ELECTRONIC-STRUCTURES OF THE ALKALI-CONTAINING BUCKMINSTERFULLERENES (A-DELTA-C60) (A=LI,NA,K,RB,CS) AND THE HALOGEN-CONTAINING BUCKMINSTERFULLERENES (H-DELTA-C60) (H=F,CL,BR,I)
- Authors
-
- zhang, dr
- ja, wu
- yan, jm
- Publication Date
- Jan 01, 1993
- Source
- Knowledge Repository of SEMI,CAS
- Keywords
-
- Spheroidal Carbon Shells
- Molecular-Orbital Theory
- Atom-Superposition
- C60
- Complexes
- C-60
- Superconductivity
- Stability
- Clusters
- Series
- 半导体物理
- Molecular Orbital Theory
- Complexes
- Electrical Properties
- Stability
- Clusters
- Series
- 分子轨道理论
- Linear Complexes
- Elektrische Eigenschaften
- Proprietes Electriques
- Electrical Props
- Bardeen Approximation
- Electrical Conductivity
- Superconductivity
- Electric Properties
- 超导[电]性
- Bcs Theory
- Bardeen-Cooper-Schrieffer Theory
- Meissner Effect
- Magnetic Flux Jumping
- Meissner-Ochsenfeld Effect
- Penetration Depth (Superconductivity)
- Superconductors
- Supraconductivite
- Supraleitung
- 稳定性
- 稳定性问题
- 失稳
- Stabilization
- Absolute Stability
- Asymptotic Stability
- Exponential Stability
- Circuit Bistability
- Circuit Stability
- Input-Output Stability
- Mechanical Stability
- Balancing (Mechanical Systems)
- Mechanical Instability
- Nyquist Criterion
- Nyquist Stability
- Popov Criterion
- Dynamic Stability
- Instability
- Robust Stability
- Robustness
- Stabilisation
- Transient Stability
- Stability Criteria
- 渐近稳定性
- Missile Stabilization
- 输入输出稳定性
- 镇定
- Dynamic Instability
- Stabilizing
- Controllability
- Stabilizing Treatment
- 级数
- Serials
- License
- Unknown
- External links
Abstract
The geometrical parameters and electronic structures of C60, (A partial derivative C60) (A = Li, Na, K, Rb, Cs) and (H partial derivative C60) (H = F, Cl, Br, I) have been calculated by the EHMO/ASED (atom superposition and electron delocalization) method. When putting a central atom into the C60 cage, the frontier and subfrontier orbitals of (A partial derivative C60) (A = Li, Na, K, Rb, Cs) and (H partial derivative C60) (H = F, Cl) relative to those of C60 undergo little change and thus, from the viewpoint of charge transfer, A (A = Li, Na, K, Rb, Cs) and H (H = F, Cl) are simply electron donors and acceptors for the C60 cage resPeCtively. Br is an electron acceptor but it does influence the frontier and subfrontier MOs for the C60 cage, and although there is no charge transfer between I and the C60 cage, the frontier and subfrontier MOs for the C60 cage are obviously influenced by I. The stabilities DELTAE(X) (DELTAE(X) = (E(X) + E(C60)) - E(x partial derivative C60)) follow the sequence I < Br < None < Cl < F < Li < Na < K < Rb < Cs while the cage radii r follow the inverse sequence. The stability order and the cage radii order have been explained by means of the (exp-6-1) potential.