We report experiments and molecular dynamics calculations on the kinetics of electrodeposited lithium dendrites relaxation as a function of temperature and time. We found that the experimental average length of dendrite population decays via stretched exponential functions of time toward limiting values that depend inversely on temperature. The experimental activation energy derived from initial rates as E_a~ 6-7 kcal/mole, which is closely matched by MD calculations, based on the ReaxFF force field for metallic lithium. Simulations reveal that relaxation proceeds in several steps via increasingly larger activation barriers. Incomplete relaxation at lower temperatures is therefore interpreted a manifestation of cooperative atomic motions in...
The lifetime and health of lithium metal batteries are greatly hindered by nonuniform deposition and...
The use of a lithium-metal anode in both current and future battery technologies, including lithium-...
Lithium (Li) metal has garnered significant attention as the preferred anode for high-energy lithium...
We report experiments and molecular dynamics calculations on the kinetics of electrodeposited lithiu...
The densifying kinetics of lithium dendrites is characterized with effective activation energy of E_...
We have quantified lithium dendrite growth in an optically accessible symmetric Li-metal cell, charg...
The specific high energy and power capacities of rechargeable lithium metal (Li0) batteries are idea...
Short-circuiting via dendrites compromises the reliability of Li-metal batteries. Dendrites ensue fr...
We introduce a coarse-grained simulation model for the reductive deposition of lithium cations in se...
The main focus of this research is on understanding the dendrite formation on the lithium surface ...
Short-circuiting via dendrites compromises the reliability of Li-metal batteries. Dendrites ensue fr...
Operando high-resolution light microscopy with extended depth of field is used to observe large regi...
Operando high-resolution light microscopy with extended depth of field is used to observe large regi...
Next-generation high-energy batteries will require a rechargeable lithium metal anode, but lithium d...
Dendritic growth plagues the development of rechargeable lithium metal anodes. Recently, it has been...
The lifetime and health of lithium metal batteries are greatly hindered by nonuniform deposition and...
The use of a lithium-metal anode in both current and future battery technologies, including lithium-...
Lithium (Li) metal has garnered significant attention as the preferred anode for high-energy lithium...
We report experiments and molecular dynamics calculations on the kinetics of electrodeposited lithiu...
The densifying kinetics of lithium dendrites is characterized with effective activation energy of E_...
We have quantified lithium dendrite growth in an optically accessible symmetric Li-metal cell, charg...
The specific high energy and power capacities of rechargeable lithium metal (Li0) batteries are idea...
Short-circuiting via dendrites compromises the reliability of Li-metal batteries. Dendrites ensue fr...
We introduce a coarse-grained simulation model for the reductive deposition of lithium cations in se...
The main focus of this research is on understanding the dendrite formation on the lithium surface ...
Short-circuiting via dendrites compromises the reliability of Li-metal batteries. Dendrites ensue fr...
Operando high-resolution light microscopy with extended depth of field is used to observe large regi...
Operando high-resolution light microscopy with extended depth of field is used to observe large regi...
Next-generation high-energy batteries will require a rechargeable lithium metal anode, but lithium d...
Dendritic growth plagues the development of rechargeable lithium metal anodes. Recently, it has been...
The lifetime and health of lithium metal batteries are greatly hindered by nonuniform deposition and...
The use of a lithium-metal anode in both current and future battery technologies, including lithium-...
Lithium (Li) metal has garnered significant attention as the preferred anode for high-energy lithium...
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