Corrigendum to “Particle size controlled synthesis of CdS nanoparticles on a microfluidic chip” [Chem. Eng. J. 280 (2015) 385–390]

Abstract: CorrigendumCorrigendum to < [Chemical Engineering Journal 280 (2015) 385-390]>

“…44 For the fabrication of inorganic nanomaterials, such as metallic nanocrystals and quantum dots, microfluidic systems are typically modified to produce a train of discrete droplets which contain the reaction solution. 16,17,[46][47][48][49] By doing so, the reaction volume is minimized and the reagent concentrations can be easily tuned by varying the droplet size. 47 D-µF has also been presented as a new platform for scaling up the production of inorganic nanocrystals.…”

“…16,17,[46][47][48][49] By doing so, the reaction volume is minimized and the reagent concentrations can be easily tuned by varying the droplet size. 47 D-µF has also been presented as a new platform for scaling up the production of inorganic nanocrystals. 50 These nanoparticles are useful not only in biomedicine but also in applications related to photonics, electronics, catalysis, energy conversion, environment protection and information storage, to mention a few.…”

Droplet-microfluidics towards the assembly of advanced building blocks in cell mimicry

“…44 For the fabrication of inorganic nanomaterials, such as metallic nanocrystals and quantum dots, microfluidic systems are typically modified to produce a train of discrete droplets which contain the reaction solution. 16,17,[46][47][48][49] By doing so, the reaction volume is minimized and the reagent concentrations can be easily tuned by varying the droplet size. 47 D-µF has also been presented as a new platform for scaling up the production of inorganic nanocrystals.…”

“…16,17,[46][47][48][49] By doing so, the reaction volume is minimized and the reagent concentrations can be easily tuned by varying the droplet size. 47 D-µF has also been presented as a new platform for scaling up the production of inorganic nanocrystals. 50 These nanoparticles are useful not only in biomedicine but also in applications related to photonics, electronics, catalysis, energy conversion, environment protection and information storage, to mention a few.…”

Droplet-microfluidics towards the assembly of advanced building blocks in cell mimicry

“…[16] Kong et al pointed out in their study on regulating the size of CdS nanoparticles that the unoccupied d orbital in Cd atoms can act as an electron acceptor. [17] Inspired by the current state of d orbit research, the preparation of n-type CdS with S 2− anionic defects and Cd 2+ 4d10 electron configuration holds great potential for achieving efficient photocatalytic H 2 O 2 production.…”

Electronic Structure Modulation of Oxygen‐Enriched Defective CdS for Efficient Photocatalytic H₂O₂ Production

“…32 Recently, the aqueous solution of cadmium chloride and sodium sulfide using 3-mercaptopropionic acid (MPA) as a stabilizer was employed to produce CdS nanoparticles. 33 Also, Chen et al used the emulsifier OP and the stabilizer CTAB for the synthesis of CdS nanoparticles by using Cd(II) acetate tetrahydrate and thioacetamide. 34 It is noteworthy that Schiff bases are among the most popular ligands because of their easy configuration and rich coordination chemistry with a large variety of metal ions.…”

Fabrication and study of optical and electrochemical properties of CdS nanoparticles and the GO–CdS nanocomposite