Electronic structure and current injection in zinc phthalocyanine doped with tetrafluorotetracyanoquinodimethane: Interface versus bulk effects

Engineering & Materials Science

• Doping (additives) 75%
• Electric potential 8%
• Electric space charge 44%
• Electron affinity 32%
• Electronic structure 100%
• Electrons 16%
• Fermi level 29%
• Ionization potential 30%
• Molecular orbitals 86%
• Photoelectron spectroscopy 28%
• Zinc 72%

Chemical Compounds

• Doping Material 14%
• Drop 14%
• Electron Transfer 11%
• Electronic State 49%
• Fermi Level 19%
• Highest Occupied Molecular Orbital 37%
• Inverse Photoemission Spectroscopy 29%
• Ionization Potential 16%
• Liquid Film 16%
• Lowest Unoccupied Molecular Orbital 19%
• Space Charge 21%
• Tunneling 17%
• Zinc Phthalocyanine 89%

Physics & Astronomy

• carrier injection 20%
• electric potential 9%
• electron affinity 19%
• electron transfer 17%
• electronic structure 50%
• energy 4%
• injection 49%
• ionization 11%
• molecular orbitals 50%
• photoelectric emission 14%
• space charge 29%
• spectroscopy 8%
• zinc 59%