Karsten Jacobsen scite author profile

We introduce the Computational 2D Materials Database (C2DB), which organises a variety of structural, thermodynamic, elastic, electronic, magnetic, and optical properties of around 1500 two-dimensional materials distributed over more than 30 different crystal structures. Material properties are systematically calculated by density functional theory and many-body perturbation theory (G 0 W 0 and the Bethe-Salpeter Equation for ∼250 materials) following a semi-automated workflow for maximal consistency and transparency. The C2DB is fully open and can be browsed online at c2db.fysik.dtu.dk or downloaded in its entirety. In this paper, we describe the workflow behind the database, present an overview of the properties and materials currently available, and explore trends and correlations in the data. Moreover, we identify a large number of new potentially synthesisable 2D materials with interesting properties targeting applications within spintronics, (opto-)electronics, and plasmonics. The C2DB offers a comprehensive and easily accessible overview of the rapidly expanding family of 2D materials and forms an ideal platform for computational modeling and design of new 2D materials and van der Waals heterostructures.

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Effect of strain on surface diffusion and nucleation

Brune

et al. 1995

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Anisotropic corner diffusion as origin for dendritic growth on hexagonal substrates

et al. 1996

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Atomic-Scale Determination of Misfit Dislocation Loops at Metal-Metal Interfaces

et al. 1995

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Island Shape-Induced Transition from 2D to 3D Growth for Pt/Pt(111)

et al. 1995

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