On the road to the frontiers of lithium‐ion batteries: a review and outlook of graphene anodes
Graphene has long been recognized as a potential anode for next‐generation lithium‐ion
batteries (LIBs). The past decade has witnessed the rapid advancement of graphene …
batteries (LIBs). The past decade has witnessed the rapid advancement of graphene …
Application of two-dimensional materials as anodes for rechargeable metal-ion batteries: A comprehensive perspective from density functional theory simulations
Rechargeable lithium-ion batteries (LIBs) have been serving as one the most critical
components of fast growing technologies, such as the mobile electronic and electrified …
components of fast growing technologies, such as the mobile electronic and electrified …
Popgraphene: a new 2D planar carbon allotrope composed of 5–8–5 carbon rings for high-performance lithium-ion battery anodes from bottom-up programming
Two-dimensional (2D) carbon allotropes have attracted great attention in both science and
engineering fields. Their extraordinary and/or unique properties make them promising for …
engineering fields. Their extraordinary and/or unique properties make them promising for …
Ultrahigh reversible hydrogen storage in K and Ca decorated 4-6-8 biphenylene sheet
By applying density functional theory (DFT) and ab-initio molecular dynamics (AIMD)
simulations, we predict the ultrahigh hydrogen storage capacity of K and Ca decorated …
simulations, we predict the ultrahigh hydrogen storage capacity of K and Ca decorated …
Reconfiguring graphene for high-performance metal-ion battery anodes
Reconfiguring structures in materials is one of the most important building approaches in
new material design. The atomically precise control of reconfiguration of two-dimensional …
new material design. The atomically precise control of reconfiguration of two-dimensional …
Ultrahigh hydrogen storage using metal-decorated defected biphenylene
Hydrogen (H 2) energy has emerged as a principal contender for renewable green energy
applications because of the ultra-high energy density and natural abundance. The …
applications because of the ultra-high energy density and natural abundance. The …
[HTML][HTML] Two dimensional holey graphyne: An excellent anode and anchoring material for metal–ion and metal–sulfur batteries
Based on first-principles calculations, the potential of holey graphyne is investigated for
battery applications in terms of the storage capacity, volume expansion, diffusion barrier …
battery applications in terms of the storage capacity, volume expansion, diffusion barrier …
Biphenylene monolayer: a novel nonbenzenoid carbon allotrope with potential application as an anode material for high-performance sodium-ion batteries
T Han, Y Liu, X Lv, F Li - Physical Chemistry Chemical Physics, 2022 - pubs.rsc.org
Allotrope metal structures composed of carbon as anode materials for metal-ion batteries
are a current research hotspot. In this work, the recently synthesized graphene allotrope, two …
are a current research hotspot. In this work, the recently synthesized graphene allotrope, two …
Type-II Dirac cones and electron-phonon interaction in monolayer biphenylene from first-principles calculations
We report a first-principles investigation of electronic structure, topological bands, and
electron-phonon interactions in metallic biphenylene sheets. Biphenylene is a recently …
electron-phonon interactions in metallic biphenylene sheets. Biphenylene is a recently …
Biphenylene with doping B/N as promising metal-free single-atom catalysts for electrochemical oxygen reduction reaction
Z Feng, B Zhang, R Li, F Li, Z Guo, S Zheng, G Su… - Journal of Power …, 2023 - Elsevier
The oxygen reduction reaction (ORR) is the key bottleneck in the performance of fuel cells.
The rational design of efficient and inexpensive ORR electrocatalysts is a common goal for …
The rational design of efficient and inexpensive ORR electrocatalysts is a common goal for …