Add to ORKGA combined study using density functional calculations and scanning tunneling microscopy experiments shows that individual silver adatoms on ultrathin sodium chloride films on copper surfaces are stable in three different charge states—neutral, negatively, and positively charged adatoms. The charge states of the individual adatoms were manipulated by voltage pulses. The key parameters determining the stability of various charge states are identified and discussed within a simple model
Electronic states of adsorbates and insulating overlayers provide a wealth of scientifically interes...
Angle- and time-resolved two-photon photoemission is used to study the ultrafast electron dynamics a...
Single Co adatoms adsorbed on a double-layer NaCl film supported by Cu(111) were negatively charged ...
The nature and control of individual metal atoms on insulators are of great importance in emerging a...
We show charge-state manipulation of single Au adatoms on 2–11 monolayer (ML) thick NaCl films on Cu...
Charge states of atoms can be investigated with scanning tunneling microscopy, but this method requi...
Charge states of atoms can be investigated with scanning tunneling microscopy, but this method requi...
We report the excited-state electron dynamics for ultrathin films of NaCl on Ag(100). The first thre...
International audienceThis work reports on the electron-induced modification of NaCl thin film grown...
In this work we have performed first-principles calculations based on the spin-polarized density-fun...
We report results on the growth of an NaCl film on Ag(110) under ultrahigh vacuum conditions. At roo...
We present a theoretical study of the electronic excited states in ultrathin ionic layers supported ...
It is known that individual metal atoms on insulating ionic films can occur in several different (me...
The scanning tunneling microscope (STM) made it possible to manipulate atoms and move them around. N...
We present a first-principle study of gold and copper atoms adsorbed in NaCl(001) surfaces. Motivate...
Electronic states of adsorbates and insulating overlayers provide a wealth of scientifically interes...
Angle- and time-resolved two-photon photoemission is used to study the ultrafast electron dynamics a...
Single Co adatoms adsorbed on a double-layer NaCl film supported by Cu(111) were negatively charged ...
The nature and control of individual metal atoms on insulators are of great importance in emerging a...
We show charge-state manipulation of single Au adatoms on 2–11 monolayer (ML) thick NaCl films on Cu...
Charge states of atoms can be investigated with scanning tunneling microscopy, but this method requi...
Charge states of atoms can be investigated with scanning tunneling microscopy, but this method requi...
We report the excited-state electron dynamics for ultrathin films of NaCl on Ag(100). The first thre...
International audienceThis work reports on the electron-induced modification of NaCl thin film grown...
In this work we have performed first-principles calculations based on the spin-polarized density-fun...
We report results on the growth of an NaCl film on Ag(110) under ultrahigh vacuum conditions. At roo...
We present a theoretical study of the electronic excited states in ultrathin ionic layers supported ...
It is known that individual metal atoms on insulating ionic films can occur in several different (me...
The scanning tunneling microscope (STM) made it possible to manipulate atoms and move them around. N...
We present a first-principle study of gold and copper atoms adsorbed in NaCl(001) surfaces. Motivate...
Electronic states of adsorbates and insulating overlayers provide a wealth of scientifically interes...
Angle- and time-resolved two-photon photoemission is used to study the ultrafast electron dynamics a...
Single Co adatoms adsorbed on a double-layer NaCl film supported by Cu(111) were negatively charged ...