Your English writing platform
Discover LudwigSuggestions(5)
Exact(5)
Graphene has enormous potential as a membrane-separation material with ultrahigh permeability and selectivity.
We present our results of design of a new model of fullerite-based material with ultrahigh mechanical stiffness closely related with experimental data.
A novel graphite film/aluminum composite material with ultrahigh thermal conductivity was fabricated by vacuum hot pressing process to meet this requirement.
Both electrodes consist of graphene-based active materials: a three-dimensional graphene-based porous carbon material with ultrahigh specific surface area, appropriate pore size distribution and excellent conductivity for the positive electrode, and a flash-reduced graphene oxide with open-pore structure and superior rate capability for the negative electrode.
Thus, an electrode material, with ultrahigh mesopore volume of 1.85 cm3 g−1, E-SSA up to 1771 m2 g−1 for organic electrolyte ion (TEA+) and taking 55% of the total SSA of 3237 m2 g−1 with an excellent conductivity of 33 S m−1, was obtained.
Similar(55)
In view of above merits, in this study, nanoporous carbon materials with ultrahigh N enrichment (14.23 wt%) and high specific surface area (942 m2 g−1) by in situ introduction of N-doped MOF (ZTIF-1, Organic ligands 5-methyltetrazole/C2H4N4 5-methyltetrazole/C2H4N4
More importantly, the materials displayed rapid adsorption kinetics with ultrahigh selectivity for CO2 over N2, as well as stable and readily reversible adsorption/desorption cycling behavior.
The cathode material with x = 0.10 delivers ultrahigh initial discharge capacity ∼150.3 mAh g−1, which is 24.4% larger than that of the pristine LiNi0.5Mn1.5O4 (120.8 mAh g−1).
Nanofibrous membrane materials were utilized as a solid substrate with ultrahigh surface areas.
Thus, owning to both exterior and interior Na storage of each fiber, CNFs could be a promising host material for building rechargeable composite Na metal anodes with ultrahigh capacity.
Here, Ru nanoparticles supported on carbon matrixes with ultrahigh dispersibility were synthesized and evaluated as cathode materials for Li O2 batteries.
Write better and faster with AI suggestions while staying true to your unique style.
Since I tried Ludwig back in 2017, I have been constantly using it in both editing and translation. Ever since, I suggest it to my translators at ProSciEditing.

Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com