Gesamtprogramm Parallelsessions und Posterausstellung

1. Parallelsessions

Hier finden Sie alle Vorträge. Suchen Sie komfortabel nach einzelnen Vortragenden oder Sessions und drucken Sie sich ein entsprechendes PDF-Dokument.
Bitte beachten Sie die unten stehende Tabelle mit allen wissenschaftlichen Postern.

14:001AAgeing of Lithium-Ion-Batteries Under the Influence of Periodic High Frequency Current Ripple Due to DC/DC-ConvertersPablo Korth Pereira FerrazTechnische Universität Berlin
14:201AAging of Lithium Ion Batteries – Detecting Gas Evolution with In-Operando Mass SpectrometryDr. Ulriika MattinenRoyal Institute of Technology (KTH)
14:401ASystematic Investigation of Mechanical Aging of High Energy Lithium-Ion BatteriesLisa WillenbergISEA, RWTH Aachen University
15:001AUnderstanding the different aging trends of usable capacity and mobile Li capacity in Li-ion cellsBjörn RumbergVolkswagen AG
15:201ADegredation path dependency in Lithium-Ion batteries for electric vehiclesMiss Trishna RajUniversity of Oxford
14:001BComparing thermal runaway of automotive Li-ion batteriesDipl.-Ing. Andrej GolubkovKompetenzzentrum - Das virtuelle Fahrzeug, Forschungsgesellschaft mbH
14:201BInvestigation of significant capacity recovery effects due to long rest times during cyclic aging tests in automotive lithium ion cells and their influence on lifetimeM.Sc. Bernd EpdingVolkswagen AG
14:401BRequirements of a High Power 48V Battery System for future xEV ApplicationsUlf StenzelAVL SCHRICK GmbH
15:001BFrontloading for battery development by virtual certification testingRüdiger BeykirchFEV Europa GmbH
15:201BCell Selection and Thermal Management System Design for a 5C Rate Ultrafast Charging Battery ModuleDr. Phillip KollmeyerMcMaster University
14:001CDevelopment of super high ionic conductivity electrolyte for lithium ion batteryYasunori OzawaUniversity of Münster
14:201CNanostructured single-ion conducting polymer electrolytes for safer high-performance lithium batteriesDr. Dominic BresserKarlsruher Institut für Technologie (KIT)
14:401CStructure-Reactivity Relationship of Pyrazole-based Compounds as High Voltage Electrolyte Additives and their Impact on the Overall Performance of Li Ion BatteriesNatascha von AspernForschungszentrum Jülich
15:001CDevelopment and evaluation of synergistic electrolyte additives for high-voltage lithium-ion batteriesArefeh KazzaziHelmholtz Institute Ulm
15:201CQuenching cathode electrolyte interphase on Ni-rich cathode materials for preventing short circuit problem in lithium ion batteryProf. Fu-Ming WangNational Taiwan University of Science and Technology
16:452AElectrode dry-out as origin of accelerated battery aging towards end of life: Modeling and lifetime predictionProf. Dr. Wolfgang BesslerHochschule Offenburg
17:052A3D Simulation of Transport Processes within Lithium-Ion Battery Electrodes Comprising Non-Spherical Active Material ParticlesSusanne CernakKarlsruher Institut für Technologie (KIT)
17:252AComputational models of different complexity for performance simulation of lithium-ion batteriesAdrian SchmidtKarlsruher Institut für Technologie (KIT)
17:452APhysical Parameters of Constrained Li-Ion Pouch CellsM. Sc. Jan SingerUniversität Stuttgart
16:452BA novel methodology for the diagnosis of safety critical lithium-ion batteries states with multi-frequent electrochemical impedance spectroscopy (multi-EIS) and ultrasonics (US)Dr.-Ing. Alexander GitisISEA, RWTH Aachen University
17:052BCell State Determination using Optical Electrode MonitoringValentin RoscherHochschule für Angewandte Wissenschaften Hamburg
17:252BNew method for analyzing ultrasonic based measurements for lithium-ion batteriesSebastian LudwigTechnische Universität München
17:452BUltrasonic Probing of Lithium-Ion Batteries – a new Concept for State of Charge EstimationLukas GoldFraunhofer Institute for Silicate Research ISC
16:452CLarge-scale flow battery as electrical energy storage system of a multifunctional hybrid compensatorJan GirschikFraunhofer-Institut für Umwelt-, Sicherheits- und Energietechnik UMSICHT
17:052CSafety and ageing issues in lithium-ion home storage systemsStephan LuxFraunhofer Institut ISE
17:252CPV Home Storage Systems: Evaluation of 6 Years KfW Subsidy Program in GermanyM.Sc. Jan FiggenerISEA, RWTH Aachen University
17:452CBattery Education at TH IngolstadtFabian StegerTechnische Hochschule Ingolstadt
12:553AOnline Aging Determination with Dissipative Balancing CircuitsIlya ZilbermanTechnical University of Munich
13:153AOnline Lithium ion capacity and impedance diagnostic by tracking and modelling incremental capacity curvesDr. Mikel OyarbideCIDETEC Energy Storage
13:353ADevelopment of optimal fast-charging strategies using a validated cell modelDr. Michael SchönleberBatemo GmbH
13:553AComparative analysis of CCCV and pulse-charging routines for li-ion batteriesMichael DipponKarlsruhe Institut of Technology (KIT)
