Concept
Slater-type orbital
Related lectures (51)
Crystal Field Theory: Spectrochemical Series
Explores the Spectrochemical Series for metals and ligands, Crystal Field Splitting, Jahn-Teller distortion, and bonding interactions in coordination compounds.
Basis Sets I
Explores the solution of the Schrödinger equation for many-electron systems using basis sets and the concept of basis functions.
Ligand Field Theory: Crystal Field Splitting
Delves into ligand field theory, crystal field splitting, and molecular orbitals in transition metal complexes.
Crystal Field Effects: Orbitals And Charged Environment
Explores the influence of a charged environment on the energies of individual 3d orbitals.
Organic Semiconductors: Chemistry and Conduction
Explores the chemistry and conduction mechanisms of organic semiconductors, including hybridization, conjugation, singlets, triplets, exciton binding, and relaxation processes.
Wave Model of the Atom
Explores the wave model of the atom, orbitals, quantum numbers, and electron configurations.
Crystal Field Effects: Overview
Explores crystal field effects, from orbitals in charged environments to spin states in transition metals.
Quantum Numbers and Electron Configuration
Explores quantum numbers, electron configuration, valence electrons, and chemical properties of elements.
Electronic Structure: Hamiltonian and Orbitals
Covers the electronic structure in quantum physics, focusing on the Hamiltonian operator and the concept of orbitals.
Understanding Electron Density
Explores electron density in chemistry, from atomic models to machine learning applications and implications for molecular properties and drug design.