The Interaction of Air Pollutant Molecules with Germanene and Silicene: a Density Functional Theory Study

The Interaction of Air Pollutant Molecules with Germanene and Silicene: a Density Functional Theory Study

We investigate the adsorption of atmospheric pollutants on germanene and silicene using density functional theory (DFT) calculations. In this study, we use carbon monoxide (CO) and nitric oxide (NO) as the pollutant molecules. Electronic properties of germanene and silicene are explored to obtain a...

Full description

Bibliographic Details
Main Authors: Muhammad Rifqi Al Fauzan, Wijayanti Dwi Astuti, Ghorby Al Fauzan, Sholihun Sholihun
Format: Article
Language:English
Published: Jenderal Soedirman University 2018-05-01
Series:Molekul
Subjects:
DFT
germanene
interaction
pollutant molecules
silicene
Online Access:https://ojs.jmolekul.com/ojs/index.php/jm/article/view/419
id doaj-c70b73ec610d4107a633845d0a69d880
record_format Article
spelling doaj-c70b73ec610d4107a633845d0a69d8802020-11-24T22:17:53ZengJenderal Soedirman UniversityMolekul1907-97612503-03102018-05-01131929710.20884/1.jm.2018.13.1.419241The Interaction of Air Pollutant Molecules with Germanene and Silicene: a Density Functional Theory StudyMuhammad Rifqi Al Fauzan0Wijayanti Dwi AstutiGhorby Al FauzanSholihun Sholihun1Dept. of Electrical Engineering and Informatics. Vocational College, Universitas Gadjah Mada INDONESIADepartment of Physics, Faculty of Mathematics and Natural Sciences, Universitas Gadjah Mada, Yogyakarta, IndonesiaWe investigate the adsorption of atmospheric pollutants on germanene and silicene using density functional theory (DFT) calculations. In this study, we use carbon monoxide (CO) and nitric oxide (NO) as the pollutant molecules. Electronic properties of germanene and silicene are explored to obtain a good understanding in the adsorption process. Our calculation results show both germanene and silicene provide an identical mechanism of adsorption. Germanene and silicene adsorb CO and NO spontaneously with physisorption and chemisorption types for CO and NO molecules, respectively. We also conduct the Mulliken charges calculations to evaluate the transformation of atomic charges due to the adsorption process. From Mulliken charge calculation results we can confirm the existence of charge transfer between the adsorbent materials and the pollutant molecules. This phenomenon lies behind the occurrence of the adsorption process.https://ojs.jmolekul.com/ojs/index.php/jm/article/view/419DFTgermaneneinteractionpollutant moleculessilicene
collection DOAJ
language English
format Article
sources DOAJ
author Muhammad Rifqi Al Fauzan
Wijayanti Dwi Astuti
Ghorby Al Fauzan
Sholihun Sholihun
spellingShingle Muhammad Rifqi Al Fauzan
Wijayanti Dwi Astuti
Ghorby Al Fauzan
Sholihun Sholihun
The Interaction of Air Pollutant Molecules with Germanene and Silicene: a Density Functional Theory Study
Molekul
DFT
germanene
interaction
pollutant molecules
silicene
author_facet Muhammad Rifqi Al Fauzan
Wijayanti Dwi Astuti
Ghorby Al Fauzan
Sholihun Sholihun
author_sort Muhammad Rifqi Al Fauzan
title The Interaction of Air Pollutant Molecules with Germanene and Silicene: a Density Functional Theory Study
title_short The Interaction of Air Pollutant Molecules with Germanene and Silicene: a Density Functional Theory Study
title_full The Interaction of Air Pollutant Molecules with Germanene and Silicene: a Density Functional Theory Study
title_fullStr The Interaction of Air Pollutant Molecules with Germanene and Silicene: a Density Functional Theory Study
title_full_unstemmed The Interaction of Air Pollutant Molecules with Germanene and Silicene: a Density Functional Theory Study
title_sort interaction of air pollutant molecules with germanene and silicene: a density functional theory study
publisher Jenderal Soedirman University
series Molekul
issn 1907-9761
2503-0310
publishDate 2018-05-01
description We investigate the adsorption of atmospheric pollutants on germanene and silicene using density functional theory (DFT) calculations. In this study, we use carbon monoxide (CO) and nitric oxide (NO) as the pollutant molecules. Electronic properties of germanene and silicene are explored to obtain a good understanding in the adsorption process. Our calculation results show both germanene and silicene provide an identical mechanism of adsorption. Germanene and silicene adsorb CO and NO spontaneously with physisorption and chemisorption types for CO and NO molecules, respectively. We also conduct the Mulliken charges calculations to evaluate the transformation of atomic charges due to the adsorption process. From Mulliken charge calculation results we can confirm the existence of charge transfer between the adsorbent materials and the pollutant molecules. This phenomenon lies behind the occurrence of the adsorption process.
topic DFT
germanene
interaction
pollutant molecules
silicene
url https://ojs.jmolekul.com/ojs/index.php/jm/article/view/419
work_keys_str_mv AT muhammadrifqialfauzan theinteractionofairpollutantmoleculeswithgermaneneandsiliceneadensityfunctionaltheorystudy
AT wijayantidwiastuti theinteractionofairpollutantmoleculeswithgermaneneandsiliceneadensityfunctionaltheorystudy
AT ghorbyalfauzan theinteractionofairpollutantmoleculeswithgermaneneandsiliceneadensityfunctionaltheorystudy
AT sholihunsholihun theinteractionofairpollutantmoleculeswithgermaneneandsiliceneadensityfunctionaltheorystudy
AT muhammadrifqialfauzan interactionofairpollutantmoleculeswithgermaneneandsiliceneadensityfunctionaltheorystudy
AT wijayantidwiastuti interactionofairpollutantmoleculeswithgermaneneandsiliceneadensityfunctionaltheorystudy
AT ghorbyalfauzan interactionofairpollutantmoleculeswithgermaneneandsiliceneadensityfunctionaltheorystudy
AT sholihunsholihun interactionofairpollutantmoleculeswithgermaneneandsiliceneadensityfunctionaltheorystudy
_version_ 1725784025868533760

Similar Items