14:153AThe Effects of Thermal Gradients in Automotive Battery Packs Balancing StrategyEmma VendolaImperial College London
12:553BCross-Talk Between Transition Metal Cathode and Li Metal Anode – Unraveling its Influence on the Deposition/Dissolution Behavior and Morphology of LithiumJohannes BetzMEET - Münster Electrochemical Energy Technology, WWU Münster
13:153BUnderstanding the role of polymeric binders in water based Lithium ion electrodesRonald GordonKarlsruhe Institute of Technology (KIT)
13:353BSpecific energy and fast-charging capability of commercial Li-ion cells of the new 21700 formatDr.rer.nat. Thomas WaldmannZentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW)
13:553BA new high energy density pouch cell that operates at low-temperature conditions (<-40 °C)Prof. Filippos FarmakisDemocritus University of Thrace
14:153BPrediction of Calendric Aging Behavior of Lithium-Ion BatteriesBjörn KleinsteinbergISEA RWTH Aachen
12:553CRecent developments for Lithium-Sulfur prototype cellsDr. Susanne DoerflerFraunhofer IWS
13:153CSodium Metal Anodes: Plating/Stripping behaviour and SEI formationDipl.-Ing. Magdalena MandlHelmholtz Institut Ulm (HIU), Karlsruher Institut für Technologie (KIT)
13:353CApplication of Ionic Liquids as (Co-)Solvents in Electrolytes for High Voltage Magnesium BatteriesVerena KüpersMEET - Münster Electrochemical Energy Technology, WWU Münster
13:553CScreening of deep-eutectic-solvent electrolytes for the aluminium-ion batteryWilli PetersDechema-Forschungsinstitut
14:153CA new approach to ultracapacitor/battery hybrid energy storage solutionsDr. Sebastian PohlmannSkeleton Technologies GmbH
15:204AInvestigation of capacity and homogeneity recovery of commercial cells after cycle life testsDr. Meinert LewerenzTechnische Hochschule Ingolstadt
15:404AModeling solid-electrolyte interphase formation on silicon interfacesLars von KolzenbergInstitute of Engineering Thermodynamics, German Aerospace Center
16:004AElectrode porosity – how does it influence electric cell behaviour?Christiane RaheForschungszentrum Jülich
16:204AA new perspective on interphase formation in Li-ion batteries by simultaneous EIS and EQCM-DPaul KitzPaul Scherrer Institut
16:404ARevealing the Network of Reactions in LIB Electrolytes By In Situ and Ex Situ NMR TechniquesDr. Simon Wiemers-MeyerMEET Battery Research Center, University of Münster
15:204BExperimental investigation of reaction and temperature behaviour of large lithium-ion cells during thermal propagationDaniel BecherZentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW)
15:404BCapability of lithium-ion cells to deliver constant power at high loadsChristoph NeblTechnische Hochschule Ingolstadt
16:004BSafety assessment of traction battery systems regarding mechanical loadsDr. Martin SchwabAVL List GmbH
16:204BThe relationship between cell heat generation rate and operating temperature: determination and importance to battery management systemsDr. Alastair HalesImperial College London
16:404BInfluence of temperature and cell balancing on NMC111's observed capacity fade during high voltage operationProf. Göran LindberghKTH Royal Institute of Technology
15:204CFrom Cells to Systems – Automated Contacting of Battery Cells using Laser Beam WeldingSören HollatzFraunhofer Institut für Lasertechnik ILT
15:404CData mining in lithium-ion battery cell productionM.Sc. Anna KollendaTechnische Universität München
16:004CDispersion and Coating Strategies for innovative electrodes for LIBDr. Alice HoffmannZSW - Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg
16:204CLaser perforation as a structuring concept for high-capacity electrodesSophie Sachse
Maher Kouli
Technische Universität Braunschweig
16:404CAPPtec – a new generation of spray pyrolysis technology to produce advanced battery materialsDr. Thomas JähnertGlatt Ingenieurtechnik GmbH

2. Posterausstellung

P1-01Thermal Runaway Propagation Testing in Lithium-Ion Batteries: Aspects of a Round Robin testDr. Alexander Börger
Nils Wolter
Volkswagen AG
P1-02Capability of lithium-ion cells to deliver constant power at high loadsFrank Kotzur
Christoph Nebl, Hans-Georg Schweiger
Technische Hochschule Ingolstadt
P1-03Algorithm for Online EIS Measurements and Parameter EstimationMatthias KuipersRWTH Aachen
P1-04A development approach to the optimization of future battery pack designs taking into account crash behavior, volumetric energy density and producibility.Roland UerlichTechnische Universität Braunschweig
P1-05Ageing of commercial Li-ion batteries at low temperatures – diagnostic tools and safety aspectsDr. Ing. Preben J. S. Vie
Torleif Lian, Jan Petter Mæhlen, Sissel Forseth, Hanne Flåten Andersen
Institute for Energy Technology
P1-06Targeted oxidation of a copper connector for contacting battery cells - curse or blessing?Johanna Helm
