Controllable preparation of trifold nanorods and nanospheres of cadmium telluride via solvothermal process

Weifeng Kang; Shuo Li; Cong Wang; Linhui Zhang; Binnian Zhong

doi:10.1088/2053-1591/abf1a6

Materials Research Express (Jan 2021)

Controllable preparation of trifold nanorods and nanospheres of cadmium telluride via solvothermal process

Weifeng Kang,
Shuo Li,
Cong Wang,
Linhui Zhang,
Binnian Zhong

Affiliations

Weifeng Kang: Qinghai Provincial Key Laboratory of New Light Alloys, Qinghai Provincial Engineering Research Center of High Performance Light Metal Alloys and Forming, Qinghai University , Xining; 810016, People’s Republic of China
Shuo Li: Qinghai Provincial Key Laboratory of New Light Alloys, Qinghai Provincial Engineering Research Center of High Performance Light Metal Alloys and Forming, Qinghai University , Xining; 810016, People’s Republic of China
Cong Wang: Qinghai Provincial Key Laboratory of New Light Alloys, Qinghai Provincial Engineering Research Center of High Performance Light Metal Alloys and Forming, Qinghai University , Xining; 810016, People’s Republic of China
Linhui Zhang: ORCiD; Qinghai Provincial Key Laboratory of New Light Alloys, Qinghai Provincial Engineering Research Center of High Performance Light Metal Alloys and Forming, Qinghai University , Xining; 810016, People’s Republic of China
Binnian Zhong: ORCiD; Qinghai Provincial Key Laboratory of New Light Alloys, Qinghai Provincial Engineering Research Center of High Performance Light Metal Alloys and Forming, Qinghai University , Xining; 810016, People’s Republic of China

DOI: https://doi.org/10.1088/2053-1591/abf1a6
Journal volume & issue: Vol. 8, no. 4
p. 045007

Abstract

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In this study, trifold CdTe nanorods and CdTe nanospheres were prepared by the environmentally benign solvothermal process where K _2 TeO _3 and CdCl _2 acting as the raw materials, L-ascorbic acid as the reducing agent, ethylene glycol as the solvent and polyvinylpyrrolidone as the surfactant, respectively. The morphology of the products can be regulated by the amount of KOH. Specifically, trifold CdTe nanorods could be prepared with 0.1 g of KOH before the reaction; while CdTe nanospheres were obtained with 0.5 g of KOH. The higher the amount of KOH added, the stronger the reducibility of L-ascorbic acid. For higher reducibility, CdTe crystal nuclei which was continuously generated will first nucleate and grow in the gaps between the rods of the trifold nanorods because of the special morphology and structure of the trifold nanorods. Therefore, with the increasing of the number of CdTe crystal nuclei caused by the accelerated reaction rate, the trifold nanorods will gradually evolve into nanospheres.

Published in Materials Research Express

ISSN: 2053-1591 (Online)
Publisher: IOP Publishing
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials; Technology: Chemical technology
Website: https://iopscience.iop.org/journal/2053-1591

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