Sentence examples for material demonstrating a from inspiring English sources

It was found that a-EHC material is the less amorphous material, demonstrating a higher capacitance (120 μF cm−2), higher amount of reducible and oxidizable functional groups, higher ability for the H2O2 reduction (180.7 and 4.3 μA cm−2 mM−1 sensitivity at −1.1 V and at −0.50 V, respectively) and superior catalytic activity for the ORR (17 A g−1 at −0.30 V).

The MWCNT-grafted material demonstrated a non-continuous and very thin polypyrrole coating onto the carbon surface.

The material demonstrates a fairly high etch resistance over silicon and SiO2 capable of fabricating various silicon-based nanostructures.

The histological examination of the collected material demonstrated a giant-cell foreign-body reaction, where some amorphous birefringent material was clearly visible (Fig. 1).

The resulting material demonstrated a significant improvement in the true ultimate tensile strength (∼1300 MPa) with good uniform elongation (∼23%), as compared to conventional TRIP steels.

The resulting material demonstrates a significant improvement in the ultimate tensile strength (1077 MPa) with good uniform elongation (22.5%), as compared to conventional TRIP steels.

It is well known that α-Si material demonstrates a fairly high etch selectivity over the resist film in halogen-based plasma chemistry, such resulting in a good pattern transfer fidgety.

The resulting LiNi0.2Mn0.6Co0.2O2 cathode material demonstrates a durable performance with an initial discharge specific capacity of 258 mAh g−1 while maintaining above 210 mAh g−1 after 50 cycles.

The sensor material demonstrated a wide linear range of 0.8 200 mM chloride and a diffusion-limited response time; sweat chloride levels corresponded to measurable changes in fluorescence emission that was captured by a smartphone.

The resultant composite material demonstrates a homogeneous distribution of constituents over the submicron particles and a unique hollow spherical microstructure, which provides an enhanced electrical conductivity and better accommodation of volume change of silicon during electrochemical charge discharge cycling, respectively.

Furthermore, specimens with silicon as the cellular interface material demonstrated a 33% reduction in proximal crater damage across all specimen sizes tested, with up to 10% increase in penetration depth.