Cation–π interactions in graphene‐containing systems for water treatment and beyond
Cation–π interactions are common in nature, especially in organisms. Their profound
influences in chemistry, physics, and biology have been continuously investigated since …
influences in chemistry, physics, and biology have been continuously investigated since …
The electrochemical double layer at the graphene/aqueous electrolyte interface: what we can learn from simulations, experiments, and theory
The physical-chemistry of the graphene/aqueous–electrolyte interface underpins the
operational conditions of a wide range of devices. Despite its importance, this interface is …
operational conditions of a wide range of devices. Despite its importance, this interface is …
Scalable exfoliation and dispersion of two-dimensional materials–an update
The preparation of dispersions of single-and few-sheet 2D materials in various solvents, as
well as the characterization methods applied to such dispersions, is critically reviewed …
well as the characterization methods applied to such dispersions, is critically reviewed …
Advancement in two-dimensional carbonaceous nanomaterials for photocatalytic water detoxification and energy conversion
S Sambyal, R Sharma, P Mandyal, S Balou… - Journal of …, 2023 - Elsevier
Two-dimensional carbonaceous materials have aroused tremendous attention toward
energy conversion and water detoxification. Carbonaceous nanomaterials possess …
energy conversion and water detoxification. Carbonaceous nanomaterials possess …
Graphene oxide nanofiltration membranes with confined Na+ in two-dimensional nanochannels
The interactions between metal cations and graphene derivatives may bring about
significant changes to the properties and structures of graphene-based devices, which …
significant changes to the properties and structures of graphene-based devices, which …
Effective polarization in pairwise potentials at the graphene–electrolyte interface
At the graphene–electrolyte interface, the polarizability of both the surface and the solution
plays a major role in defining the interfacial structure and dynamics of the ions. Current …
plays a major role in defining the interfacial structure and dynamics of the ions. Current …
Aqueous electrolytes at the charged graphene Surface: Electrode-Electrolyte coupling
VV Chaban, NA Andreeva - Journal of Molecular Liquids, 2023 - Elsevier
Electrochemical energy sources support the growth in performance and portability of
consumer electronics. Further sustainable development assumes an atomistically precise …
consumer electronics. Further sustainable development assumes an atomistically precise …
Thermal smearing in DFT calculations: How small is really small? A case of La and Lu atoms adsorbed on graphene
The thermal smearing is an efficient tool to accelerate self-consistent field (SCF)
convergence, and therefore widely employed in the modern computational materials …
convergence, and therefore widely employed in the modern computational materials …
Exploring catalytic performance of boron-doped graphene electrode for electrochemical degradation of acetaminophen
Q Zhang, Y Zhou, Y Yu, BY Chen, J Hong - Applied Surface Science, 2020 - Elsevier
Boron doped graphene as anode has been widely applied to enhance the efficiency in
electrochemical applications. However, due to the complicated structure of boron species, its …
electrochemical applications. However, due to the complicated structure of boron species, its …
Acetaldehyde adsorption and detection: A density functional theory study on Al-doped graphene
N Serinçay, MF Fellah - Vacuum, 2020 - Elsevier
In this study, the Al-doped graphene structure was investigated as a sensor for the detection
of acetaldehyde molecules at room temperature using density functional theory (DFT). The …
of acetaldehyde molecules at room temperature using density functional theory (DFT). The …