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Title: | Fluorescent MoS2 Quantum Dot-DNA Nanocomposite Hydrogels for Organic Light-Emitting Diodes |
Authors: | Pandey, P.K. Ulla, H. Satyanarayan, M.N. Rawat, K. Gaur, A. Gawali, S. Hassan, P.A. Bohidar, H.B. |
Issue Date: | 2020 |
Citation: | ACS Applied Nano Materials, 2020, Vol., , pp.- |
Abstract: | In this study, we report the synthesis of water-soluble MoS2 quantum dots (MoS2, QD) by a hydrothermal one-step method. These QDs were mixed in an aqueous solution of 2 kbp DNA to form fluorescent nanocomposite hydrogels at a very low concentration of the nucleic acid (1.0% (w/v), normal gelation occurs at 2% (w/v)). The melting temperature Tmelt of these gels was 50 2 C while the hydrogels melt at 40 2 C, and the low-frequency storage modulus/gel strength G0 was 40 2 Pa (9 2 Pa for hydrogel). This clearly implied that MoS2 acted as a pseudo-cross-linker in the nanocomposite hydrogel formation. The remarkable synergy of interaction between DNA and QDs can be gauged from the fact that the gel strength and melting temperature increased with QD content regardless of the fact that both carried negative charge. Dynamic light scattering studies showed arrested dynamics at the onset of gelation, and the gel transition time or ergodicity breaking time ?EB decreased with the increase in QD concentration. Small-angle X-ray scattering data captured the internal structure of these gels. Thus, we have a unique nanocomposite DNA-based hydrogel that is fluorescent, and in 2-D, this soft matter remarkably exhibits the behavior of an organic light-emitting diode (OLED), which imparts sufficient novelty to this work. 2020 American Chemical Society. |
URI: | http://idr.nitk.ac.in/jspui/handle/123456789/11338 |
Appears in Collections: | 1. Journal Articles |
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