Small size, big impact: recent progress in bottom‐up synthesized nanographenes for optoelectronic and energy applications
Bottom‐up synthesized graphene nanostructures, including 0D graphene quantum dots and
1D graphene nanoribbons, have recently emerged as promising candidates for efficient …
1D graphene nanoribbons, have recently emerged as promising candidates for efficient …
Wettability of graphene: from influencing factors and reversible conversions to potential applications
J Feng, Z Guo - Nanoscale Horizons, 2019 - pubs.rsc.org
As a member of the carbon material family, graphene has long been the focus of research
on account of its abundant excellent properties. Nevertheless, many previous research …
on account of its abundant excellent properties. Nevertheless, many previous research …
Doping-induced tunable wettability and adhesion of graphene
We report that substrate doping-induced charge carrier density modulation leads to the
tunable wettability and adhesion of graphene. Graphene's water contact angle changes by …
tunable wettability and adhesion of graphene. Graphene's water contact angle changes by …
Elucidating the mechanism of large phosphate molecule intercalation through graphene-substrate Heterointerfaces
Intercalation is the process of inserting chemical species into the heterointerfaces of two-
dimensional (2D) layered materials. While much research has focused on the intercalation …
dimensional (2D) layered materials. While much research has focused on the intercalation …
Nitrogen-doped unusually superwetting, thermally insulating, and elastic graphene aerogel for efficient solar steam generation
X Deng, Q Nie, Y Wu, H Fang, P Zhang… - ACS applied materials & …, 2020 - ACS Publications
By removing the oxygen-containing functional groups, thermal treatment in inert gas has
been widely reported to improve the hydrophobicity of carbon materials. However, this work …
been widely reported to improve the hydrophobicity of carbon materials. However, this work …
Electronic properties of a 1D intrinsic/p-doped heterojunction in a 2D transition metal dichalcogenide semiconductor
Two-dimensional (2D) semiconductors offer a convenient platform to study 2D physics, for
example, to understand doping in an atomically thin semiconductor. Here, we demonstrate …
example, to understand doping in an atomically thin semiconductor. Here, we demonstrate …
Effects of layering and supporting substrate on liquid slip at the single-layer graphene interface
Understanding modulation of liquid molecule slippage along graphene surfaces is crucial
for many promising applications of two-dimensional materials, such as in sensors …
for many promising applications of two-dimensional materials, such as in sensors …
Polynomial chaos expansion of random coefficients and the solution of stochastic partial differential equations in the tensor train format
We apply the tensor train (TT) decomposition to construct the tensor product polynomial
chaos expansion (PCE) of a random field, to solve the stochastic elliptic diffusion PDE with …
chaos expansion (PCE) of a random field, to solve the stochastic elliptic diffusion PDE with …
Self-consistent van der Waals density functional study of benzene adsorption on Si (100)
Y Hamamoto, I Hamada, K Inagaki, Y Morikawa - Physical Review B, 2016 - APS
The adsorption of benzene on the Si (100) surface is studied theoretically using the self-
consistent van der Waals density functional (vdW-DF) method. The adsorption energies of …
consistent van der Waals density functional (vdW-DF) method. The adsorption energies of …
Fracture toughness and deformation mechanism of un-vulcanized and dynamically vulcanized polypropylene/ethylene propylene diene monomer/graphene …
M Haghnegahdar, G Naderi, MHR Ghoreishy - Composites Science and …, 2017 - Elsevier
Polypropylene (PP)/Ethylene propylene diene monomer (EPDM)/graphene nanocomposites
were prepared by melt mixing process via an internal mixer (Brabender plasti-corder). The …
were prepared by melt mixing process via an internal mixer (Brabender plasti-corder). The …