Nils Cöppikus, Sören Hollatz, André Häusler, Dr. Alexander Olowinsky, Dr. Arnold Gillner
Fraunhofer-Institut für Lasertechnik ILT
P1-07Method to quantify the performance of lifetime models for lithium-ion batteriesM. Sc. Felix Hildenbrand
Yicheng Lin, Dirk Uwe Sauer
RWTH Aachen University
P1-08In-operando equipment condition monitoring of lithium-ion-cells by fiber optical sensor systemsM.Sc. Alexander Gräfenstein
Gräfenstein, A.; Schwenzel, J. (Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM); Nedjalkov, A.; Meyer, J.; Kelb, C. (Fraunhofer Heinrich Hertz Institute HHI )
Fraunhofer-Institut für Fertigungstechnik und Angewandte Materialforschung IFAM
P1-10Understanding the impact of Vibrations on Lithium-Ion CellsPhilipp Berg
Andreas Jossen
Technical University of Munich (TUM)
P1-11Simulation-assisted development of characteristic maps for the design of thermal management of lithium-ion batteriesDominic J. Becker
A. Düll, D. Oehler, Th. Wetzel
P1-12Influence of microstructure parameters on the multi-physical transport processes and the performance of Li-ion cellsPhilipp Seegert
M. Luge, D. Schanbacher, O. Queisser, Th. Wetzel
P1-13Influence of inhomogeneous temperature distribution on cyclic degradation of Li-ion cellsSabine Paarmann
Daniel Werner, Thomas Wetzel
P1-14An experimental approach to investigate inhomogeneous ageing in Li-ion battery electrodesSaeed Yari
J. Baccus 1 , M.K. Van Bael 1,2,3 , F. Renner 1,2 , A. Hardy 1,2,3, M. Safari 1,2,3
Hasselt University
P1-15Comparative Study of Parameter Identification Methods of a Lithium-ion Cell Model in Frequency and Time DomainM. Sc. Weihan Li
Dominik Jöst, Nico Manteuffel, Decheng Cao, Dirk Uwe Sauer
Institut für Stromrichter und elektrische Antriebe (ISEA), RWTH Aachen
P1-16Design measures to increase the safety of batteries - Passive and active measures for use in electric vehiclesFilip VysoudilTechnische Universität Braunschweig
P1-17Thermal Analysis Supporting Robust Designing of a Modular 24 - 48 V Lithium-Ion Battery SystemGerd Liebig
Ulf Kirstein, Frank Schuldt, Karsten von Maydell, Carsten Agert
DLR-Institut für Vernetzte Energiesysteme
P1-18Accelerated Aging Characterization of Lithium-ion Cells in Automotive Applications: Development of an Appropriate Reference Cycle for Realistic Cell AgingTanja Gewald
Alexander Hahn, Markus Lienkamp
Technische Universität München
P1-20Non-equilibrium thermodynamic battery models and their transport kineticsMaya StrautmannRWTH Aachen
P1-21Influence of mechanical pressure on lithium-ion-cell safety behaviorFabian Ebert
Martin Knieling, Gerhard Sextl, Markus Lienkamp
Fraunhofer ISC/TU München
P1-22Analysis of electric vehicle battery system design and production technology compatibility with regard to updated battery cellsHendrik Löbberding
Heiner Heimes, Achim Kampker, Saskia Wessel
RWTH Aachen University
P1-23Change of gas pressure inside prismatic lithium ion cells during agingJulius Schmitt
Jan Philipp Schmidt (BMW AG), Benjamin Kraft (VARTA Storage GmbH), Goran Keser (Infineon Technologies AG), Andreas Jossen (Technical University Munich, Institute for Electrical Energy Storage Technology)
Technical University Munich
P1-24Scaling up the confidence into lifetime prediction models for lithium-ion batteriesElias Maximilian Barbers
Friedrich Emanuel Hust, Felix Hildenbrand, Yicheng Lin, Dirk Uwe Sauer
RWTH University
P1-25A model-based approach to study the microstructural inhomogeneity in the porous-electrodes of lithium-ion batteriesHamid Hamed
Vortrag / Lecture
Hasselt University
P1-26Quantitative validation of calendar aging modelsSeverin HahnDaimler AG
P1-27Cell thermal performance evaluation for heavy duty applications cell selectionDr. Laura Bravo Diaz
Yan Zhao, Alastair Hales, Yatish Patel, Gregory Offer
Imperial College London
P1-28SOC estimation and performance optimization of battery charge equalization systemsDr. Weiji HanChalmers University of Technology
P1-29Degradation Mechanisms of NMC Li-ion Batteries Unraveled by Non-destructive and Post-mortem MethodsDr. Dongjiang Li
Dmitri Danilov and Peter H. L. Notten
Forschungszentrum Jülich
P1-32Online capacity estimation of lithium-ion batteries with random forest regressionYi LiChemistry Department, Lancaster University
P1-33Feature Recognition for Battery State of Health PrognosisMr Sam Greenbank
Prof. David Howey
Department of Engineering, University of Oxford
P1-34Modeling of Lead-Acid Battery Grid Geometry by Comsol MultiphysicsTugce Isler
Serdar Gul, Muhsin Mazman
Mutlu Battery
P1-35Study of Ah-counting method for onboard capacity estimation on battery packsAndrea Marongiu
Izaro Laresgoiti, Michele Caggiano
FEV Italia
P1-36Advanced filtering for Incremental Capacity Analyses (ICA) applied to various lithium ion batteriesJens Grabow
Lennart Beushausen, Dr. Ralf Benger
TU Clausthal
