The present finding deals with a simple and low-cost fabrication of surface-passivated, brightly fluorescent zincoxide- decorated, red-emitting excitation-independent ultrafluorescent CDs, denoted as “CZnO-Dots”. Surface doping of zinc oxide significantly improved the quantum yield by up to ∼72%, and these brightly fluorescent red-emitting CZnO-Dots have been employed for the aqueous-phase photoreduction of 100 ppm hexavalent chromium(VI) to trivalent chromium(III) under the influence of sunlight irradiation. The overall utility of the prepared CZnO-Dots can be ascertained by their recyclability over seven cycles.
The doped CD with inorganic salts can apparently form a newer platform among the existing class of fluorescent optical materials such as QDs and organic dyes. The doped-soluble CD with a higher quantum yield value can provide solutions to many newer emerging and existing problems. The aqueous solutions of red-emitting brightly fluorescent CZnO-Dots with excellent photostability could compete with the already existing commercially available QDs and organic dyes for similar types of applications. Such as related to the deeper penetration ability of the fluorescent probe could directly relate the excellence of instructive image analysis. Beyond these, brightly fluorescent CZnO-Dots do have the potential for use as an excellent photocatalytic material because of their working window, which is situated in the lower wavelength region. Interestingly, further studies could reveal a vast prospective future of these solublebrightly fluorescent CZnO-Dots in the field of photocatalysis and water treatment.

The structure formation of magnesium hydroxide in a magnetic field of varying intensity depending on the concentration of salt solution and the conditions for its deposition and heat treatment has been studied. It has been shown that the magnetic field increases the sorption capacity of samples and reduces their surface area, and that method of fast hydroxide deposition usually generates more uniporous structure of the sample. The explanation has been proposed for observed changes in structural parameters of synthesized samples.