nanoHUBU Rechargeable Batteries L44 Interfacial Reactions Dendrites in Rechargeable Batteries

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Table of Contents: • 00:009 Lecture 4.4: Dendrites in Rechargeable Batteries II • 00:42 An in situ Experiment • 01:41 Important Results of The Models • 03:28 Thermodynamics of Lithium Nucleation • 08:25 Thermodynamics of Nucleation: Major Results • 10:01 Kinetics Limited Critical Radius and Growth • 13:00 Nucleation and Early Growth Regimes • 15:21 Nucleation Theory • 17:08 Nucleation Regimes • 19:38 Dendrite Incubation Time • 21:30 Effect of Contact Angle • 22:20 Nucleation and Early Growth Regimes • 23:54 Nucleation and Early Growth Regimes • 24:38 Summary of Growth Regimes • 26:04 Lithium Dendrite Inhibition • This video is part of the nanoHUB-U course Introduction to the Materials Science of Rechargeable Batteries • (http://nanohub.org/courses/imsb) • This course will provide an introduction to the fundamentals behind the equilibrium and time-dependent response of existing and emerging chemistries of Li-ion battery materials. Effects of material selection and processing on the performance and reliability are presented as a means to develop conceptual guidelines to understand and improve battery designs. Example applications such as intercalation, SEI, and dendrite growth are presented. Integration of experimental microstructural aspects to coarse-graining measured properties, such as porosity, tortuosity and its associated reactivity, and classic and emerging battery architectures are presented. Principles summarizing the response of battery architectures are formulated and applied to propose battery design guidelines, to review existing porous electrode theory descriptions, and to summarize the current state-of-the-art of battery technology and its associated metrology.

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