Photocatalytic Transformation of H2S Plentiful-Perilous Pollutant to Hydrogen Clean Fuel and Sulfur Element Using MnS Nanostructured Energy-Material

Q: How can I download an article?

To download an article from SID, first log in to the site, search for the article title, and click on the 'Download Article' option.

Q: How can I download an ISI article?

To download an ISI article on SID, enter the keyword or article title in the search bar, view the relevant results, click on the desired article, and select the 'Download Article' option.

Q: How can I access the SID database?

To access the SID database, visit SID.ir, create an account, and log in to access scientific resources.

Q: Is downloading articles from SID free?

Some articles on SID are available for free, while others require payment. Details are specified on the article's page.

Ghanimati Majid; LASHGARI MOHSEN

Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

Journal Paper

Paper Information

Journal: PETROLEUM RESEARCH Year:2019 | Volume:29 | Issue:108 Page(s): 65-72

Download Full-Text

مرکز اطلاعات علمی Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

Persian Verion

View:

695

Download:

Cites:

Information Journal Paper

Title

Photocatalytic Transformation of H2S Plentiful-Perilous Pollutant to Hydrogen Clean Fuel and Sulfur Element Using MnS Nanostructured Energy-Material

Author(s)

Ghanimati Majid | LASHGARI MOHSEN | Issue Writer Certificate

Keywords

H2S photocatalytic degradationQ1

Hydrogen FuelQ1

Nanostructured sulfide semiconductorQ1

Sulfur productionQ1

Pollutant eliminationQ1

Abstract

In this work, a nanostructured/mesoporous p-type, low-price, stable mangranese sulfide semiconductor was synthesized and employed under ambient temperature and pressure conditions, to produce hydrogren and sulfur through photocatalytic transformation of an H2S-containing alkaline solution. X-ray diffraction (XRD), field emission scanning and transmission electron microscopy (FESEM, TEM), and adsorption-desorption isotherm (BET) analyses proved a nanostructured morphologry for the synthesized energry material. Moreover, usingr diffuse reflectance UV-vis. spectroscopic (DRS) and electrochemical impedance data (Mott-Schottky diagram), bandgap energy and flat-band as well as valence and conduction bands’ potentials were determined for this semiconductor material. Photocatalytic investigations revealed a good potency for the synthesized material to produce Hydrogen Fuel and sulfur element [quantum yield: 12% measured at 434 nm]. Furthermore, after 3-hours operation of the reactor containing 0. 2 g photocatalyst, the extent of hydrogen gas and sulfur product were obtained 1350 µ mol and 42 mgr, respectively.

Cites

No record.

References

No record.

Cite

APA: Copy

Ghanimati, Majid, & LASHGARI, MOHSEN. (2019). Photocatalytic Transformation of H2S Plentiful-Perilous Pollutant to Hydrogen Clean Fuel and Sulfur Element Using MnS Nanostructured Energy-Material. PETROLEUM RESEARCH, 29(108 ), 65-72. SID. https://sid.ir/paper/114598/en

Vancouver: Copy

Ghanimati Majid, LASHGARI MOHSEN. Photocatalytic Transformation of H2S Plentiful-Perilous Pollutant to Hydrogen Clean Fuel and Sulfur Element Using MnS Nanostructured Energy-Material. PETROLEUM RESEARCH[Internet]. 2019;29(108 ):65-72. Available from: https://sid.ir/paper/114598/en

IEEE: Copy

Majid Ghanimati, and MOHSEN LASHGARI, “Photocatalytic Transformation of H2S Plentiful-Perilous Pollutant to Hydrogen Clean Fuel and Sulfur Element Using MnS Nanostructured Energy-Material,” PETROLEUM RESEARCH, vol. 29, no. 108 , pp. 65–72, 2019, [Online]. Available: https://sid.ir/paper/114598/en

Related Journal Papers