Preview

Supplementary tables and raw data for publication
K. Cernevics and O. V. Yazyev, "Design Rules for Interconnects Based on Graphene Nanoribbon Junctions", under review.

The GNR junction configurations are organised hierarchically according to the following descriptors:
1) junction angle (120 or 60 degrees);
2) width (4-AGNR to 9-AGNR);
3) distance between the leads (intersection point class, only for 120 degree);
4) chirality (only even-numbered AGNRs).
Altogether there are 36 distinct classes of GNR junctions. 

Each class has a separate folder that contains the following folders and files:
1) Cond_values - numerical values of Conductance vs. Energy for each configuration (#.txt and #_full.txt corresponding to 0.5t energy window around the band edge or the full -3t to 3t energy range with 300 values each);
2) DOS_values - numerical values of DOS vs. Energy for each configuration (#.txt);
3) Properties.txt - configurations ranked by the best conductance near the band edge in terms of descriptor ¤ä;
4) properties - Files containing number of atoms belonging to sublattices A and B for each configuration (#.txt);
5) Structures - Coordinate files for each structure (#.xyz).

Additionally, for 27 classes that have less than 4000 configurations we also provide:
6) PDF file with all system images, DOS, Conductance, LDOS and local current plots ranked by best conductance near the band edge in terms of descriptor ¤ä;
7) ldos - LDOS plots 0.05t from band edge (#.eps);
8) Current - Local current plots 0.05t from band edge (#.eps);
9) Conductance - Conductance plots in two ranges: full (-3t to 3t) and reduced (0.5t around band edge) (#*.eps);
10) DOS - DOS plots in two ranges: full (-3t to 3t) and reduced (0.5t around band edge) (#*.eps);
11) System_pics - drawing of the GNR junction (#.eps).

The conductance profiles, DOS, LDOS, Current and System drawings of the remaining 9 groups (more than 4000 configurations) are only provided for the structures that display high ¤ä values, while for low ¤ä systems we invite readers access our online tool at MaterialsCloud website -  https://tbeta.materialscloud.io/voila/render/Tight-Binding%20Electronic%20Transport%20Application.ipynb (doi:10.24435/materialscloud:av-24) to obtain the necessary plots.

All numerical calculations have been performed using Kwant 1.4.1. version.