海报标题

Please note, the deadline to reserve a poster has been extended until 21 December.

  • Advanced Industrial Science and Technology: Electrochemical Performance of Cation Disordered Li Rich Li-Mn-O Material with NaCl Type Structure
  • AKOM Group: AKOM Group - a Way from Accumulator Company to Energy Solution Corporation
  • Bauhaus University Weimar: Application of 2D Materials as Anode Electrodes for Advanced Na or Li Ion-batteries
  • Calix Ltd: Nano-active Electrode Materials
  • CIC Energigune: Cylindrical Graphite/LiFePO4 Commercial Batteries Cycled at High Current Densities Study by Post Mortem Analysis
  • CIC Energigune: Optimization of Carbonaceous Materials and Electrolytes for High-rate Capacitor Applications
  • Cornell University: Analyzing the Influence of Emission Savings on the Purchase of Energy Efficient Vehicles
  • CreativeQuantum GmbH: Recent Achievements of Quantum Chemical Simulations: Material Screenings, Materials Morphology and Dynamics, Artificial Intelligence
  • Dong A University: Effect of Poly-pyrrole Surface Modification of Cathode Active Materials for Na-ion Batteries
  • Dong A University: Effect of Propylene Carbonate as Co-solvent for Improving Low Temperature Performance of Lithium Ion Capacitors
  • Dong A University: Improving Cycle Performance of Ni-rich NCM Positive Electrode Materials by Boron Doping
  • Dong A University: Remove of Residual Li Compounds on Ni-rich NCM(≥80%) by One-pot Treatment Solution
  • Dong A University: Synthesis and Electrochemical Properties of Na[x]Co[y]O[z] Cathode Additives for Na-ion Batteries
  • Dong A University: The Effect of Electrolyte Additives on Performance Improvement of High Voltage EDLC
  • Dong A University: The Study on Size Effect in Layered Structure Cathode Material for Fast Charge in LIBs
  • Empa: E-Dumper: The World's Largest Electric Vehicle
  • Empa: From E-scooters to Solar Power Storage - Second Life for Used Batteries
  • ETH Zurich: Determining the Uncertainty in Lithium Ion Battery Micro-structural Parameters Extracted from Tomographic Data
  • ETH Zurich: Nanoscale Imaging, Quantification, and Modeling of Mechanical Degradation in Lithium-ion Batteries
  • ETH Zurich: Why Separator Pore Space Connectivity Matters for Battery Operation
  • Forge Nano: Manufacturing Low Cost Nano-coatings for High Performance Battery Materials
  • German Aerospace Center (DLR): Development of Carbon Aerogels for Cathodes of Lithium-sulfur Batteries
  • Gnanomat: High Capacitance Hybrid Nanomaterials for Supercapacitors Electrodes
  • Hasselt University: Deep Eutectic Solvents, a Versatile Alternative to Ionic Liquids in Ionogel-like Electrolytes
  • Hasselt University: Versatility of Wet-chemical Synthesis for Lithium Ion Battery Electrode Materials
  • Hitachi Chemical Co Ltd: Investigation of Water Consumption Mechanism of Flooded-type ISS Batteries to Balance with Charge Acceptance
  • Hitachi India: Development of a Combined Battery System to Enhance Its Life for EV
  • Hitachi Metals Europe GmbH: Effect of High Strength Clad Foil on Cycle Life of SiO Anode
  • Hitachi, Ltd.: DC Resistance Analysis Based on Discharge Curve Analysis for Life Prediction of Lithium-Ion Batteries
  • Hitachi, Ltd.: Solid Electrolyte Interphase Formation Model for Lithium-ion Batteries Based on Stem Observations and Discharge Curve Analysis
  • Hochschule Mannheim - University of Applied Sciences: Heat Generation of a Lithium Coin Cell Measured with a DSC-like Battery Calorimeter
  • Ikerlan: EDLC Lifetime Holistic Estimation for Heavy-duty Applications
  • imec: A Novel Solid Nanocomposite Electrolyte for High Performance Batteries
  • Institute of Materials Research and Engineering (A*STAR): High Performance Lithium Sulfur Battery
  • JSR Micro NV: Electrothermal and 3D Thermal Model for Lithium Ion Capacitors
  • Justus-Liebig-University Giessen: Degradation Mechanisms of All-Solid-state Batteries
  • Justus-Liebig-University Giessen: Interfacial and Mechanical Issues in All-Solid-state Batteries
  • Kangwon National University: Amphi-charge Storable Pyropolymers with Hierarchical Pore Structures for Hybrid Supercapacitors
  • Karlsruhe Institute of Technology (KIT): Analyzing the Performance LimitatIons of a Commercial Lithium-Ion Battery by an Impedance Based Cell Model
  • Karlsruhe Institute of Technology (KIT): Intermittent Slot Die Coating for Lithium-Ion-battery-applications
  • Karlsruhe Institute of Technology (KIT): A Two-channel TransmissIon Line Model for a Quantitative Analysis of Li-Ion Battery Electrode Performance
  • Karlsruhe Institute of Technology (KIT): Multilayered Electrodes for Li-Ion Batteries to Reduce Drying Time
  • Karlsruhe Institute of Technology (KIT): Sorption Equilibrium and DiffusIonal Resistance in Compounds of Li-Ion Batteries
