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    Engineered hetero structured arrays of ZnO NanoX (X = discs, rods and wires) and CdTe quantum dots for advanced electron transport applications

    Year: 2018

    Journal: Mater. Des., Volume 141, Nov-05, page 267–275

    Authors: Anas, S.; Nair, P. V.; Mahesh, K. V.; Linsha, V.; Shuhailath, A.; Mohamed, A. P.; Warrier, K. G. K.; Ananthakumar, S.

    Organizations: Council of Scientific and Industrial Research (CSIR), Department of Science and Technology [FIST-SR/FST/College-213/2014(C)]; University Grants Commission [MRP (S) - 0713/13-14/KLKE020/UGC-SWRO]

    Keywords: ZnO; CdTe; Heterostructured arrays; Solvothermal synthesis; Electron transport; Electrochromism

    Novel hetero structured arrays of CdTe quantum dots capped ZnO nanostructures were successfully prepared through a three tier process. C-axis oriented ZnO nanostructures, namely ZnO nanox (where, x = discs, rods and wires), were prepared on glass and ITO substrates by employing simple, template free and low temperature solvothermal methods. CdTe quantum dots were synthesized subsequently through an organometallic route. ITO/ZnO NanoX/CdTe heterostructured arrays were finally developed, by capping ZnO nanostructured arrays with CdTe quantum dots by using 3-mercaptopropionic acid. The crystalline, structural, morphological and optical features of the individual nanostructures and the heterostructured arrays were investigated by using XRD, HR-TEM, SEM, EDAX, AFM, UV and PL. The role of solvents, solution concentration and temperature on deciding the final morphologies in solvothermal syntheses were studied and the possible growth mechanism of the different nanostructure arrays were proposed. The comparative electron transport studies of the ITO/ZnO NanoX/CdTe heterostructure arrays were carried out. Electrochromic display units having fast electron transport capabilities were developed. The study put forth many futuristic applications of these hetero structured assemblies in wide spectrum of scientific and industrial disciplines, particularly in the areas where a fast electron transport is required. (c) 2017 Elsevier Ltd. All rights reserved.
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