Your search keyword '"Ciptasari, Nurhayati Indah"' showing total 3 results

1. Photocataylitic performance assessment of rGO-AgNPs nanocomposites using urea reductor for methyl orange dye degradation.

Author

Ciptasari, Nurhayati Indah, Handayani, Murni, Afkauni, Afif Akmal, Kaharudin, Caesart Leonardo, Hatmanto, Adhi Dwi, Maksum, Ahmad, Riastuti, Rini, and Soedarsono, Johny W.

Subjects

*NANOCOMPOSITE materials, *SILVER salts, *SCANNING electron microscopes, *UREA, *GRAPHENE oxide, *DYES & dyeing, *UREA derivatives

Abstract

In this study, the synthesis of reduced graphene oxide-silver nanoparticles (rGO-AgNPs) was carried out simultaneously by reducing graphene oxide and silver salts. The synthesized nanocomposites were successfully characterized by using UV-vis spectroscopy, X-ray diffraction, and scanning electron microscope (SEM). Methyl Orange dye was used to study the adsorption efficiency of rGO-AgNPs nanocomposites. Parameters affecting the adsorption rate such as the effect of time and pH were investigated. The results showed that the rGO-AgNPs composite was effective in absorbing dyes of methyl orange for 3 hours with a degradation percentage of 15%. [ABSTRACT FROM AUTHOR]

Published

2024

2. Synthesis of graphite oxide using hummers method: Oxidation time influence.

Author

Ciptasari, Nurhayati Indah, Darsono, Nono, Handayani, Murni, and Soedarsono, Johny W.

Subjects

*GRAPHITE oxide, *GRAPHENE synthesis, *CHEMICAL vapor deposition, *GRAPHENE oxide, *HUMMER trucks, *RAW materials

Abstract

Graphene has many applications and is a promising material. Graphene synthesis methods include mechanical exfoliation, GO reduction, and chemical vapor deposition. In this work, the graphite synthesis to produce graphite oxide powder as a raw material for graphene oxide with a variation in oxidation time using the Hummers method was performed. Characterization of the result was analyzed using x-ray diffraction (XRD) and scanning electron microscopy-energy dispersive spectroscopy (SEM-EDS). The XRD investigations resulted in a peak of graphite oxide material with the highest intensity is obtained at the oxidation time of 20 hours. Based on SEM images, sample thickness morphology is uneven and overlaps. The surface morphology of the thinner graphite oxide is slightly transparent under oxidation-time conditions of 20 hours. [ABSTRACT FROM AUTHOR]

Published

2021

3. Synthesis of superhydrophobic carbon sphere by pyrolysis of heavy oil fraction of coal tar/ferrocene mixture and their magnetic nanostructure.

Author

Thaha, Yudi Nugraha, Ridhova, Aga, Akbar, Ari Yustisia, Hakim, Rahmanisa, Phiciato, Ciptasari, Nurhayati Indah, Darsono, Nono, Savitri, Meliana Nur, Elia, Tuti Purnama, and Muttaqin

Subjects

*COAL tar, *HEAVY oil, *MAGNETIC force microscopy, *FOURIER transform infrared spectroscopy, *FRACTIONS, *THERMOGRAVIMETRY, *AGGREGATE demand

Abstract

This present work describes the ferrocene-catalyzed conversion of heavy oil fraction of coal tar to carbon sphere aggregate films in the form of necklace-like carbon spheres, carbon sphere‑carbon nanotube composite, and pomegranate-like carbon spheres by chemical vapor deposition (CVD). Necklace-like carbon spheres exhibit hydrophobic surfaces, whereas pomegranate-like carbon spheres-CNT composites and pomegranate-like carbon spheres display superhydrophobic surfaces. The as-prepared hydrophobic and superhydrophobic surfaces were carefully characterized by Scanning Electron Microscopy (SEM), High-Resolution Transmission Electron Microscopy (HRTEM), Atomic Force Microscopy (AFM), and Magnetic Force Microscopy (MFM) to confirm the effect of geometric carbon aggregates with thermally decomposed ferrocene (FeCp 2) catalysts on their magnetic nanostructure. The surface chemistry as well as oxidation resistance was studied by Fourier Transform Infrared spectroscopy (FTIR), Raman spectroscopy, and Thermal Gravimetric Analysis (TGA). FeCp 2 catalyst concentration in the heavy oil fraction of coal tar was observed to have a direct correlation with morphology, disordered level of graphitic structure, magnetic domain pattern arrangement, and thermal oxidation resistance of as-produced carbon sphere aggregate. [Display omitted] • Microstructure of carbon sphere prepared by CVD of heavy oil fraction of coal tar/FeCp 2 • Super-hydrophobic surface of various carbon sphere structures • Id/Ig ratio of various carbon sphere structures • Thermal degradation properties of various carbon sphere structures [ABSTRACT FROM AUTHOR]

Published

2024