  • Karlsruhe Institute of Technology (KIT): Temperature Gradients in Lithium-Ion Batteries Determined by In-situ Electrothermal Impedance Spectroscopy (ETIS)
  • Karlsruhe Institute of Technology (KIT): HiKoMat - Material Design of Hierarchical Structured Composite Materials for Electrochemical Energy Storage
  • Kompetenzzentrum Das virtuelle Fahrzeug Forschungs-GmbH: Experiments to Compare Different Triggers of Thermal-runaway
  • Kyungpook National University: Influence of the Weight Ratio Between Cathode Conductive and Binder Materials on the Capacity of Li-Ion Batteries
  • MANN+HUMMEL GMBH: Protection of High-voltage Battery Systems Against Water Ingress and Condensation
  • Materials Design s.a.r.l.: Progressing the Design of Materials for All-Solid State Batteries Through Atomic-scale Modeling
  • Mitsui Mining & Smelting Co Ltd: High Voltage Charge/Discharge Perfomance of All-Solid-state Battery Using Lithium Argyrodite Solid Electrolyte
  • NeoGraf Solutions LLC: Weight Reduction in Lithium Ion Pouch Cell Automotive Battery Modules Through the Use of Flexible Graphite Thermal Management Materials
  • P3 Group: Adaption of Production Processes with Next Generation Cell Tech
  • Politecnico Di Torino: Study of Battery Performance with Hardware in the Loop Simulation of High Power Working Vehicles
  • Ruhr University Bochum: A Smartphone Application to Evaluate Individual Opportunities for the Application of Electric Vehicles
  • RWTH Aachen University: Approach Towards Uncertainties Regarding Assumption-based Requirements in Battery System Development
  • RWTH Aachen University: ExtrusIon and Laser Drying Technologies in the Manufacturing of Electrodes for Lithium-Ion Batteries
  • RWTH Aachen University: On the Impact of the Graphite Anode in Parallel Connected Lithium-Ion-batteries - A Case Study on Tesla Model S 85 Cells
  • Samsung R&D Institute Japan: All-Solid-state Lithium-metal Secondary Battery Based on a Sulfide Type Electrolyte
  • StrategicSupport DL UG: Numerical Simulation of Lithium Ion Batteries and Cells
  • Technical University Munich: Production Technologies for Sulfide- and Oxide-based All-Solid-state Batteries
  • Technical University of Braunschweig: DeductIon of an Evaluation Process for the Optical CharacterizatIon of the Macroscopic Electrolyte DistributIon in Lithium-Ion Batteries
  • Technical University of Braunschweig: Oxidic Solid Electrolytes and Their Challenges for All-Solid-state Batteries
  • Technical University of Darmstadt: Advanced Interface Characterization Using Surface Science Methods: Recent Insights for Interfaces in Liquid and Solid Electrolyte Based Cells
  • Toshiba Infrastructure Systems & Solutions Corp: High Durability of LTO/NCM Battery for 14 V System at 80?C
  • University of Augsburg: Nonmechanical Range Extender for Electric Vehicles
  • University of Hamburg: Influence of Morphology - LFP/C Nanoparticle Composites and their Fast-charging Performance
  • University of Muenster: Correlation of Degradation and Thermal Stability of Different Positive Active Materials in Lithium Ion Batteries
  • University of Muenster: Ester Compounds as Novel and Environmental Friendly Solvents for Electrolytes in Li-Ion Batteries
  • University of Muenster: Influence of Hydrochloric Acid Processing and the Current Collector Material on the Electrochemical Performance of Binder-free Silicon Anodes in Lithium Ion Batteries
  • University of Muenster: Preparation and Characterization of a Polyethylene Oxide Based Composite Cathode
  • University of Muenster: Preparation and Characterization of Gel-type Electrolytes Based on Polycarbonate/Li-salt-systems
  • University of Muenster: Determination of an Efficient Formation Strategy - the Impact of Different C-rates
  • University of Muenster: Effective Suppression of Irreversible Li Metal Deposits at High Charging Rates or Low Temperatures Influenced by SEI Properties in Lithium Ion Batteries
  • University of Muenster: Improved Cycling Performance of Silicon/Carbon-electrodes by Surface Modification of Active Materials and Neutralization of Poly(Acrylic Acid)-binder
  • University of Muenster: Insights about the Voltage Decay in Lithium- and Manganese-rich Cathode Materials
  • University of Münster: Towards High Specific Energies for Lithium-Ion Batteries: Overlithiated High Voltage Spinels as Cathode Material
  • Wildcat Discovery Technologies Inc: Optimization of Silicon Alloy Materials for Lithium Ion Batteries
  • Xian Stropower Technologies Co Ltd: BCRLS-EKF-Based Parameter IdentificatIon and State-of-charge EstimatIon Approach of Lithium-Ion Polymer Battery in Electric Vehicles
  • Xian Stropower Technologies Co Ltd: High Accurate Lithium-Ion Battery SOC EstimatIon with Data-driven Battery Model

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9th Annual Battery Safety/14th Annual Lithium Battery Materials & Chemistries


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