P1-37Universal Modelling Approach for Electrochemical Storage Units on System LevelPaul Dicke
Dr. Frank Steinbacher, Barbara Schricker, Prof. Dr. Reinhard German
Friedrich-Alexander Universität (FAU) Erlangen-Nürnberg
P1-38Thermo-electrochemical modeling of a commercial high-power lithium-ion pouch cell with blend cathodeMichael Quarti
Serena Carelli, Manik Mayur, Mehmet Yagci, Wolfgang G. Bessler
Offenburg University of Applied Sciences
P1-39Influence of local temperature gradients on the current deviation in a 1s2p-system.Markus Schindler
Vincent Matthias Elbel, Andreas Jossen (Technische Universität München, Lehrstuhl EES)
Technical University Munich
P1-40Modelling all-solid-state Lithium batteriesLuc Raijmakers
D.L. Danilov and P.H.L. Notten
Forschungszentrum Jülich
P1-41Lithium-ion cell requirements in a real-world 48V-system and implications for an extensive aging analysisThomas BankRWTH Aachen
P1-42The Design, Development and Implementation of a 14.4V, 50Ah Lithium-Ion Start-Stop BatteryMs Francis le RouxNelson Mandela University
P1-43Actively controlled cell press as representative test setup for lithium-ion battery agingTobias Deich
Tobias Deich, Svenja Both, Andreas Bund, Kai Peter Birke
Daimler AG
P1-44Analysis of SoC-based Power Flow Control Strategies in Heterogeneous Battery Energy Storage SystemsMarkus Mühlbauer
Prof. Dr.-Ing. Michael Danzer, Prof. Dr.-Ing. Oliver Bohlen
Hochschule für angewandte Wissenschaften München
P1-46Experimental validation of a physical energy management system to increase revenue and lifetime of grid-connected li-ion batteriesMsc Jorn Reniers
Grietus Mulder, David Howey
University of Oxford
P1-47Large Grid Forming Inverters with Solar-PV and Wind as power sources for Public Power GridsAndreas Falk
Oliver Schoemann, Christian Hardt
SMA Solar Technology AG
P1-48Machine learning based state of health estimation for lithium-ion batteries in electric vehiclesTim BenderInstitute for Combustion Engines VKA
P1-49Cell State Determination using Optical Electrode MonitoringValentin Roscher
Florian Rittweger, Karl-Ragmar Riemschneider
Hochschule für Angewandte Wissenschaften Hamburg
P1-50Electrolyte decomposition and thickness change in LiC-S full cells and Na-HC half cellsJan Petit
Markus Hagen,Martin Joos,MichaelAbert, Jens Tübke
Fraunhofer Institute for Chemical Technology (ICT)
P2-01Impact of Tetrahydrothiophene 1-Oxide as Co-Solvent in Cyclic Carbonate-Based Electrolytes on the Overall Performance of Lithium-Ion BatteriesKristina Oldiges
Natascha von Aspern, Mariano Grünebaum, Isidora Cekic-Laskovic, Gunther Brunklaus, Martin Winter
Helmholtz-Institut Münster
P2-02Balancing of three silicon-based anode systems with NCM cathodes for lithium ion cells with high volumetric energy densitiesDr. rer. nat. Susanne Dörfler
Anne Baasner, Florian Reuter, Andreas Krause, Benjamin Schumm, Holger Althues, Stefan Kaskel
Fraunhofer IWS
P2-03Investigations of Silicon-based Prototype Pouch CellsM. Sc. Felix Aupperle
Egbert Figgemeier
Helmholtz Institut Münster
P2-04Large Area and Multimodal Study of Li-Ion Batteries with New In-Situ TechnologiesDipl. Ing. Stefanie FreitagCarl ZEISS Microscopy GmbH
P2-05Mixing processes for solvent-free production of LIB anodes and cathodes by electrostatic applicationGerrit Schälicke
Dinter, A.; Pettinger, K-H. (Hochschule Landshut, Technologiezentrum Energie); Landwehr, I. (Fraunhofer-Institut für Produktionstechnik und Automatisierung); Kwade, A. (Technische Universität Carolo-Wilhelmina zu Braunschweig, Battery LabFactory Braunschweig (BLB) c/o Institut für Partikeltechnik)
Technische Universität Braunschweig
P2-06Lithium Ion Battery plating detection during chargingJulian MarscheiderTechnische Universität Berlin
P2-07Degradation effects and ageing phenomena in commercial cylindrical lithium-ion batteries for stationary applications – a post mortem study after long-term cycling (>7000 cycles ) with moderate c-ratesM.Sc. Christian Weisenberger
Andreas Kopp, Volker Knoblauch, David K. Harrison, Sebastian Röhler, Betina Meir, Alexander Hirnet, Benjamin Kraft
Hochschule Aalen
P2-08Modeling lithium-ion batteries with the open-source software tool CANTERADr. Manik MayurOffenburg University of Applied Sciences
P2-09Calculation Method and Bench Concept for Cell Swelling Analysis of Lithium-Ion-Pouch-CellsDr. Markus Einhorn
Alexander Leinenbach, Enerji Cavus, Mustafa Yilik
Bertrandt Technologie GmbH
P2-10Lifetime Analysis of Lithium-Ion Batteries by combining Pulse- and Impedance Spectroscopy MeasurementsMichael Weiss
Ellen Ivers-Tiffée
Karlsruhe Institute of Technology (KIT)
P2-11Safety improvement of Li-ion battery by using novel low-flammable electrolytes and reactive flame-retardantsZhengqi Wang
Andreas Hofmann and Thomas Hanemann
Karlsruher Institut für Technologie
