Abstract
A high energy X-ray diffraction technique is employed in a new way to make operando through-thickness measurements inside a large format commercial Li-ion pouch cell. The technique, which has a sub-mm in-plane spatial resolution, simultaneously determines the local temperature, the local state of charge of both electrodes (as opposed to the global average state of charge determined electrochemically), and the local in-plane elastic strain in the current collectors, all without embedding any intrusive sensors that alter battery behavior. As both thermal strain and mechanical strain develop during the charge-discharge cycling of the pouch cell, a novel approach developed herein makes it possible to separate them, allowing for measurement of the local temperature inside the battery. The operando experiment reveals that the temperature inside the cell is substantially higher than the external temperature. We propose that mechanical strain is due primarily to load transfer from the electrode to the current collector during lithiation, allowing determination of the local binder. Detailed local SOC mapping illustrates non-uniform degradation of the battery pouch cell. The possibility for 3D measurements is proposed. We believe that this new approach can provide critically needed data for validation of detailed models of processes inside commercial pouch cells.
Highlights
Simultaneous Operando Measurements of the Local Temperature, State of Charge, and Strain inside a Commercial Lithium-Ion Battery Pouch Cell
Since local temperatures inside a thick cell might well be too high under some conditions, knowledge of the spatial distribution of internal temperature is of vital importance for achieving long life at low cost
In this paper we describe a novel method for making line-of-sight operando internal measurements maps that simultaneously provide local temperature, local state of charge (SOC), and local mechanical strain inside a large format Li-ion pouch cell by
Summary
Simultaneous Operando Measurements of the Local Temperature, State of Charge, and Strain inside a Commercial Lithium-Ion Battery Pouch Cell. Since local temperatures inside a thick cell might well be too high under some conditions, knowledge of the spatial distribution of internal temperature is of vital importance for achieving long life at low cost. In this paper we describe a novel method for making line-of-sight operando internal measurements maps that simultaneously provide local temperature, local state of charge (SOC), and local mechanical strain inside a large format Li-ion pouch cell by Experimental. Since properties may vary though the pouch thickness, we refer to our measurements as line-of-sight averaged. Absorption of these high energy X-rays is Downloaded on 2019-01-07 to IP 131.243.51.218 address. Redistribution subject to ECS terms of use (see ecsdl.org/site/terms_use) unless CC License in place (see abstract)
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