Abdelkader Souigat scite author profile

The structure, electronic and magnetic properties of the MgO bulk of (1x2x2) and (1x1x1) atoms for the B4 wurtzite phase, doped by Manganese Mn have been studied. Accordingly, the Mn atom location in the far and near spots was taken into account, as well as recognizing the magnetic interaction between both spots. Such initiative was provided thanks to the use of the density function theorem (DFT). As for the energy gap of the semiconductor MgO, it was calculated by the linearly increasing planar method, and by the local density approximation (LDA), not to mention the generalized gradient approximation (CGA).It is found that the calculated results agree well with other theoretical and experimental findings. Whereas, the energy gap and the total magnetic torque have been recorded for the Mn doped MgO in the (1x2x2) super Celle. Therefore, our given results have shown that the use of the classification-generalized approximation could enable us to provide more precise results of the d orbital composites, and they also added new properties to the new compound.

Structural and Binding energy of Aun+1 and PtAun (n =1-9) Clusters

Chaouche

et al. 2022

AJRC

In the current paper, we present a systematic calculation based on the Density functional theory (DFT), which aims to highlight the potential effects of doping platinum Pt clusters and the new electronic and light structural characteristics of platinum-infused gold clusters Aun (n= 1-9), so that less energy clusters are selected from the rest of the isomers per cluster size. The most stable structures with the lowest 3D structures starting from n=6. The average length of the bonds between the atoms of each cluster and the binding energy of these clusters is calculated relative to their size. Structural characteristics were studied, discussed and compared with all calculated properties by Gradient Density Approximation (GGA) with the Local Density Approximation (LDA), also highlighted the intensity of calculated cases and comparison of Au2 cluster with PtAu that the grafting of Aun clusters platinum Pt, makes them have characteristics that distinguish them to be qualified in their use of chemical stimulation.

Chemical properties of Bimetallic (Au+Pt) using Density Functional Theory

Soudani

et al. 2022

AJRC

In this work, we present a systematic theoretical study based on the density function theory (DFT), Through which we aim to shed light on the potential effects of dopped gold Au clusters with a platinum Pt atom, and the search for the new structural, chemical properties that gold clusters will have thanks to this doping, Where the study is limited to the selection of clusters with the lowest energy among the other isomers for each cluster size. The resulting stable structures with lower energy reveal three dimensional structures starting at n = 6, Doping Aun clusters with platinum Pt atom leads to improvement in all properties calculated for these clusters. The chemical and electronic properties have been studied and discussed, for example Vertical electronic affinity, adiabatic electronic affinity, enthalpy and chemical hardness as a function of cluster size. All properties were calculated using generalized gradient density approximation (GGA) and locus density approximation (LDA) and compared them with each other. Where it turns out that the results obtained are close to previous theoretical and experimental studies somewhat similar to them. This type of study is presented for the first time using the density function theory.

First Principle Calculation: Effect of Doped Gold Clusters with Platinum Atom on Chemical Catalysis

Soudani

et al. 2022

AJRC

In this paper, we present a systematic computational study based on the density function theory (DFT), Which aims to shed light on the potential effects of doped gold Au clusters with a platinum Pt atom,and finding the new structural and electronic properties that will be enjoyed by gold doped with platinum PtAun (n = 1-9) clusters, So that the most stable clusters are selected from the rest of the isomers for each cluster size. We doped Aun clusters with Pt atom, we obtained very interesting results, Stable and most stable structures reveal three-dimensional structures starting from (n=6), Also, the results of the fragmentation energy and the second difference in binding energy of these clusters in relation to their size have been studied in depth. The electronic properties, such as the Homo-Lumo gap energy, Vertical ionization potential (VIP) and adiabatic ionization potential (AIP) as a function of cluster size are also studied and discussed. All properties calculated by the generalized gradient approximation (GGA) were compared with the results of the local density approximation (LDA). Whereas, the results showed that the Aun clusters doped with Pt atom changed significantly.

Ab initio Calculations of Structural and Electronic Properties of Pt3 and Cu3 clusters adsorbed on ZnO(000 ̅1)

Chaouche

et al. 2022

AJRC

This search paper is focus on the investigation of the most stability structures of Pt3 and Cu3 clusters adsorbed on ZnO (000 ̅1) surfaces in the Wurtzite stable structure. The results are obtained by using the Density Function Theory (DFT). All the calculations are performed using the Gradient Generalized Approximation to describe the exchange correlation term in SIESTA code. From this work we found new structures of Pt3 and Cu3 clusters with lowest energy. Also we have calculated the binding energy, relaxation interlayer for each cluster, bond lengths, vertical ionization potential PIv and the density of states DOS. Through the results we found that the Pt3 cluster is more stable than Cu3 cluster and confirmed by the DOS, in the other hand the ZnO-O surface is more stable than ZnO-Zn surface. The computed electron structure and DOS illustrate that the Pt3/ZnO and Cu3/ZnO clusters adsorbed on ZnO-O surfaces display metallic characteristics.