单层
工作职能
金属
材料科学
密度泛函理论
费米能级
分子
吸附
二聚体
电导率
化学物理
电子结构
态密度
电子能带结构
计算化学
金属键合
化学键
无机化学
电阻率和电导率
物理化学
工作(物理)
过渡金属
分子轨道
纳米技术
电导
作者
Achraf Benbella,M'hammed Mazroui
摘要
ABSTRACT This study investigates the energetic, structural, and electronic properties of monolayers functionalized with various metal dimers (, , , AuAg, AuPt, and AgPt) using density functional theory (DFT). The calculated properties of pristine are consistent with previously reported theoretical and experimental data. Metal dimer decoration introduces new electronic states near the Fermi level and reduces the band gap, leading to significant modifications in the electronic structure. The adsorption behavior of NO and molecules on pristine and decorated surfaces was also analyzed. The results reveal that metal decoration substantially enhances gas adsorption, with ‐functionalized showing the strongest interaction, significant O–N bond elongations, pronounced charge transfer, and strong orbital hybridization, characteristic of chemisorption. Compared to NO, exhibits stronger adsorption, resulting in higher sensitivity and larger work function changes. Recovery time analysis indicates that the adsorption properties depend on both the gas molecule and the metal dimer composition. Moreover, band structure and conductivity analyses show that metal decoration improves the intrinsic conductivity of . These findings highlight the potential of metal dimer‐functionalized monolayers for toxic gas sensing, capture, and air purification applications.
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