Shrishti Singh, PhD

I help scientists and researchers commercialize their technologies in life sciences

Synthesis and Fabrication of Graphene Quantum Dots-Polypyrrole (GQDs-PPy) Nanocomposites in Bioengineering Applications as Supercapacitors and Fluorescent Probes


Journal article


Ankarao Kalluri, Shrishti Singh, D. Leighton, Isaac G. Macwan, P. Patra
2017

Semantic Scholar
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APA   Click to copy
Kalluri, A., Singh, S., Leighton, D., Macwan, I. G., & Patra, P. (2017). Synthesis and Fabrication of Graphene Quantum Dots-Polypyrrole (GQDs-PPy) Nanocomposites in Bioengineering Applications as Supercapacitors and Fluorescent Probes.


Chicago/Turabian   Click to copy
Kalluri, Ankarao, Shrishti Singh, D. Leighton, Isaac G. Macwan, and P. Patra. “Synthesis and Fabrication of Graphene Quantum Dots-Polypyrrole (GQDs-PPy) Nanocomposites in Bioengineering Applications as Supercapacitors and Fluorescent Probes” (2017).


MLA   Click to copy
Kalluri, Ankarao, et al. Synthesis and Fabrication of Graphene Quantum Dots-Polypyrrole (GQDs-PPy) Nanocomposites in Bioengineering Applications as Supercapacitors and Fluorescent Probes. 2017.


BibTeX   Click to copy

@article{ankarao2017a,
  title = {Synthesis and Fabrication of Graphene Quantum Dots-Polypyrrole (GQDs-PPy) Nanocomposites in Bioengineering Applications as Supercapacitors and Fluorescent Probes},
  year = {2017},
  author = {Kalluri, Ankarao and Singh, Shrishti and Leighton, D. and Macwan, Isaac G. and Patra, P.}
}

Abstract

  1. References Fig 1: (a) UV−vis spectra of GQDs A, B, and C, corresponds to synthesized reaction temperature at 120, 100 and 80 °C respectively. (b) TEM images of GQDs (synthesized reaction temperature at 120 °C), inset of (b) is the HRTEM of GQDs. (c) AFM image of GQDs. (d) Size and height distribution of GQDs. (e) HRTEM image of the edge of GQD, inset is the 2D FFT of the edge.