With the continuous soar of CO 2 emission exceeding 360 Mt over the recent five years, new-
generation CO 2 negative emission energy technologies are demanded. Li-CO 2 battery is a …

We present a mechanistic theory for predicting void evolution in the Li metal electrode
during the charge and discharge of all-solid-state battery cells. A phase field formulation is …

Lithium metal is considered one of the most promising anode materials for application in
next-generation batteries. However, despite decades of research, practical application of …

All solid-state lithium-ion batteries have gained great interest due to their potential for high
energy density and safety. It is a general belief that solid electrolytes, in view of their high …

Lithium (Li) metal batteries are considered the most promising high‐energy‐density
electrochemical energy storage devices of the next generation. However, the unstable solid …

Li metal is an exciting anode for high-energy Li-ion batteries and other future battery
technologies due to its high energy density and low redox potential. Despite their high …

Lithium dendrite issues significantly impede the development of high-energy-density
secondary batteries with a lithium anode. The widely-used classical Sand's limiting current …

Designing high-performance composites requires integrating tasks, including material
selection, structural arrangement, and mechanical property characterization. Accurate …

Lithium (Li) metal, which has the advantages of high theoretical capacity, low redox
potential, and low density, is considered an ideal anode material for next-generation battery …

The growth of uranium dendrites has been one of the critical issues in the electrorefining of
spent nuclear fuel for several decades. However, a comprehensive description of uranium …