .

Heins, T. P.; Leithoff, R.; Schlüter, N.; Schröder, U.; Dröder, K. (2019): Impedance Spectroscopic Investigation of the Impact of Erroneous Cell Assembly on the Aging of Lithium‐Ion Batteries. In: Energy Technology, 8,  DOI: 10.1002/ente.201900288 .

Heinrich, M.; Wolff, N.; Harting, N.; Laue, V.; Röder, F.; Seitz, S. & Krewer, U. (2019): Physico‐Chemical Modeling of a Lithium‐Ion Battery: An Ageing Study with Electrochemical Impedance Spectroscopy. In: Batteries & Supercaps, 2, DOI: 10.1002/batt.201900011 .

Heins, T. P.; Schlüter, N.; Ernst, S. T.; Schröder, U. (2019): On the interpretation of impedance spectra of large‐format lithium‐ion batteries and its application in ageing studies. In: Energy Technology, DOI: 10.1002/ente.201900279 .

Hoffmann, L.; Grathwol, J.; Haselrieder, W.; Leithoff, R.; Jansen, T.; Dilger, K.; Dröder, K.; Kwade, A.; Kurrat, M. (2019): Capacity Distribution of Large Lithium‐Ion Battery Pouch Cells in Context with Pilot Production Processes. In: Energy Technology, 21,  DOI: 10.1002/ente.201900196 .

Huttner, F.; Haselrieder, W.; Kwade, A. (2019): The Influence of Different Post‐Drying Procedures on Remaining Water Content and Physical and Electrochemical Properties of Lithium‐Ion Batteries. In: Energy Technology,  DOI: 10.1002/ente.201900245.

Jansen, T., Kandula, M., Blass, D., Hartwig, S., Haselrieder, W. and Dilger, K. (2019): Evaluation of the Separation Process for the Production of Electrode Sheets. In: Energy Technology, DOI: 10.1002/ente.201900519

Jansen, T.; Kandula, M.; Hartwig, S.; Hoffmann, L.; Haselrieder, W.; Dilger, K. (2019): Influence of Laser-Generated Cutting Edges on the Electrical Performance of Large Lithium-Ion Pouch Cells. In: Batteries, 5, 73, DOI: 10.3390/batteries5040073

Laue, V.; Röder, F.; Krewer, U. (2019): Joint Structural and Electrochemical Modeling: Impact of Porosity on Lithium-Ion Battery Performance. In: Electrochimica Acta, DOI: 10.1016/j.electacta.2019.05.005 .

Laue, V.; Schmidt, O.; Dreger, H.; Xie, X.; Röder, F.; Schenkendorf, R.; Kwade, A.; Krewer, U. (2019): Model-based Uncertainty Quantification for the Product Properties of Lithium-Ion Batteries. In: Energy Technology, DOI: 10.1002/ente.201900201.

Laue, V.; Wolff, N.; Röder, F.; Krewer, U. (2019): Modeling the Influence of Mixing Strategies on Micro Structural Properties of All-Solid-State Electrodes. In: Energy Technology, DOI: 10.1002/ente.201801049 .

Leithoff, R.; Fröhlich, A.; Dröder, K. (2019): Investigation of the Influence of Deposition Accuracy of Electrodes on the Electrochemical Properties of Lithium‐Ion Batteries. In: Energy Technology, DOI: 10.1002/ente.201900129 .

Mayer, J.; Almar, L.; Asylbekov, E.; Haselrieder, W.; Kwade, A.; Weber, A.; Nirschl, H. (2019): Influence of the Carbon Black Dispersing Process on the Microstructure and Performance of Li‐ion Battery Cathodes. In: Energy Technology, DOI: 10.1002/ente.201900161 .

Ohno, S.; Koerver, R.; Dewald, G.; Rosenbach, C.; Titscher, P.; Steckermeier, D.; Kwade, A.; Janek, J.; Zeier, W. (2019): Observation of Chemomechanical Failure and the Influence of Cutoff Potentials in All-Solid-State Li–S Batteries. In: Chemistry of Materials, DOI: 10.1021/acs.chemmater.9b00282 .

Rickert, J.; Von Drachenfels, N.; Cerdas, F.; Herrmann, C. (2019): Integration of product entropy and LCA to screen the potential environmental impacts of complex product systems at the end-of-life stage. In: CIRP Annals - Manufacturing Technology, DOI: 10.1016/j.cirp.2019.04.029 .

