Recent progress in 2D group IV–IV monochalcogenides: synthesis, properties and applications
Coordination-related, 2D structural phase transitions are a fascinating facet of 2D materials
with structural degeneracy. Phosphorene and its new phases, exhibiting unique electronic …
with structural degeneracy. Phosphorene and its new phases, exhibiting unique electronic …
Layer structured materials for advanced energy storage and conversion
Owing to the strong in‐plane chemical bonds and weak van der Waals force between
adjacent layers, investigations of layer structured materials have long been the hotspots in …
adjacent layers, investigations of layer structured materials have long been the hotspots in …
Fast-charging high-energy lithium-ion batteries via implantation of amorphous silicon nanolayer in edge-plane activated graphite anodes
As fast-charging lithium-ion batteries turn into increasingly important components in
forthcoming applications, various strategies have been devoted to the development of high …
forthcoming applications, various strategies have been devoted to the development of high …
Recycle spent graphite to defect-engineered, high-power graphite anode
J Luo, J Zhang, Z Guo, Z Liu, S Dou, WD Liu, Y Chen… - Nano Research, 2023 - Springer
Graphite is a dominant anode material for lithium-ion batteries (LIBs) due to its outstanding
electrochemical performance. However, slow lithium ion (Li+) kinetics of graphite anode …
electrochemical performance. However, slow lithium ion (Li+) kinetics of graphite anode …
Growing vertical graphene sheets on natural graphite for fast charging lithium-ion batteries
Y Mu, M Han, J Li, J Liang, J Yu - Carbon, 2021 - Elsevier
A goal of extreme fast charging less than 15 min recharge time while maintaining high
energy density has been pursued to meet fast-charging and high-energy-density demand on …
energy density has been pursued to meet fast-charging and high-energy-density demand on …
Introducing a pseudocapacitive lithium storage mechanism into graphite by defect engineering for fast-charging lithium-ion batteries
M Wang, J Wang, J **ao, N Ren, B Pan… - … Applied Materials & …, 2022 - ACS Publications
The extreme fast-charging capability of lithium-ion batteries (LIBs) is very essential for
electric vehicles (EVs). However, currently used graphite anode materials cannot satisfy the …
electric vehicles (EVs). However, currently used graphite anode materials cannot satisfy the …
Ultrathin GeSe nanosheets: from systematic synthesis to studies of carrier dynamics and applications for a high-performance UV–Vis photodetector
Owing to the attractive energy band properties, a black phosphorus (BP)-analogue
semiconductor, germanium selenide (GeSe), shows a promising potential applied for …
semiconductor, germanium selenide (GeSe), shows a promising potential applied for …
Advances and challenges of nanostructured electrodes for Li–Se batteries
As an alternative to the energy storage system of lithium–sulfur (Li–S) batteries, the lithium–
selenium (Li–Se) battery system has attracted much attention due to its high-energy (power) …
selenium (Li–Se) battery system has attracted much attention due to its high-energy (power) …
A comprehensive review on single source molecular precursors for nanometric group IV metal chalcogenides: Technologically important class of compound …
Group IV metal chalcogenides (group IV MCs) have garnered significant attention from
scientific fraternity owing to their distinct structural features and interesting electronic …
scientific fraternity owing to their distinct structural features and interesting electronic …
Two-dimensional sheet of germanium selenide as an anode material for sodium and potassium ion batteries: First-principles simulation study
Recently, two-dimensional layered materials have come forth as encouraging candidates for
advanced electronic and optoelectronic applications. Anode materials with high energy …
advanced electronic and optoelectronic applications. Anode materials with high energy …