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research student.About the project and ScholarshipsThe rapid adoption of lithium-ion batteries (LIB) in electric vehicles and energy storage globally is generating a significant volume of waste end-of-life
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PhD Position in Colloidal Assembly for Nanostructured Lithium-Ion Batteries Faculty: Faculty of Science Department: Department of Chemistry Hours per week: 36 to 40 Application deadline: 23 June
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the University of Birmingham. The studentship will develop structure-property relationships in disordered cobalt-free lithium-ion and sodium-ion battery cathode materials. The cathode represents
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adoption of lithium-ion batteries (LIB) in electric vehicles and energy storage globally is generating a significant volume of waste end-of-life lithium-ion batteries. The battery separator, 5
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-consuming evaporation process. The basic principle of this system involves two main approaches: (1) driving lithium ions with an external electric current either into an electrode or (2) through a lithium
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work. A model is to be developed to estimate the material mass breakdown for various cell designs and cell formats. The model will be validated from teardown analysis of commercial lithium-ion battery
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expensive lithium-ion batteries for energy storage as sodium is low-cost, safe and abundant as compared to lithium. However, the larger radius of sodium ions often leads to a sluggish kinetics process, and
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, or inflexible mass to product designs. Current approaches to this problem include classical rigid lL-ion cells undergoing a single controlled bend and then encapsulated to fix the rigid structure, as seen in
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simulations to model this process and, in conjunction with ongoing experimental studies, obtain design rules for the optimum crown ether, lithium counter-ion, and solvent, which will lead to enhancements in
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commercial lithium-ion batteries do not satisfy the increasing demands of portable electronic devices and electric vehicles, due to low energy densities, safety issues and high cost. High capacity electrode