P2-12Electrolyte additives for LNMO based Li-ion cellsWiss. MA Andreas HofmannKarlsruher Institut für Technologie
P2-13Development of super high ionic conductivity electrolyte for lithium ion secondary batteryDr. Naoki Matsuoka
Dr. Yasunori Ozawa (MEET, Uni Münster), Dr. Falko Mark Schappacher, (MEET, Uni Münster), Prof. Dr. Martin Winter (MEET, Uni Münster)
Asahi Kasei Corporation
P2-14Impedance spectroscopy for bracing investigations of automotive pouch-cellsM.Sc. Martin WünschVolkswagen AG
P2-15A continuous Synthesis Process of Spherical Precursor Particles for Ni-Rich Cathode Materials by a Couette-Taylor Flow Reactor (CTFR)Dr.-Ing. Vassilios Siozios
Marcel Heidbüchel, Richard Schmuch, Martin Winter, Tobias Placke
MEET - Münster Electrochemical Energy Technology, WWU Münster
P2-16Quantification of potentially toxic Phosporus-based decomposition products in Lithium Ion battery electrolytesJonas HenschelMEET - Münster Electrochemical Energy Technology, WWU Münster
P2-17A versatile setup for the electrochemical characterization of materials developed for energy devicesStefan SpannenbergerRHD Instruments GmbH & Co. KG
P2-18Li/Mn-rich layered transition-metal oxides as high-energy cathode materials for lithium ion batteriesJonathan Helbig
Richard Schmuch, Verena Naber, Martin Winter, Tobias Placke
MEET - Münster Electrochemical Energy Technology, WWU Münster
P2-19Advanced Polypropylene Separators for Li-Ion BatteriesFranz Josef Kruger
Dr. Bertram Schmitz; Thilo Mohr
Treofan GmbH & Co. KG
P2-20Overcoming obstacles in the aqueous processing of high energy-density cathode materialsMichael Hofmann
C. Piesold, A. Buckel, M. Kapuschinski, U. Guntow, G. A. Giffin
Fraunhofer Institute for Silicate Research ISC
P2-21Development of an Extrusion-Based Coating Process for High-Energy Li-Ion BatteriesJann Seeba
S. Reuber, C. Heubner, S. Börner, M. Wolter, A. Michaelis
Fraunhofer IKTS
P2-22Influencing Parameters on Nail Penetration Test of Lithium Ion Batteries – Method Development and ApplicationStefan DooseInstitute for Particle Technologie & Battery LabFactory, Technische Universität Braunschweig
P2-23Microstructural improvements in ultra-thick NMC 622 cathodes for high energy Li-ion batteriesLea Sophie Kremer
S. Hein, D. Westhoff, T. Danner, Benedikt Prifling, C. Dreer, A. Hoffmann, A. Latz, V. Schmidt, M. Wohlfahrt-Mehrens
ZSW - Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg
P2-24Study of the electrochemical performance and life cycle of Lithium-ion battery cells by applying a homogeneous external pressureVerena MüllerZSW Zentrum für Sonnenenergie- und Wasserstoff-Forschung
P2-25Innovative conductor materials as current collectors in pouch cells - Process analysis of electrode production from expanded metal grids and metal foamsMario Kehrer
A.Kampker, H.Heimes, U. Reisgen, I.Balz
eLab / Anlauffabrik, RWTH Aachen
P2-26Multiscale Modeling of SEI Formation in Lithium-Ion BatteriesFridolin Röder
Prof. Dr.-Ing. Ulrike Krewer
TU Braunschweig
P2-27Amorphous Silicon Nitride - an Anode Material for the Next Generation Li-ion BatteriesCarl Erik Foss
Hanne Flåten Andersen, Asbjørn Ulvestad, Alexey Y. Koposov, Marte O. Skare, Thomas J. Preston, Jan Petter Mæhlen
Institutt for Energiteknologi (IFE)
P2-28GD-OES depth profiling for discovery of aging mechanisms in Post-Mortem analysis - the case of Si/C anodesKarsten Richter
Thomas Waldmann, Michaela Memm, Michael Kasper, Margret Wohlfahrt-Mehrens
Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW)
P2-29Capacity distribution of large lithium-ion battery pouch cells in context with the reproducibility of the BLB cell productionLouisa HoffmannTechnische Universität Braunschweig
P2-30Polymerized Ionic Liquids for Solid-State Electrolyte MembranesRobert Löwe
Thomas Hanemann, Andreas Hofmann
Karlsruhe Institute of Technology
P2-31Determination of the electrode porosity: A comparative study for positive electrodes based on LiNi0.6Mn0.2Co0.2O2Thomas Beuse
M. Börner, P. Niehoff, F.M. Schappacher, M. Winter
MEET Batterieforschungszentrum
P2-32Effects of aqueous processing of NMC622 materials on the performance of Lithium ion batteriesXiaofei Yang
Marcel Diehl, Philip Niehoff, Falko M. Schappacher, Martin Winter
MEET Battery Research Center
P2-33Laser modified cathodes for lithium-ion batteries with improved rate capabilityProf. Dr. Volker Knoblauch
Marius Bolsinger, Manuel Weller, Simon Ruck, Harald Riegel
Aalen University of Applied Sciences, Materials Research Institute
P2-34Processing and characterization of composite electrodes with plastic crystal polymer electrolyteArnaud du Baret de Limé
Matthias Coeler, Vanessa van Laack, Sebastian Reuber, Katharina Koschek, Frederieke Langer, Mareike Wolter, Alexander Michaelis
Fraunhofer IKTS
P2-35Polymer electrolytes for solid battery concepts – correlation between material and electrochemical propertiesM.Sc. Vanessa van Laack
