Influence of surfactants on the formation and growth of cadmium telluride nanoplatelets
https://doi.org/10.32523/ejpfm.2023070205
Abstract
The article presents a comprehensive review of the current research on the use of surfactants in CdTe nanoplatelet synthesis, including a discussion of the various types of surfactants that have been used and their effects on nanoplatelet size, shape, and optical properties. Additionally, the article examines the mechanisms by which surfactants influence the growth and morphology of CdTe nanoplatelets, with a focus on the role of surfactant, size, and structure. Overall, this article provides a detailed analysis of the use of surfactants in the synthesis of CdTe nanoplatelets and highlights the potential for this approach to improve the performance of CdTe-based technologies. The dependences of the NPL absorption and photoluminescence spectra on acids used as surfactants are shown. The dependence of the shape and size of the NPL on the length of the surfactant ligand was found.
Supporting agencies: This research is funded by the Science Committee of Science of the Ministry of Science and Higher Education of the Republic of Kazakhstan (Grant No. AP15473137). The authors acknowledge M.V. Lomonosov Moscow State University Program of Development for partial support of the instrumental studies. The are also thankful to A.A. Eliseev (Department of Materials Science, M.V. Lomonosov Moscow State University, Leninskiye Gory, 1, Moscow, Russian Federation) for the help with ICP MS investigations.
About the Authors
A.S. Akhmetova
L.N. Gumilyov Eurasian National University
Kazakhstan
Kazakhstan
Astana
A.K. Ospanova
L.N. Gumilyov Eurasian National University
Kazakhstan
Kazakhstan
Astana
B.N. Yussupbekova
L.N. Gumilyov Eurasian National University
Kazakhstan
Kazakhstan
Astana
T.T. Alibay
L.N. Gumilyov Eurasian National University
Kazakhstan
Kazakhstan
Astana
References
1. A.Z. Kainarbay et al., Optik 169 (2018) 41–47.
2. S.S. Bubenov et al., Physica status solidi a 220(1) (2023) 2200556.
3. B.A. Duisenbay et al., Eurasian Journal of Physics and Functional Materials 6(3) (2022) 244–250.
4. T.N. Nurakhmetov et al., IOP Conference Series: Materials Science and Engineering 49 (2013) 012059.
5. C.B. Murray et. al., Journal of the American Chemical Society 115(19) (1993) 8706–8715.
6. X. Peng et al., Nature 404 (2000) 59–61.
7. L. Manna et al., Nature materials 2 (2003) 382–385.
8. J. Yu, ACS applied materials & interfaces 11 (44) (2019) 41821–41827.
9. S. Pedetti et al., Journal of the American Chemical Society 136(46) (2014) 16430–16438.
10. P. Yang et al., Journal of Cluster Science 22 (2011) 405–431.
11. S. Ithurria et al., Nature materials 10 (2011) 936–941.
12. I. Gur et al., Nano letters 7(2) (2007) 409–414.
13. X. Xie et al., Nanoscale 4 (2012) 2914–2919 .
14. F. Zhang et al., Applied Catalysis B: Environmental 226 (2018) 103–110.
15. Junling Qu, Diss. Sorbonne universite (2021) 133 p.
16. S. Mourdikoudis et al., Nanoscale Horizons 7 (2022) 941–1015.
17. Um E.Kalsoom et al., Frontiers in Physics 9 (2021) 612070.
18. C. Meerbach et al., 32(1) (2020) 566–574.
19. V. Dzhagan et al., Nanoscale research letters 6 (2011) 79.
20. M. Epifani et al., Langmuir 24(19) (2008) 11182–11188.
21. R.B. Vasiliev et al., Chemistry of Materials 30(5) (2018) 1710–1717.
22. A. Anand et al., Nano Letters 22(22) (2022) 8900–8907.
23. F. Wang et al., Australian Journal of Chemistry 74(3) (2020) 179–185.
24. Z. Li el al., Nano Research 5 (2012) 337–351.
25. S. Pedetti et al., Chemistry of Materials 25(12) (2013) 2455–2462.
26. A.S. Akhmetova et al., Optical Materials 131 (2022) 112606.
Review
For citations:
Akhmetova A., Ospanova A., Yussupbekova B., Alibay T. Influence of surfactants on the formation and growth of cadmium telluride nanoplatelets. Eurasian Journal of Physics and Functional Materials. 2023;7(2):123-132. https://doi.org/10.32523/ejpfm.2023070205
Views: 476
Email this article 