High-efficient physical adsorption and detection of formaldehyde using Sc- and Ti-decorated graphdiyne

•High-efficient adsorption of HCHO on Sc/Ti-decorated graphdiyne.•Sensitive current response in Sc/Ti-decorated graphdiyne for detecting HCHO.•Graphdiyne substrate could prevent the aggregation of Sc and Ti adatoms. In sensitive analysis, the ultimate limit is to achieve reliable detection on trace...

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Published inPhysics letters. A Vol. 381; no. 9; pp. 879 - 885
Main Authors Chen, Xi, Gao, Pengfei, Guo, Lei, Wen, Yanni, Fang, Dangqi, Gong, Baihua, Zhang, Yang, Zhang, Shengli
Format Journal Article
LanguageEnglish
Published Elsevier B.V 03.03.2017
Subjects
Graphdiyne
Molecular doping
Single molecule detection
Graphdiyne
Single molecule detection
Molecular doping
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Abstract •High-efficient adsorption of HCHO on Sc/Ti-decorated graphdiyne.•Sensitive current response in Sc/Ti-decorated graphdiyne for detecting HCHO.•Graphdiyne substrate could prevent the aggregation of Sc and Ti adatoms. In sensitive analysis, the ultimate limit is to achieve reliable detection on trace amount of molecules. In this work, Sc- and Ti-decorated graphdiyne were proposed as promising materials for high-efficient molecular detection. Using density functional theory calculations, we investigated the electronic response of single Sc- and Ti-atom-decorated graphdiyne to HCHO (as a typical air pollutant). Thermodynamic analysis predicted that Sc or Ti adatom could be stabilized on the corner sites of single-layer graphdiyne sheet, with migration barriers high enough to prevent Sc or Ti adatom aggregation. The adsorption of HCHO on Sc- or Ti-decorated graphdiyne was found stronger than on pristine graphene or graphdiyne, which provides a prerequisite for molecular sensing. The electronegativity of HCHO leads to strong electronic attraction from Sc or Ti adatom to HCHO, resulting in a remarkable decrease of carrier density in graphdiyne. On Ti-decorated graphdiyne, the electronic attraction of HCHO appears to be stronger than on Sc-decorated graphdiyne and changes the system from metal to n-doped semiconductor. Quantum transport calculations show a decrease of current caused by the adsorbed HCHO. The results systematically exhibit the electronic response of Sc- or Ti-decorated graphdiyne to HCHO and suggest them as promising materials for molecule detection.
AbstractList •High-efficient adsorption of HCHO on Sc/Ti-decorated graphdiyne.•Sensitive current response in Sc/Ti-decorated graphdiyne for detecting HCHO.•Graphdiyne substrate could prevent the aggregation of Sc and Ti adatoms. In sensitive analysis, the ultimate limit is to achieve reliable detection on trace amount of molecules. In this work, Sc- and Ti-decorated graphdiyne were proposed as promising materials for high-efficient molecular detection. Using density functional theory calculations, we investigated the electronic response of single Sc- and Ti-atom-decorated graphdiyne to HCHO (as a typical air pollutant). Thermodynamic analysis predicted that Sc or Ti adatom could be stabilized on the corner sites of single-layer graphdiyne sheet, with migration barriers high enough to prevent Sc or Ti adatom aggregation. The adsorption of HCHO on Sc- or Ti-decorated graphdiyne was found stronger than on pristine graphene or graphdiyne, which provides a prerequisite for molecular sensing. The electronegativity of HCHO leads to strong electronic attraction from Sc or Ti adatom to HCHO, resulting in a remarkable decrease of carrier density in graphdiyne. On Ti-decorated graphdiyne, the electronic attraction of HCHO appears to be stronger than on Sc-decorated graphdiyne and changes the system from metal to n-doped semiconductor. Quantum transport calculations show a decrease of current caused by the adsorbed HCHO. The results systematically exhibit the electronic response of Sc- or Ti-decorated graphdiyne to HCHO and suggest them as promising materials for molecule detection.
Author Chen, Xi
Zhang, Yang
Gao, Pengfei
Fang, Dangqi
Gong, Baihua
Guo, Lei
Wen, Yanni
Zhang, Shengli
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Single molecule detection
Molecular doping
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SubjectTerms Graphdiyne
Molecular doping
Single molecule detection
Title High-efficient physical adsorption and detection of formaldehyde using Sc- and Ti-decorated graphdiyne
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