Frederieke Langer, Oldenburg/DE, Katharina Koschek, Bremen/DE, Julian Schwenzel, Oldenburg/DE
Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM
P2-36Modeling Cause-Effect Relations in Battery Production and Their Impact on Lithium-Ion Battery PerformanceMatthias Thomitzek
O. Schmidt, V. Laue, F. Röder, S. Thiede, U. Krewer, C. Herrmann
TU Braunschweig
P2-37Reducing Lithium Plating by Laser Structuring of Graphite AnodesJohannes KrieglerTechnische Universität München
P2-38Scalable processing of polymer solid electrolytes for all-solid-state multifunctional batteries and their subsequent characterizationsDr. -Ing. Guangyue Liao
Laura Helmers, Linus Froböse, Arno Kwade
Institute for Particle Technology, Technical University Braunschweig
P2-39Smart Battery Measurement Data Evaluation and OrganisationDr. Markus HagenFraunhofer Institut für Chemische Technologie
P2-40MEEP based composite electrolytesMarija Hoffmeyer
Dr. Kerstin Neuhaus, Prof. Hans-Dieter Wiemhöfer
Westfälische Wilhelms-University of Münster
P2-41Investigation of structural and electrical behaviour of Lithium-Ion-Batteries in mechanical abuse casesMarkus Spielbauer
Prof. Dr.-Ing. O. Bohlen, Prof. Dr.-Ing. A. Jossen
Hochschule München
P2-42Rheologically and electrochemically optimized Si/C blended Graphite slurries for 3D-printed Lithium-Ion BatteriesM.Sc. Mathias Drews
Peter Haberzettl, Sebastian Tepner, Harald Gentischer, Daniel Biro (Fraunhofer Institute for Solar Energy Systems ISE, Heidenhofstraße 2, 79110 Freiburg im Breisgau, Germany) and Roland Zengerle (Chair of Application Development, Institute for Micro System Technology (IMTEK), University of Freiburg, Georges-Köhler-Allee 103, 79110 Freiburg im Breisgau, Germany)
Fraunhofer ISE
P2-43Optimizing the Process of Sheet-type All Solid-State Lithium-Ion Batteries Based on Sulfide Electrolyte MaterialsRuoheng Sun
Peter Michalowski, Sabrina Zellmer, Wolfgang Haselrieder, Arno Kwade
TU Braunschweig
P2-44Impact of Particle Size Distribution on Performance and Aging of Lithium-Ion BatteriesLars Bläubaum
Christine Novak, Fridolin Röder, Arno Kwade, Ulrike Krewer
TU Braunschweig
P2-45Importance of Measuring the Electrolyte Wetting Degree for Upscaling Lithium-Ion Battery ProductionFlorian J. Günter
Fabian Konwitschny, Gunter Reinhart
Technische Universität München
P2-46Study of additives for high temperature graphitization and subsequent analysis of graphite anode performance in lithium ion batteriesVanessa Hanhart
Martin Winter, Tobias Placke
MEET Battery Research Center Münster
P2-48Thermal requirements for high-voltage battery systems in electric vehicles occurring due to high-performance charging and evaluation of possible cooling conceptsDennis Gallus
Robert Stanek
P3 automotive GmbH
P2-49Analysis and comparison of formation process of graphite and Si-C composite based anodes in lithium ion cellsDipl-Ing. Mingzhe Han
Christian Peter, Sebastian Reuber, Stefan Börner, Beate Caparo, Mareike Wolter, Alexander Michaelis
Fraunhofer IKTS
P2-50Investigation of the surface of plated lithium-ion batteries using a Dual BeamM.Sc. André WinkTechnische Universität Berlin
P2-51Determination of thermal transport properties for electrodes of lithium-ion cellsDieter Oehler
Huitian Yu, Sabrina Herberger, Dominic Becker, Thomas Wetzel
Karlsruhe Institute of Technology (KIT)
P2-52Parametrization and validation of an electrochemical-thermal model for a NMC lithium-ion batterySophia MatthiesTechnische Universität Berlin
P2-53Correlation of capacity fade and charging currents keeping the voltage constant for different cell types and SOCsDr. Meinert Lewerenz
Lidiya Komsiyska, Ulrich Vögele, Christian Endisch
Technische Hochschule Ingolstadt
P2-54Tailoring the ion transport of polymer electrolytes from green materialsChristian Krause
Li-Min Kuo, Gunther Brunklaus, Martin Winter
MEET Battery Research Center
P2-55Fluorinated polysulfonamide based single ion conducting room temperature applicable gel-type polymer electrolytes for lithium ion batteriesKristina BorzutzkiForschungszentrum Jülich (IEK-12)
P2-56Characterization of a polyethylene oxide based composite cathode with Impedance spectroscopy, cycling tests and Atomic Force MicroscopyBritta Tessmer
Dr. Kerstin Neuhaus, Annika Buchheit, Prof. Hans-Dieter Wiemhöfer
Westfälische Wilhelms-University of Münster
P2-57Comprehensive characterization of battery cathodes by FIB-SEM tomography and 3D data analysis techniquesJulian Szász
Laura Almar, Jochen Joos, Ellen Ivers-Tiffée
Karlsruher Institut für Technologie (KIT)
P2-58Systematic Optimization of the Electrolyte Composition – Towards High Temperature Lithium Ion BatteriesBastian Heidrich
M. Börner, S. Nowak, F. M. Schappacher, M. Winter
Westfälische Wilhelms-Universität Münster
P2-59Low-temperature electrolytes for high energy density Li-ion batteriesSubburaj Thiruvengadam
