Add to ORKGThe onsite molecular Coulomb interaction (U) of solid C60 is determined by means of a comparison of the selfconvolution and the KVV Auger spectrum and found to be 1.6 +/- 0.2 eV and nearly independent of the molecular orbitals. This value of U leads to Frenkel type molecular excitons in the 1.5 - 2 eV range.</p
The existing models for the interaction potential of C$\sb{60}$ molecules are not very successful in...
We have studied the electronic and vibrational properties of the C-60 molecule by means of simplifie...
An analytical model for the static screened Coulomb interaction of a semiconductor sphere that accur...
The onsite molecular Coulomb interaction (U) of solid C60 is determined by means of a comparison of ...
The onsite molecular Coulomb interaction (U) of solid C60 is determined by means of a comparison of ...
The band gap of solid C60 is found to be 2.3 ± 0.1 eV. The on-site molecular C60 Coulomb interaction...
The bandgap of solid C60 is found to be 2.3 +/- 0.1 eV. The on-site molecular C60 Coulomb interactio...
The bandgap of solid C60 is found to be 2.3 ± 0.1 eV. The on-site molecular C60 Coulomb interaction ...
In this paper the lowest exciton levels of solid C-60 are calculated. Based on the energy band struc...
Indexación: ScieloA Density Functional microscopic model of C60, consisting of seven molecular orbit...
The electron energy loss (EEL) spectrum of the triplet exciton of the (111) surface of solid C60 has...
The existing models for the interaction potential of C$\sb{60}$ molecules are not very successful in...
We have studied the electronic and vibrational properties of the C-60 molecule by means of simplifie...
An analytical model for the static screened Coulomb interaction of a semiconductor sphere that accur...
The onsite molecular Coulomb interaction (U) of solid C60 is determined by means of a comparison of ...
The onsite molecular Coulomb interaction (U) of solid C60 is determined by means of a comparison of ...
The band gap of solid C60 is found to be 2.3 ± 0.1 eV. The on-site molecular C60 Coulomb interaction...
The bandgap of solid C60 is found to be 2.3 +/- 0.1 eV. The on-site molecular C60 Coulomb interactio...
The bandgap of solid C60 is found to be 2.3 ± 0.1 eV. The on-site molecular C60 Coulomb interaction ...
In this paper the lowest exciton levels of solid C-60 are calculated. Based on the energy band struc...
Indexación: ScieloA Density Functional microscopic model of C60, consisting of seven molecular orbit...
The electron energy loss (EEL) spectrum of the triplet exciton of the (111) surface of solid C60 has...
The existing models for the interaction potential of C$\sb{60}$ molecules are not very successful in...
We have studied the electronic and vibrational properties of the C-60 molecule by means of simplifie...
An analytical model for the static screened Coulomb interaction of a semiconductor sphere that accur...