Required Citations

When you publish results in the scientific literature that were obtained with Bumblebee, you are required to include references to the program package with the appropriate release number.

General References

For simulations performed using Bumblebee:

Bumblebee 2024.1, SCM, Amsterdam, The Netherlands, http://www.scm.com. Optionally, you may add the following list of authors and contributors: A. Yakovlev, T. Trnka, B. Klumpers

Key Publications

Consult the following publications for application examples of Bumblebee for OLED simulation:

  1. Mesta, M. Carvelli, R.J. de Vries, H. van Eersel, J.J.M. van der Holst, M. Schober, M. Furno, B. Lüssem, K. Leo, P. Loebl, R. Coehoorn and P.A. Bobbert, Molecular-scale simulation of electroluminescence in a multilayer white organic light-emitting diode, Nature Materials 12, 652 (2013)

  1. Hauenstein, S. Gottardi, E. Torun, R. Coehoorn and H. van Eersel, Identification of OLED degradation scenarios by kinetic Monte Carlo simulations of lifetime experiments, Frontiers in Chemistry 9, 823210 (2021)

  1. Hauenstein, X. de Vries, C.H.L. Weijtens, P. Imbrasas, P.-A. Will, S. Lenk, K. Ortstein, S. Reineke, P.A. Bobbert, R. Coehoorn and H. van Eersel, Suppressing exciton deconfinement and dissociation for efficient thermally activated delayed fluorescence OLEDs, Journal of Applied Physics 130, 155501 (2021)

  1. van Eersel, P.A. Bobbert, R.A.J. Janssen and R. Coehoorn, Effect of Förster-mediated triplet-polaron quenching and triplet-triplet annihilation on the efficiency roll-off of organic light-emitting diodes, Journal of Applied Physics 119, 163102 (2016)