F. Farmakis, K. Elmasides, D. Tsiplakides, S. Balomenou, M. Nestoridi
Democritus University of Thrace
P2-60Fast charging Li-ion batteries based on a HV-spinel cathodeJannes Ophey
Reinhard Mörtel, Christan Werlich
Fraunhofer Insitut für Siliziumtechnologie ISIT
P2-61Carbon nanotubes/graphene composites treated by nitrogen-plasma and covered by porous cobalt oxide through galvanostatic electrodeposition as well as annealing for anode materials of lithium-ion batteriesProfessor Chuen-Chang Lin
An-Na Wu, Shun-Hong Jiang
National Yunlin University of Science and Technology
P2-62Tailoring the microstructure of electrodes for lithium-ion batteries – experiments and physical based simulationsPaul Jaeckh
Veit Steinbauer, Volker Knoblauch
Aalen University of Applied Sciences, Materials Research Institute
P2-63Investigation of the N-butyl-N-methyl pyrrolidinium trifluoromethanesulfonyl-N-cyanoamide ionic liquid as electrolyte for Li-ion batteryJan-Philipp Hoffknecht
Dr. Elie Paillard
Westfälische Wilhems-Universität Münster
P2-65Operando thermal characterization of future battery materials by isothermal microcalorimetryDr. Alexander Hoefling
Jakob Asenbauer, Dominic Bresser, Jens Tübke
Helmholtz Institute Ulm (HIU)
P3-01Integral battery architecture with clamped cylindrical cells as structural elementsChristoph BolsingerIPV, University of Stuttgart
P3-02Modular Toolbox for Battery HousingsNils Neumann
Andrea Tuksa, voestalpine AG
fka GmbH
P3-06Usability of Lithium-Sulfur Batteries in Automotive ApplicationsDaniel Brieske
Alexander Warnecke, Dirk Uwe Sauer
P3-07Electrical, Thermal and Aging Model of High-Energy Lithium-Ion Battery Pack for Simulation of V2G scenariosIlka Schoeneberger
Fabian Rücker, Jan Figgener, Sven Jakobowski, Dirk Uwe Sauer
RWTH Aachen University
P3-08Interoperability of 400V / 800V charging systems for BEVsDr. Sebastian Wetzeler
Nico Manteuffel (ISEA RWTH, JARA, PGS), Dr. Ulrich Eitner, Dr. Dominik Schledde, Dr. Mirco Küpper, Dr. Michael Stapelbroek (FEV)
FEV Europe GmbH
P3-09An overview of 12V and 48V Lithium-Ion and Lead-Acid Battery Applications in Automotive IndustrySerdar Gul
Tugce Isler, Muhsin Mazman
Mutlu Battery
P3-10Comparative Analysis of Different Optimisation Approaches for the Energy Management of a Simulated Hybrid Train Powered by Batteries and Fuel CellsCem Ünlübayir
Thomas Nemeth, Fabian Meishner, Dirk Uwe Sauer
Institut für Stromrichtertechnik und Elektrische Antriebe der RWTH Aachen University
P3-11Battery challenges and opportunities for a passenger trainPatrick HeiningerVDE Verband der Elektrotechnik Elektronik Informationstechnik e.V.
P3-13Fast-charging 3D Li-ion battery architecture: Showcasing ultra-thin LiPON and high-capacity electrodes using large area atmospheric pressure spatial ALDDr. Bihag Anothumakkool
Dr. Mahmoud Ameen, Lucas Haverkate, Fatima Zorro, Frank Grob, Andrea Bracesco, Dorothee Hermes, Sepideh Del, Fred Roozeboom and Sandeep Unnikrishnan
TNO-Holst Centre
P3-14User-oriented requirement analysis of electric vehicle batteries for the Chinese and German marketMoritz Beyer
Tingni Xu, Peter Burggräf,  Achim Kampker, Heiner Heimes, Matthias Dannapfel, Saskia Wessel
Werkzeugmaschinenlabor WZL der RWTH Aachen
P3-15Advanced Battery Engineering – 12V and 48V Battery in-vehicle ApplicationsRenhao Xie
Markus Hoh, Jörn Albers
Johnson Controls Autobatterie GmbH & Co.KGaA,
P4-01π-π-Interactions in Redox Polymers – Enabling High Cycling Stabilities for Polymeric Cathode-Active Materials in Li/Organic BatteriesMartin Kolek
Fabian Otteny, Jens Becking, Birgit Esser, Martin Winter, Peter Maria Bieker
MEET - Münster Electrochemical Energy Technology
P4-03A Novel Reference Electrode for Sodium Ion Batteries for in-situ Impedance AnalysisFabian Linsenmann
Daniel Pritzl, Hubert A. Gasteiger
Technische Universität München
P4-04Chemical modification of lithium powder electrodes for higher capacity utilization in LMB´sAleksei KolesnikovMEET - Münster Electrochemical Energy Technology, WWU Münster
P4-05Influence of nitrogen-doped carbon on sulfur to lithium sulfide conversion and by using reduced polysulfide solubilityChristian Kensy
Christine Weller, Paul Härtel, Susanne Dörfler, Holger Althues, Stefan Kaskel
Fraunhofer Institute for Material and Beam Technology (IWS) Dresden
P4-07Lithium-Metal Foil Surface Modification: Investigations of Scanning Electrochemical MicroscopyM.Sc. Bastian Krueger
Jan Frederik Dohmann, Martin Winter, Peter Bieker, Gunther Wittstock
Carl von Ossietzky University of Oldenburg
P4-08Investigations of in vivo alloyed Li-metal surfaces by using a LiTFSI/MgTFSI2-containing Polymer ElectrolyteMengyi ZhangUniversity of Münster
P4-09Development of a novel AAO based and functionalized separator for the use in lithium-sulfur batteries with 3D metal foam electrodesAnne Wengel
Christoph Kiesl, Joanna Komorowska, Sandra Meinhard, Timo Sörgel
Aalen University
