Sentence examples for boron where from inspiring English sources

Assessment of the electrodes were conducted in the hair dye degradation (Acid Yellow 1 dye) and the degradation rate was 2 times higher at the doped electrode containing 280 ppm of boron, where the maximum electrode activation was obtained under UV/vis irradiation.

There is yet little known about the structure of small boron hydrides where the number of hydrogen atoms is smaller than the number of boron atoms (see ref. [11] and references therein).

The results indicate that the glass transition temperature and char yield are gradually enhanced by increasing the boron content, where the char yield of PBAB at 800 °C in nitrogen (N2) reaches up to 71.3%.

Additional heterogeneity arises from structural modifications of the adsorbent by neutron irradiation of boron-doped samples, where the boron fission products generate additional surface area for adsorption.

Very different bonding – strong covalent within the basal planes (planes where boron and nitrogen atoms are covalently bonded) and weak between them – causes high anisotropy of most properties of h-BN.

Fig. 2 HRRLMs around (115) reflection of SiGe selective growth with different growth temperature (a) 650, (b) 700, and (c) 750 °C Fig. 3 (a) A HRSEM of a multilayer structure with eight periods where the boron partial pressure varied and (b) its SIMS profile.

Several tests are presented where cubic boron nitride is used in the simulations.

Figure 3a, b shows SIMS analysis and cross-section micrograph from a multilayer structure of SiGe/Si with nine periods where the boron concentration has been successively increased in the SiGe layers.

By comparing the other BNC structures investigated in a previous study [7], where the boron and nitrogen atoms are placed at opposite positions and the number of nitrogen atoms is larger than that of boron atoms, we found that the present BNC structures exhibit a similar relationship between the size of the graphene flake and magnetic moment.

Thus, the suggested novel nanoscale effect explains the enhancement in physical reactivity of nanopowdered/nanoporous materials with decreasing of particles/porous sizes (e.g., see recent report [15] where porous boron nitride microfibers are found to be an effective material capturing pollutants from aqueous solutions).

The highest-energy state was found to be state II (Δ G=+29.9 kcal mol−1, ∡C- N-P-O=96.9°) where the boron atom is located 0.63 Å out of the imidazolium plane while the phosphorus atom remains almost in the plane.