BaDElPh Publications

All investigations hereby listed were conducted, in part or entirely, using the BaDElPh beamline and/or end station.

2022

1. Anomalies at the Dirac point in graphene and its hole-doped compositions
   Pramanik A., Thakur S., Singh B., Willke P., Wenderoth M., Hofsäss H., Di Santo G., Petaccia L., Maiti K.
   Physical Review Letters, Vol. 128 - 16, p. 166401 (2022)
   doi: 10.1103/PhysRevLett.128.166401 (Journal Article)
2. Clarifying the apparent flattening of the graphene band near the van Hove singularity
   Jugovac M., Tresca C., Cojocariu I., Di Santo G., Zhao W., Petaccia L., Moras P., Profeta G., Bisti F.
   Physical Review B, Vol. 105 - 24, p. L241107 (2022)
   doi: 10.1103/PhysRevB.105.L241107 (Journal Article)
3. Spin-polarized hybrid states in epitaxially-aligned and rotated graphene on cobalt
   Jugovac M., Donkor E.D., Moras P., Cojocariu I., Genuzio F., Zamborlini G., Di Santo G., Petaccia L., Stojić N., Feyer V., Schneider C.M., Locatelli A., Menteş T.O.
   Carbon, Vol. 198, pp. 188-194 (2022)
   doi: 10.1016/j.carbon.2022.07.011 (Journal Article)
4. Surface Zn enrichment induced by excimer laser annealing in ZnO nanorods
   Carlomagno I., Lucarini I., Secchi V., Maita F., Polese D., Mirabella S., Franzò G., Notargiacomo A., Di Santo G., Gonzalez S., Petaccia L., Maiolo L.
   Applied Surface Science, Vol. 587, p. 152313 (2022)
   doi: 10.1016/j.apsusc.2021.152313 (Journal Article)
5. Thermal annealing of graphene implanted with Mn at ultralow energies: From disordered and contaminated to nearly pristine graphene
   Lin P.-C., Villarreal R., Bana H., Zarkua Z., Hendriks V., Tsai H.-C., Auge M., Junge F., Hofsäss H., Tosi E., Lacovig P., Lizzit S., Zhao W., Di Santo G., Petaccia L., De Feyter S., De Gendt S., Brems S., Pereira L.M.C.
   J. Phys. Chem. C, Vol. 126 - 25, pp. 10494-10505 (2022)
   doi: 10.1021/acs.jpcc.2c00855 (Journal Article)