Electrodeposition Of Cadmium Telluride From Electrolytes Based On Ethylene Glycol

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ethylene glycol based baths over aqueous baths. In their work they have shown that CdTe films can be electrodeposited on different substrates at relatively high temperatures (up to 1400C) from CdCl2, KI and TeCl4 in ethylene glycol; as a non-aqueous electrodeposition bath, it is much less influenced by hydrogen evolution.

Diagnostics of CdTe Electrodeposition by Rest Potential

sition ofCdTe fromaprotic electrolytes such as ethylene glycol. Plots of transient open circuit potential versus sweep volt- Cadmium telluride (and sister compounds ties of CdTe-based

In situ PM-IRRAS of a glassy carbon electrode/deep eutectic

chloride (ChCl)/ethylene glycol (EG) deep eutectic electrolytes containing ZnCl 2, mainly at glassy carbon (GC) electrodes. 47,48 Unusual voltammetric behaviour such as cathodic peaks for Zn electrodeposition in the reverse anodic scan, have been observed for this DES47 49 on glassy carbon and also in other

Electrodeposition from lonic Liquids - GBV

6.6 Cadmium Telluride 151 8.2 Pulsed Electrodeposition from Aqueous Electrolytes 215 Ethylene Glycol-based Deep Eutectic Solvent 365

Electrodeposition from Ionic Liquids

12.6 Electrodeposition of Ta from 1-Butyl-1-methylpyrrolidinium bis(trifluoromethylsulfonyl)amide 364 12.7 Electrodeposition of Zinc Coatings from a Choline Chloride: Ethylene Glycol-based Deep Eutectic Solvent 365 References 367 13 Future Directions and Challenges 369 Frank Endres, Andrew P. Abbott, and Douglas MacFarlane 13.1 Impurities 369


electrodeposition at deposition potentials of −0.4 V and −0.5 V with respect to a saturated calomel reference electrode in ethylene glycol base electrolyte. Films deposited with and without nitrogen bubbling to reduce dissolved oxygen in electrolytes were investigated by atomic force microscopy (AFM) and x-ray diffraction (XRD).

Improved Methods for Electroplating Cadmium Sulfide Thin Films

w TEG Based Solutions. Several films were deposited from the tetraethylene glycol (TEG) baths until optimum? conditions were found. Golden (MS films were deposited by constant voltage electrodeposition. Uniformity and? adherence were much improved over those grown by us from ethylene glycol using similar methods. Figure 1? shows the plot of


Pandey et al. [16-19] have demonstrated the advantage of ethylene glycol based baths over aqueous baths. They have electrodeposited CdTe film on different substrates at various temperatures (80, 120 and 1400C) from CdCl 2, KI and TeCl4 in ethylene glycol. Non-aqueous