Evaluating humidity sensing response of graphene quantum dots synthesized by hydrothermal treatment of glucose

Abstract: Graphene quantum dots (GQDs) were prepared using a single-step hydrothermal treatment of glucose (C6H12O6) powder. X-ray diffraction patterns confirmed the random stacking or amorphous character of GQDs. Additionally, the UV-vis spectra confirmed the formation of GQDs with evident absorption peaks at 237 and 305 nm, which is attributed to π- π* and n- π* transitions correspondingly. The average size and surface roughness of graphene quantum dots were estimated by atomic force microscopy images and found to be … Show more

“…When compared to NGQDs (d-spacing is 0.5 nm) Alk-NGQDs d-spacing is less which is may be due to the presence of Na ions from the buffer which might have reduced the interlayer spacing due to the effect of incalation [79]. Additionally, the XRD spectrum confirms that the Alk-NGQDs are amorphous in nature with random stacking layers of GQDs [80,81].…”

Alkaline N-GQDs fluorescent probe for the ultrasensitive detection of creatinine

“…When compared to NGQDs (d-spacing is 0.5 nm) Alk-NGQDs d-spacing is less which is may be due to the presence of Na ions from the buffer which might have reduced the interlayer spacing due to the effect of incalation [79]. Additionally, the XRD spectrum confirms that the Alk-NGQDs are amorphous in nature with random stacking layers of GQDs [80,81].…”

Alkaline N-GQDs fluorescent probe for the ultrasensitive detection of creatinine

Recent advances in antimony removal using carbon-based nanomaterials: A review

Transparent humidity sensor with high sensitivity via a facile and scalable way based on liquid-phase exfoliated MoO3- nanosheets