Röder, F.; Laue, V. & Krewer, U. (2019): Model Based Multiscale Analysis of Film Formation in Lithium-Ion Batteries. In: Batteries & Supercaps, 3, pp. 248-265, DOI: 10.1002/batt.201800107 .

Sangrós Giménez, C.; Schilde, C.; Froböse, L.; Ivanov, S.; Kwade, A. (2019): Mechanical, Electrical, and Ionic Behavior of Lithium‐Ion Battery Electrodes via Discrete Element Method Simulations. In: Energy Technology, 217, DOI: 10.1002/ente.201900180 .

Sangrós Giménez, C.; Finke, B.; Schilde, C.; Froböse, L.; Kwade, A. (2019): Numerical simulation of the behavior of lithium-ion battery electrodes during the calendaring process via the discrete element method. In: Powder technology, 349, pp. 1-11, DOI: 10.1016/j.powtec.2019.03.020 .

Schälicke, G; Landwehr, I.; Dinter, A.; Pettinger, K.-H.; Haselrieder, W.; Kwade, A. (2019): Solvent‐Free Manufacturing of Electrodes for Lithium‐Ion Batteries via Electrostatic Coating. In: Energy Technology, DOI: 10.1002/ente.201900309

Schilling, A.; Gümbel, P.; Möller, M.; Kalkan, F.; Dietrich, F.; Dröder, K. (2019): X-ray based visualization of the electrolyte filling process of lithium ion batteries . In: Journal of The Electrochemical Society. 166(3). pp. 163-167, DOI: 10.1149/2.0251903jes .

Schilling, A.; Wiemers-Meyer, S.; Winkler, V.; Nowak, S.; Hoppe, B.; Heimes, H.; Dröder, K.; Winter, M. (2019): Influence of Separator Material on Infiltration Rate and Wetting Behavior of Lithium-Ion Batteries. In: Energy Technology, DOI: 10.1002/ente.201900078 .

Schilling, A.; Gabriel, F.; Dietrich, F.; Dröder, K. (2019): Design of an Automated System to Accelerate the Electrolyte Distribution in Lithium-Ion Batteries. In: International Journal of Mechanical Engineering and Robotics Research. 8(1). pp. 162-166, DOI: 10.18178/ijmerr .

Schlüter, N.; Ernst, S.; Schröder, U. (2019): Finding the Optimal Regularization Parameter in Distribution of Relaxation Times Analysis. In: Chemelectrochem. Vol. 6, Issue24 , DOI: 10.1002/celc.201901863

Schönemann, M.; Bockholt, H.; Thiede, S.; Herrmann, C.; Kwade, A. (2019): Multiscale simulation approach for production systems. Application to the production of lithium-ion battery cells. In: The International Journal of Advanced Manufacturing Technology, pp. 1-18, DOI: 10.1007/s00170-018-3054-y .

Thiede, S.; Turetskyy, A.; Kwade, A.; Kara, S.; Herrmann, C. (2019): Data mining in battery production chains towards multi-criterial quality prediction. In: CIRP Annals, DOI: 10.1016/j.cirp.2019.04.066 .

Thies, C.; Kieckhäfer, K.; Spengler, T. S.; Sodhi, M. S. (2019): Assessment of social sustainability hotspots in the supply chain of lithium-ion batteries. In: Procedia CIRP, 80, pp. 292–297, DOI: 10.1016/j.procir.2018.12.009 .

Thomitzek, M.; Cerdas, F.; Thiede, S.; Herrmann, C. (2019): Cradle-to-Gate Analysis of the Embodied Energy in Lithium Ion Batteries. In: Procedia CIRP, 80, pp. 304-309, DOI: 10.1016/j.procir.2019.01.099 .

Thomitzek, M.; Von Drachenfels, N.; Cerdas, F.; Herrmann, C.; Thiede, S. (2019): Simulation-based assessment of the energy demand in battery cell manufacturing. In: Procedia CIRP, 80, pp. 126-131, DOI: 10.1016/j.procir.2019.01.097 .

Titscher, P.; Helmers, L.; Diener, A.; Kwade, A. (2019): Deposition of Zinc Species in 3D Structured Zinc Anodes in Nonstirred Alkaline Systems Observed by X‐Ray Micro Tomography. In: Energy Technology, DOI: 10.1002/ente.201900234 .

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