First-Principles Calculations of the Structural, Electronic, Optical, and Mechanical Properties of 21 Pyrophosphate Crystals

First-Principles Calculations of the Structural, Electronic, Optical, and Mechanical Properties of 21 Pyrophosphate Crystals

Pyrophosphate crystals have a wide array of applications in industrial and biomedical fields. However, fundamental understanding of their electronic structure, optical, and mechanical properties is still scattered and incomplete. In the present research, we report a comprehensive theoretical investi...

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Bibliographic Details
Published in:Crystals (Basel) Vol. 12; no. 8; p. 1139
Main Authors: Hasan, Sahib, Rulis, Paul, Ching, Wai-Yim
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-08-2022
MDPI
Subjects:
Charge distribution
Chemical research
Copper
Crystal structure
Crystallography
Crystals
Density functional theory
Electric properties
Electronic structure
Enzymes
First principles
first-principles calculations
Industrial applications
Manganese
MATERIALS SCIENCE
Mathematical analysis
Mechanical properties
Metabolism
Molecular structure
Optical properties
Phosphates
pyrophosphate crystals
Quantum mechanics
Quantum theory
Structure
Transition metals
Iraq
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Summary:Pyrophosphate crystals have a wide array of applications in industrial and biomedical fields. However, fundamental understanding of their electronic structure, optical, and mechanical properties is still scattered and incomplete. In the present research, we report a comprehensive theoretical investigation of 21 pyrophosphates A2M (H2P2O7)2•2H2O with either triclinic or orthorhombic crystal structure. The molecule H2P2O7 is the dominant molecular unit, whereas A = (K, Rb, NH4, Tl), M = (Zn, Cu, Mg, Ni, Co, Mn), and H2O stand for the cation elements, transition metals, and the water molecules, respectively. The electronic structure, interatomic bonding, partial charge distribution, optical properties, and mechanical properties are investigated by first-principles calculations based on density functional theory (DFT). Most of these 21 crystals are theoretically investigated for the first time. The calculated results show a complex interplay between A, M, H2P2O7, and H2O, resulting in either metallic, half-metallic, or semi-conducting characteristics. The novel concept of total bond order density (TBOD) is used as a single quantum mechanical metric to characterize the internal cohesion of these crystals to correlate with the calculated properties, especially the mechanical properties. This work provides a large database for pyrophosphate crystals and a road map for potential applications of a wider variety of phosphates.
Bibliography:AC02-05CH11231; AC03-76SF00098
USDOE
ISSN:2073-4352
2073-4352
DOI:10.3390/cryst12081139