Category Ranking
98%
Total Visits
921
Avg Visit Duration
2 minutes
Citations
20
Article Abstract
The explicit forms of exchange-correlation (XC) potentials, which are not functional derivatives of any XC energy functional, are reasonably efficient in predicting the band gap of materials. The most successful example in this genre is the MBJ [F. Tran , , 2009 , 226401] exchange potential, which is based on the asymptotically correct Becke-Roussel (BR) exchange potential. We employ the cuspless hydrogen density and corresponding exchange hole to construct a BR like potential. The modified BR potential is again utilized in the framework of MBJ for band gap calculations. Also, we employ a Laplacian free model of the exchange hole in the framework of MBJ. These methods are analyzed by calculating band gaps of various test sets containing narrow, intermediate, and wide bandgap materials. Besides, we apply these potentials to eighteen ternary semiconductors with a chalcopyrite structure, exciting materials for photovoltaic applications. By comparing them with MBJ, we find that the band gaps obtained using the new potentials are not uniformly larger values than the MBJ potential in all cases. But, in many instances where MBJ overestimates the gap, the new potentials' band gaps are comparatively smaller and closer to the experimental ones. We also show that these potentials can correctly predict the band structure of three-dimensional topological insulators.
Download full-text PDF |
Source |
|---|---|
| http://dx.doi.org/10.1039/d1cp05425b | DOI Listing |
Publication Analysis
Top Keywords
Similar Publications
Comprehensive DFT and SCAPS-1D Study of Structural, Electronic, Optical, Mechanical, Phonon, Thermoelectric, and Photovoltaic Properties of Lead-Free ZBrO (Z = K, Rb, Cs, and Fr) Anti-Perovskites.
J Comput Chem
September 2025
Department of Electrical and Electronic Engineering, Begum Rokeya University, Rangpur, Bangladesh.
This study presents a comprehensive first-principles and device-performance investigation of alkali metal-based anti-perovskites ZBrO (Z = K, Rb, Cs, and Fr) for advanced optoelectronic and photovoltaic applications. Using density functional theory (DFT) with GGA-PBE and mGGA-rSCAN functionals, we analyzed the structural, electronic, optical, mechanical, phonon, population, and thermoelectric properties of these compounds. All ZBrO materials exhibit direct band gaps and strong optical absorption in the visible-UV spectrum.
View Article and Find Full Text PDFStructural, electronic, and thermodynamic characterization with spectroscopic, topological, reactivity, and molecular docking studies of diallyl sulfide.
J Mol Graph Model
September 2025
Department of Physics, Patan Multiple Campus, Tribhuvan University, Patandhoka, Lalitpur, 44700, Bagmati, Nepal; Department of Physics, St. Xavier's College, Maitighar, Bagmati, 44600, Kathmandu, Nepal. Electronic address:
The bioactive organosulfur compound diallyl sulfide (DAS), found in garlic and onions, was analyzed using density functional theory (DFT). DAS exhibits antimicrobial and anticancer properties, making it a potential candidate for drug discovery. Geometry optimization revealed bond lengths and angles consistent with electron delocalization.
View Article and Find Full Text PDFBonding-Guided Anisotropic Growth of Quasi-1D MXSe Thermoelectric Nanowires.
Small
September 2025
State Key Laboratory of High Performance Ceramics and Superfine Microstructure, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai, 200050, China.
Quasi-1D van der Waals materials have emerged as promising candidates for flexible electronic and thermoelectric applications due to their intrinsic anisotropy, narrow band gaps, and mechanical flexibility. Herein, MXSe (M = Nb, Ta, X = Pd, Pt) nanowires are studied to understand the bonding-directed growth mechanism. Bond valence sums and binding energy analyses reveal that weak X2-Se2 interactions perpendicular to the c-axis facilitate anisotropic growth.
View Article and Find Full Text PDFIntegrating intrinsic lightweight, superhard, and magnetic properties in 3D covalent fullerene C networks: a first-principles study.
Phys Chem Chem Phys
September 2025
School of Physics, Nanjing University of Science and Technology, Nanjing 210094, China.
Multifunctional materials that simultaneously possess intrinsic magnetic and superhard properties, particularly those composed of light elements, have a wide range of applications in advanced sensors, shielding, durable devices, and other fields. However, research on the development and understanding of such materials remains limited. In this study, a series of 3D C covalent networks derived from the C fullerene precursor were theoretically designed.
View Article and Find Full Text PDFSystematic Review of Experimental Studies in Humans on Transcranial Temporal Interference Stimulation.
J Neural Eng
September 2025
Eindhoven University of Technology, De Rondom 70, Eindhoven, 5612 AP, NETHERLANDS.
Transcranial temporal interference stimulation (tTIS) has recently emerged as a non-invasive neuromodulation method aimed at reaching deeper brain regions than conventional techniques. However, many questions about its effects remain, requiring further experimental studies. This review consolidates the experimental literature on tTIS's effects in the human brain, clarifies existing evidence, identifies knowledge gaps, and proposes future research directions to evaluate its potential.
View Article and Find Full Text PDF