Hollowing mechanism of zinc sulfide nanowires in vacuum induced by an atomic oxygen beam

Article Abstract:

A study was conducted to investigate the effects of electron beam irradiation and atomic O beam treatment on the morphological transformation of ZnS nanowire in a vacuum. The result reveals a hollowing of the ZnS core brought about by treatments and the formation of ZnO nanotubes, as well as optically active ZnO nanocrystalline wires at different processing temperatures.

Basic Chemical Manufacturing, Industrial Organic Chemicals, Organic Chemicals, Organic compounds, Zinc compounds

---

Electrical conductivity of decamethylferrocenium hexafluorophospate and tetrabutylammonium hexafluorophospate in supercritical trifluoromethane

Article Abstract:

The electrical conductivity of tetrabutylammonium hexafluorophosphate and decamethylferrocenium hexafluorophosphate in supercritical trifluoromethane was calculated as a role of density at 313.15 K. The results were reviewed and explained by referring to the unique features of supercritical fluids in the low-density area.

Methane, Ammonium compounds, Ammonium chloride, Ammonium paratungstate, Ammonium salts

---

Similar abstracts:

• Abstracts: Opening mechanism of internal nanoporosity of single-wall carbon nanohorn. Uniform mesopore-donated zeolite Y using carbon aerogel templating
• Abstracts: Cathodoluminescence of zinc sulfide films grown by single source chemical vapor deposition. Structural order in oxygenated gallium nitride films
• Abstracts: Synthesis and one-dimensional self-assembly of acicular nickel nanocrystallites under magnetic fields. Methyl pyruvate on Ni (111): coverage-dependent thermal chemistry
• Abstracts: Modeling catalytic effects of clay mineral surfaces on peptide bond formation. In-situ observation of reaction intermediate in the selective catalytic reduction of N2O with CH4 over Fe ion-exchanged BEA zeolite catalyst for the elucidation of its reaction mechanism using FTIR
• Abstracts: Ab initio molecular orbital study on the oxidation mechanism for dimethylamine borane as a reductant for an electroless deposition process

This website is not affiliated with document authors or copyright owners. This page is provided for informational purposes only. Unintentional errors are possible.