D. Bahadur scite author profile

In this study, we present the preparation of graphene quantum dots (GQDs) and graphene oxide quantum dots (GOQDs). GQDs/GOQDs are prepared by an easy electrochemical exfoliation method, in which two graphite rods are used as electrodes. The electrolyte used is a combination of citric acid and alkali hydroxide in water. Four types of quantum dots, GQD1–GQD4, are prepared by varying alkali hydroxide concentration in the electrolyte, while keeping the citric acid concentration fixed. Variation of alkali hydroxide concentration in the electrolyte results in the production of GOQDs. Balanced reaction of citric acid and alkali hydroxide results in the production of GQDs (GQD3). However, three variations in alkali hydroxide concentration result in GOQDs (GQD1, GQD2, and GQD4). GOQDs show tunable oxygen functional groups, which are confirmed by X-ray photoelectron spectroscopy. GQDs/GOQDs show absorption in the UV region and show excitation-dependent photoluminescence behavior. The obtained average size is 2–3 nm, as revealed by transmission electron microscopy. X-ray diffraction peak at around 10° and broad D band peak at 1350 cm –1 in Raman spectra confirm the presence of oxygen-rich functional groups on the surface of GOQDs. These GQDs and GOQDs show blue to green luminescence under 365 nm UV irradiation.

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Biomaterials and magnetism

Bahadur

Giri

2003

Sadhana

111

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Enzymatic and non-enzymatic electrochemical glucose sensor based on carbon nano-onions

Mohapatra

Ananthoju

Nair

et al. 2018

Applied Surface Science

111

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Functional Oxide Nanomaterials and Nanocomposites for the Removal of Heavy Metals and Dyes

Singh

Barick

Bahadur

2013

Nanomaterials and Nanotechnology

120

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Water scarcity and its contamination with toxic metal ions and organic dyes represent a serious worldwide problem in the 21st century. A wide range of conventional approaches have been used to remove these contaminants from waste. Recently, nanotechnology has been given great scope for the fabrication of desirable nanomaterials with large surface-to-volume ratios and unique surface functionalities to treat these pollutants. Amongst these, oxide-based nanomaterials emerge as promising new materials for water purification. In this review article, we explore a broad-spectrum overview of recent developments in the area of oxide-based nanomaterials, such as Fe3O4, ZnO and TiO2, as well as their binary and ternary nanocomposites, for the removal of various toxic metal ions and organic dyes. The possible adsorption mechanism and the surface modification of adsorbents for the removal of heavy metal ions and dyes are discussed in detail. The sorption properties of the different adsorbents depend on the surface functionalization of nanomaterials, the pH of the medium, and the reaction time and concentration, etc. In addition, we provide a short overview on the study of the selective adsorbents in multi-component sorption systems, along with the future prospects of oxide nanomaterials in water purification.

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Mössbauer and FT-IR studies on non-stoichiometric barium hexaferrites

Rane

Bahadur

Nigam

et al. 1999

Journal of Magnetism and Magnetic Materials

105

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D. Bahadur

Electrochemical Method To Prepare Graphene Quantum Dots and Graphene Oxide Quantum Dots

Biomaterials and magnetism

Enzymatic and non-enzymatic electrochemical glucose sensor based on carbon nano-onions

Functional Oxide Nanomaterials and Nanocomposites for the Removal of Heavy Metals and Dyes

Mössbauer and FT-IR studies on non-stoichiometric barium hexaferrites

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