Sentence examples for yield silver from inspiring English sources

Hydrogen-loaded activated gold electrodes in contact with a soluble silver salt solution yield silver deposits which can be studied through conventional voltammetric stripping.

Furthermore, according to several authors [149, 150, 151, 152], these compounds melted in the range of 383 393 K with decomposition, to yield silver nanoparticles for both short and long chain adducts.

Sonodecomposition, to yield silver nanoparticles, involves the usage of ultrasonic waves to induce cavitation, a phenomenon whereby the passage of ultrasonic waves through an aqueous solution yields microscopic bubbles that expand and ultimately burst.

Ag2O nanoparticles were prepared by the method as follows: Equimolar quantity of silver nitrate 4.61 g (0.0271 mol) was reacted with 8.25 g (0.0271 mol) sodium oleate to yield silver oleate.

Surprisingly, high-yield silver rodlike nanostructures, nanospheres, and nanowires can be obtained under the same growth environment and reactant concentrations by simply changing the MW of PVP.

Conversely, both peaks in Figure 5b are weak, leading to the formation of high-yield silver nanospheres which is consistent with the result shown in Figure 1b.

The SEM image indicates that such color corresponds to the formation of high-yield silver nanospheres with uniform size around 60 nm [28].

Using a simple wet chemical route, high-yield silver nanowires with an average diameter of 25±5 nm and length up to several μm and dendrites with a long central backbone and symmetrically ramified secondary branches have been successfully obtained by reducing AgNO3 with L-ascorbic acid (AsA) in the mixed surfactant solutions of cetyltrimethylammonium bromide (CTAB) and sodium dodecyl sulfate (SDS).

The oxidation of Ag (I) followed by the complexation with chlorhexidine yielded silver (II) chlorhexidine.

Deprotonation with silver oxide yields silver carbene transfer reagents, which can be used as ligand sources in asymmetric catalysis.

Phase diagrams of appearance stability in silver electrodeposition indicate that the silver ferrocyanide thiocyanate electrolyte including antimony potassium tartrate yields silver electrodeposits with shiny appearances within a narrow region of the cathode potential.