Add to ORKGABSTRACT: The drive to develop better electrochemical energy storage devices requires the development of not only new materials, but also better understanding of the underpinning chemical and dynamical processes within such devices during operation, for which new analytical techniques are required. Currently, there are few techniques that can probe local composition and transport in the electrolyte during battery operation. In this paper, we report a novel application of magnetic resonance imaging (MRI) for probing electrochemical processes in a model electrochemical cell. Using MRI, the transport and zinc and oxygen electrochemistry in an alkaline electrolyte, typical of that found in zinc-air batteries, are investigated. Magnetic resonanc...
Accurate modeling of Li-ion batteries performance, particularly during the transient conditions expe...
Nuclear magnetic resonance (NMR) imaging has high sensitivity to proton (1H) and lithium (7Li). It i...
The properties of a lithium ion battery (LIB) are determined by the interplay of its components. In ...
tThermo-electrochemical cells are emerging as a promising and efficient method to convert waste heat...
A toroid cavity nuclear magnetic resonance (NMR) detector capable of quantitatively recording radial...
Li-ion batteries are invaluable for portable electronics and vehicle electrification. A better knowl...
AbstractLow-grade waste heat is an abundant and underutilised energy source. In this context, thermo...
International audienceRecent progress in MRI methods development led to a novel concept for operando...
To develop energy storage devices with enhanced capacity, specific energy or improved cycle life, in...
The ability to image electrochemical processes in situ using nuclear magnetic resonance imaging (MRI...
To develop energy storage devices with enhanced capacity, specific energy or improved cycle life, i...
This program seeks to better define electrode-electrolyte interfaces and solid-state ion transport m...
Enhancing the electrochemical performance of batteries, including the lifespan, energy, and power de...
Lithium ion battery Magnetic resonance imaging Nuclear magnetic resonance Nuclear magnetic resonance...
Improving electrochemical energy storage is one of the major issues of our time. The search for new ...
Accurate modeling of Li-ion batteries performance, particularly during the transient conditions expe...
Nuclear magnetic resonance (NMR) imaging has high sensitivity to proton (1H) and lithium (7Li). It i...
The properties of a lithium ion battery (LIB) are determined by the interplay of its components. In ...
tThermo-electrochemical cells are emerging as a promising and efficient method to convert waste heat...
A toroid cavity nuclear magnetic resonance (NMR) detector capable of quantitatively recording radial...
Li-ion batteries are invaluable for portable electronics and vehicle electrification. A better knowl...
AbstractLow-grade waste heat is an abundant and underutilised energy source. In this context, thermo...
International audienceRecent progress in MRI methods development led to a novel concept for operando...
To develop energy storage devices with enhanced capacity, specific energy or improved cycle life, in...
The ability to image electrochemical processes in situ using nuclear magnetic resonance imaging (MRI...
To develop energy storage devices with enhanced capacity, specific energy or improved cycle life, i...
This program seeks to better define electrode-electrolyte interfaces and solid-state ion transport m...
Enhancing the electrochemical performance of batteries, including the lifespan, energy, and power de...
Lithium ion battery Magnetic resonance imaging Nuclear magnetic resonance Nuclear magnetic resonance...
Improving electrochemical energy storage is one of the major issues of our time. The search for new ...
Accurate modeling of Li-ion batteries performance, particularly during the transient conditions expe...
Nuclear magnetic resonance (NMR) imaging has high sensitivity to proton (1H) and lithium (7Li). It i...
The properties of a lithium ion battery (LIB) are determined by the interplay of its components. In ...