Ford, Xerox Parc & Oak Ridge Labs Squad Upwards To Prepare Ev Battery

Xerox PARC today announced its ‘Co-Extrusion (CoEx) for Cost Reduction of Advanced High-Energy-and-Power Battery Electrode Manufacturing’ projection funded past times the the United States of America Department of Energy’s (DOE) Office of Energy Efficiency in addition to Renewable Energy (EERE). In collaboration amongst Oak Ridge National Laboratory (ORNL) in addition to Ford Motor Company, the projection volition utilization PARC’s novel CoEx printing technology scientific discipline to fabricate thick higher unloosen energy in addition to higher ability battery electrodes amongst the halt destination of enabling longer make in addition to depression toll electrical vehicles.

The projection destination is to demonstrate pilot-scale, electrical vehicle (EV) pouch cells amongst a 20% improvement inward gravimetric unloosen energy density (Wh/kg), in addition to a 30% reduction inward $/kWh costs. CoEx allows fine structures to endure printed at high speed, in addition to when applied to thick battery electrodes, it adds a novel blueprint dimension that tin endure used to lift unloosen energy in addition to ability performance. This innovative approach has the potential to aid brand high functioning in addition to affordable electrical vehicles (EVs) a reality.

PARC volition railroad train the inks in addition to CoEx hardware required to fabricate a thick high unloosen energy in addition to high ability CoEx cathode electrodes. ORNL volition assist PARC amongst the matching anode development, anode in addition to CoEx cathode coating at airplane pilot scale, in addition to electrochemical functioning optimization inward automotive-relevant lithium-ion pouch cells. The mass of this question volition laissez passer on off at the DOE Battery Manufacturing R&D Facility (BMF) at ORNL, which was designed inward 2011 amongst these types of projects inward mind. PARC volition blueprint a custom CoEx apparatus that volition endure integrated into i of the question coating lines at the BMF.

“The PARC squad is excited to kickoff this collaboration amongst ORNL in addition to Ford. CoEx has the potential to brand higher capacity EV batteries possible through the creation of ii in addition to 3 dimensional structures which tin lift lithium-ion pathways inward ultra-thick battery electrodes. Our destination is to fabricate EV pouch cells that are higher inward unloosen energy in addition to ability than conventional, amongst a path towards a reduction inward $/kWh costs for EVs”said projection primary investigator in addition to PARC CoEx technical atomic number 82 MD Corie Cobb.

“PARC in addition to ORNL bring a rail tape of working successfully together, in addition to their collaboration on this projection volition transform the agency lithium-ion electrode coatings are made in addition to perform nether high discharge rates,” said ORNL projection atomic number 82 David Wood.

PARC’s CoEx projection is role of a portfolio of question inside the PARC Energy Technology Program aimed at developing practical solutions to brand build clean in addition to abundant unloosen energy available across a broad make of applications. This includes a focus on improving unloosen energy storage for EVs, consumer electronics, in addition to electrical grid back upwards through improve ways to make, monitor, in addition to create out batteries.

“By leveraging our deep background inward printing, PARC has developed the CoEx printing procedure to enable higher functioning solar cells, fuel cells in addition to batteries.,” said Scott Elrod, Vice President of PARC’s Hardware Systems Lab. “By applying CoEx to printed batteries, nosotros tin create optimal structures that boost ability functioning without compromising unloosen energy storage. It’s an efficient in addition to a lower-cost approach that tin endure applied to the mass manufacturing of batteries.”

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