Nicholas R. Cross
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View article: Modeling the Influence of the Solid Electrolyte Interphase on the Sand's Time and Dendrite Formation on Lithium Metal Electrodes
Modeling the Influence of the Solid Electrolyte Interphase on the Sand's Time and Dendrite Formation on Lithium Metal Electrodes Open
Lithium metal is a sought after battery material for its high energy density due to the low electrochemical potential and density. However, lithium metal is also highly reactive, which results in a strong propensity for dendrite formation.…
View article: Multiscale Modeling Framework for Lithium Nucleation in 3D Porous Carbon Anodes
Multiscale Modeling Framework for Lithium Nucleation in 3D Porous Carbon Anodes Open
Porous carbon scaffolds offer a promising route for mitigating non-uniform lithium (Li) plating to enhance the safety and longevity of Li metal batteries. However, the influence of microstructural morphology on Li nucleation is not well un…
View article: 200 h of discharge cycling with an all-aqueous copper thermally regenerative ammonia battery
200 h of discharge cycling with an all-aqueous copper thermally regenerative ammonia battery Open
View article: Viability of Additively Manufactured Electrodes for Lithium-Ion Batteries
Viability of Additively Manufactured Electrodes for Lithium-Ion Batteries Open
As the global economy becomes increasingly electrified, the demand for batteries and energy storage is expected to rise significantly, particularly in the transportation and electricity sectors. Lithium-ion batteries (LIBs) are currently t…
View article: CHARACTERIZATION AND DEVELOPMENT OF THE ALL–AQUEOUS COPPER THERMALLY REGENERATIVE AMMONIA BATTERY
CHARACTERIZATION AND DEVELOPMENT OF THE ALL–AQUEOUS COPPER THERMALLY REGENERATIVE AMMONIA BATTERY Open
Low temperature thermal energy is an abundant and untapped energy source for large scale electrical power and energy production around the world. Many different stationary sources such as industrial and thermal power plants produce signifi…
View article: Topology optimization for the full-cell design of porous electrodes in electrochemical energy storage devices
Topology optimization for the full-cell design of porous electrodes in electrochemical energy storage devices Open
View article: Shape Matters: Understanding the Effect of Electrode Geometry on Cell Resistance and Chemo-Mechanical Stress
Shape Matters: Understanding the Effect of Electrode Geometry on Cell Resistance and Chemo-Mechanical Stress Open
Rechargeable batteries that incorporate shaped three-dimensional electrodes have been shown to have increased power and energy densities when compared to a conventional geometry, i.e. a planar cathode and anode that sandwich an electrolyte…
View article: Shape matters: Understanding the effect of electrode geometry on cell resistance and chemo-mechanical stress
Shape matters: Understanding the effect of electrode geometry on cell resistance and chemo-mechanical stress Open
Rechargeable batteries that incorporate shaped three-dimensional electrodes have been shown to have increased power and energy densities for a given footprint area when compared to a conventional geometry, i.e., a planar cathode and anode …
View article: Simulating Discharge Curves of an All-Aqueous TRAB to Identify Pathways for Improving System Performance
Simulating Discharge Curves of an All-Aqueous TRAB to Identify Pathways for Improving System Performance Open
Thermally regenerative ammonia batteries (TRABs) are an emerging technology that use low temperature heat (T < 150 °C) to recharge a flow battery that produces electrical power on demand. The all-aqueous copper TRAB can provide high power …
View article: Topology Optimization for the Full-Cell Design of Porous Electrodes in Electrochemical Energy Storage Devices
Topology Optimization for the Full-Cell Design of Porous Electrodes in Electrochemical Energy Storage Devices Open
In this paper, we introduce a density-based topology optimization framework to design porous electrodes for maximum energy storage. We simulate the full cell with a model that incorporates electronic potential, ionic potential, and electro…
View article: Development of an All-Aqueous Thermally Regenerative Redox Flow Battery to Support Fossil Fuel Assets
Development of an All-Aqueous Thermally Regenerative Redox Flow Battery to Support Fossil Fuel Assets Open
Low-temperature thermal energy, a largely untapped resource, holds significant promise for large-scale electrical power generation globally. Various stationary sources, including industrial entities and thermal power plants, emit considera…
View article: Hydrocarbon-based membranes cost-effectively manage species transport and increase performance in thermally regenerative batteries
Hydrocarbon-based membranes cost-effectively manage species transport and increase performance in thermally regenerative batteries Open
View article: A techno-economic analysis of a thermally regenerative ammonia-based battery
A techno-economic analysis of a thermally regenerative ammonia-based battery Open
View article: System efficiency and power assessment of the all-aqueous copper thermally regenerative ammonia battery
System efficiency and power assessment of the all-aqueous copper thermally regenerative ammonia battery Open
View article: Power and energy capacity tradeoffs in an all-aqueous copper thermally regenerative ammonia battery
Power and energy capacity tradeoffs in an all-aqueous copper thermally regenerative ammonia battery Open