The aim of this blog is to give a step-by-step update about the progress within project PULSELiON. The blog highlights the most important milestones achieved within the timeline of this project
Timeline
The 8th Open Access Publication from project PULSELiON has been published: the journal article “Simulating solid-state battery cathode manufacturing via wet-processing with resolved active material geometries”, which has been published in the Journal for #EnergyStorageMaterials Volume 73 in November 2024. With achieving this Publication, project PULSELiON has achieved it internal…Read More
Hot news! Partners from PULSELiON progress toward the final full cell chemistry, manufacturing the NMC cathode electrode by wet processing. The Deliverable D3.2 is the outcome of Task 3.3 within the WP3 and has been submitted in August. In that, NMC cathode electrode were manufactured by wet-processing under different carbon,…Read More
The achievement of Milestone 3 – Stable Li thin metal film anode – has been worth demonstrating the success on manufacturing the Li thin metal anode by Pulsed Laser Deposition (PLD) technique where 20 mm thick Li was deposited on top of Cu foil. Stripping-plating measurements of symmetric cells placing…Read More
A matured Digital Data Platform (DDP) – the SUNDIAL platform, was launched, and implemented by our partner INEGI. The data platform will serve as a database for our developers to collect data regarding the battery mass, energy and cost flows that occur in the production processes. This data will serve…Read More
Project PULSELiON has achieved its third Milestone, with the delivery of deliverable D7.2. Deliverable 7.2 overviews the PULSELiON project’s initiative to create a novel recycling process for solid-state batteries. It defines the core conceptual recycling process flow for next generation solid-state cells developed in PULSELiON project. Download the Public Summary…Read More
Project PULSELiON has achieved its second Milestone, Milestone 7, with the delivery of deliverable D5.1. Deliverable 5.1 includes safe handling protocols at the material and cell levels and describes cell testing protocols under normal and abusive conditions. Download the Public Summary of deliverable D5.1: Report on the safe handling &…Read More
Project PULSELiON has achieved its first Milestone, with the delivery of deliverable D2.1. Deliverable 2.1 starts from battery cell specifications for different automotive applications and defines a tentative cell design. This cell design has been evaluated by performing a modelling exercise to predict the tentative battery cell performance associated. D2.1…Read More
Partners from PULSELiON have already accomplished the first stage on the progress toward the cell concept from components prepared by PLD technique. A protocol for safe handling and sulfide-based material and waste treatment has been established as well as reference cell with high voltage cathode, a sulfide electrolyte and Li…Read More