P4-10A novel lithium/sulfur semi flow battery concept based on highly structured cobalt-coated aluminum alloy carrier particlesDr. Sandra Meinhard
Benjamin Streipert, Oliver Kesten, Sebastian Pohl, David Buehlmeyer, Mirko J. Ante, ?eniz Soergel, Timo Soergel
Aalen University, Research Institute for Innovative Surfaces (FINO)
P4-11Kinetics of Al-ion intercalation in carbon-xerogel and stripping/deposition on commercial Al-alloys for the Al-ion batteryMartin Eckert
B. Rana, J.-F. Drillet
P4-12Hierarchical Nanocages Anchoring Polysulfides in Lithium-Sulfur BatteriesLei Zhou
R.-A. Eichel and P.H.L. Notten
Forschungszentrum Juelich
P4-13Thio-LiSICON composite electrolyte and Sulfurized Polyacrylonitrile cathode enabled safe and durable all solid state Li-S batteryMeirong Li
Martin Winter, Peter Bieker
University Münster
P4-14Optimization of Poly(3-Vinyl-N-Methylphenothiazine)-Based Rechargeable Li/Organic BatteriesVerena Perner
Fabian Otteny, Birgit Esser, Peter Bieker, Martin Winter, Martin Kolek
University of Münster
P4-15Metal-organic Framework as Novel Anion Storage MaterialDr. Simon Dühnen
Roman Nölle, Jens Wrogemann, Martin Winter, Tobias Placke
University of Münster
P4-16Ionic Liquid-based Electrolytes for a safer future of Lithium/Oxygen BatteriesM. Sc. Jan Frederik Dohmann
Martin Winter, Peter Bieker
University of Münster
P4-17Mechanics of Ion Insertion: A Comparison of LiFePO4 and NaFePO4Manfred Janzen
Dominik Kramer, Reiner Mönig
P4-18Electrospun carbon nanofibers and its derivatives as anode materials for lithium- and sodium-ion batteriesXinyang LiuKarlsruhe Institute of Technology
P4-19Method for Improved Interfaces of Micro Patterned Lithium Metal Anodes and Solid Polymer ElectrolytesDominik Liebenau
Sebastian Schmohl, Kirsi Jalkanen, Peter Bieker, Martin Winter, Martin Kolek
Westfälische Wilhelms-Universität
P4-20Kinetics of rechargeable aqueous zinc ion batteriesM.Sc. Christian Bischoff
Oliver Fitz, Harald Gentischer, Daniel Biro, Hans-Martin Henning
Fraunhofer ISE
P5-01A Practical Second Life Application for Aged NMC CellsMurat CeylanGTU / Gebze Technical University
P5-03Composite electroforming: a new method of producing battery cathodes with simplified architecture and improved propertiesProf. Dr. Timo Sörgel
Sandra Meinhard, Oliver Kesten, Anne Wengel, Joanna Komorowska, Benjamin Streipert, A. Katharina Jäger, ?eniz Soergel
Hochschule Aalen
P5-05Highly Productive Industry Compatible Roll-to-Roll Vacuum Process for Deposition of Porous Silicon Thin Film AnodesClaus Luber
Steffen Straach, Nicolas Schiller, Anne Baasner
Fraunhofer FEP
P5-07Identifying the impact of calendering on the subsequent process steps using a new approach to quality assuranceBenjamin Bold
Hannes Weinmann, Prof. Dr.-Ing. Jürgen Fleischer
KIT Karlsruher Institut für Technologie
P5-08APPtec – a new generation of spray pyrolysis technology to produce advanced battery materialsDr. Thomas Jähnert
Dr. Michael Jacob
Glatt Ingenieurtechnik GmbH
P5-09Laser beam joining of copper to aluminum sheet: Analysis of fusion zoneKarthik Mathivanan
Prof. Peter Plapper
University of Luxembourg
P5-10Effect of atmospheric plasma treatment on electrochemical performance of electrodes in energy storage devicesHarald Holeczek
Inga Landwehr
Fraunhofer Institute for Manufacturing Engineering and Automation
P5-11Innovative dry coating process for fabrication of high-load cathodesJannes Ophey
Andreas Würsig
Fraunhofer Institut für Siliziumtechnologie ISIT
P5-13Manufacturing properties of sintered glass-ceramic LLZORolf Samsinger
Jean-Philippe Beaupain, Meike Schneider, Joerg Schuhmacher, Wolfgang Schmidbauer, Andreas Roters, Arno Kwade
Technische Universität Braunschweig, SCHOTT AG Mainz
P5-15Formation kinetics of the solid electrolyte interphase studied for different electrolyte additivesPrince Babbar
Volker Winkler, Fabian Horsthemke, Philip Niehoff, Falko M. Schappacher, M. Winter
MEET Battery Research Center and Institute of Physical Chemistry, Westfälische Wilhelms-Universität Münster
P5-16Experimental investigation of acoustic levitation for handling of electrode and separator sheets in lithium-ion battery assemblyArian Fröhlich
Dennis Nowicki, Ruben Leithoff, Klaus Dröder
Technische Universität Braunschweig
P6-01A multistage concept for the academic and postgrade education in the area of battery cell technologyProf. Robin Vanhaelst
B. Eng. M. Mehnert | M. Eng. C. Kage M. Eng. J. Scheuermann | Cand. B. Eng. J. Hamade | Cand. B. Eng. Ch. Losse
Ostfalia, Hochschule für angewandte Wissenschaften, Campus Wolfsburg
P6-02Development of a vanadium redox flow battery demonstrator for lectures on electrochemical energy storage in under graduate electrical engineering programsJens Pogorzelski
Prof. Dr.-Ing. Tilman Sanders, Prof. Dr. rer. nat. habil. Reinhart Job
Fachhochschule Münster, Fachbereich Elektrotechnik