Current and Past Research Projects at CATCO in Short
- Method development
- Molecular Properties
- Chemical Substance Classes
- Drug Design and Biochemically Relevant Topics
- Heuristic Models
- Chemical Disciplines
Method Development
- Density Functional Theory for Multi-Reference Systems
Broken-Symmetry UDFT, Restricted Open-Shell Singley (ROSS)-DFT, Restricted Ensemble Kohn-Sham (REKS)-DFT, Complete Active Space (CAS)-DFT; Investigation of the problem of double counting of correlation effects.
- Self-Interaction Corrected (SIC) DFT
Investigation of the self-interaction error; SIC-DFT for small and large molecules; correct description of odd-electron bonds; investigation of the XC hole; intraelectronic and interelectronic exchange effect.
- DFT Calculation of Magnetic Properties
DFT methods for calculating magnetic shieldings and magnetizabilities; DFT methods for calculating spin-spin coupling constants; relativistic corrections for magnetic shieldings and spin-spin coupling constants.
- Investigation of the Spin-Spin Coupling Mechanism
Development of the J-OC-PSP method (decomposition of J into orbital contributions using orbital currents and partial spin polarization); investigation of Fermi contact coupling, spin dipole coupling, paramagnetic and diamagnetic spin-orbit coupling; influence of p-electrons on the coupling mechanism; graphical representation techniques of Ramsey spin densities and energy densities.
- Relativistic Theory
Development of quasirelativistic methods to be used for DFT, MBPT, and Coupled Cluster theory; gauge-independent ZORA and IORA; IORAmm; relativistic calculation of geometries, electric properties, magnetic shielding ESR-hyperfine spin coupling constants and NMR spin-spin coupling constants using analytical energy derivatives.
- Many Body Perturbation Theory - Highly Correlated WFT Methods
MP5 and MP6, approximate MP6, Convergence of the MPn series, quasi-degenerate perturbation theory, GVB-MP, gradient techniques, scaling methods.
- Coupled Cluster Methods - Highly Correlated WFT Methods
Role of T and Q effects (CCSDT, CCSDTQ), size-extensive QCISDT, QCISDTQ; CC methods correct in sixth order; spin-projected CC.
- Methods for Analytical Gradients
MP gradients and CC gradients, gradients for GVB-MP; gradients for relativistic methods.
- Development of QM/MM methods
Problem of the dangling bonds; force fields for specific molecules; inclusion of methods developed under 1.1 and 1.5.
- Methods for Analyzing and Correlating Vibrational Spectra
Development of methods to determine local adiabatic modes; adiabatic mode analysis; methods for the correlation of vibrational spectra; and CNM (characterization of normal mode) methods.
- Methods for Calculating Conformational Changes
Ring puckering coordinates; coordinates for describing bond pseudorotation; development of potential functions for puckered rings, geminal double rotors, etc.; DORCO: determination of ring conformations via NMR spin-spin coupling constants in an automated way; derivation of generalized Karplus curves.
- Methods for Investigation of the Dynamics of a Chemical Reaction
Extension of the Reaction Path Hamiltonian and the reaction valley approach; analysis of the reaction path curvature and mode coupling; direct reaction dynamics; URVA: united reaction valley approach.
Molecular Properties
- Calculation of Molecular Geometry and Conformation
Using correlation corrected WFT methods or DFT; investigation of pseudorotating rings.
- Calculation of Energetic Properties
Using correlation corrected WFT methods or DFT; investigation of potential energy surfaces of small molecules; determination of thermochemical properties.
- Calculation of Electron Density Distributions
Using correlation corrected WFT methods or DFT; topological analysis and virial partitioning; investigation of energy density distribution and Laplace concentration.
- Calculation of Properties of the Vibrating Molecule
Using correlation corrected WFT methods or DFT; calculation of harmonic vibrational frequencies and infrared intensities; isotope effects; local mode analysis.
- Calculation of Magnetic Properties
Calculation of magnetic shieldings and chemical shifts using HF-IGLO, DFT-IGLO, GIAO or GIAO-MP methods; calculation of magnetic susceptibilities and susceptibility exaltations; CC and DFT calculation of spin-spin coupling constants.
Chemical Substance Classes
- Investigation of Carbocations
NMR chemical shifts in gas phase and solution, stability, structure, reactivity; aromatic and homoaromatic carbocations; application of NMR/ab initio/chemical shift methods.
- Investigation of Silyl Cation
Structure and stability, calculation of 29Si chemical shifts, silylium cations, investigation of silylium cations in solution (interactions with solvents), bonding in silylium cation-solvent complexes.
- Investigation of Peroxides and Polyoxides
Investigation of the ozonolysis of alkenes and alkines; ozonides, organic and inorganic peroxides, carbonyl oxides and dioxiranes; carbene-oxygen reactions.
- Investigation of Strained Molecules
Three-membered rings in particular cyclopropyl derivatives; anti-Bredt compounds; theory of ring strain; steric repulsion and steric attraction (cis-effect).
- Investigation of Biradicals
Structure and stability of dehydrobenzenes; products of the Myers cyclization; dioxymethanes; oxythiamethanes.
- Investigation of Tin Compounds
Structure and stability of stannanes and stannyl cations; calculation of d119Sn chemical shifts; free stannylium cations in solution.
- Investigation of van der Waals Complexes
Structure and stability of Ar-complexes with aromatic molecules; oxygen and ozone complexes with alkenes and aromatic molecules; electron density description.
- Investigation of Frozen Transition States
Stabilization of transition states by substituents; homoaromatic carbocations; substituted semibullvalenes.
Drug Design and Biochemically Relevant Topics
- Investigation of Naturally Occurring Enediynes
Structure and stability of triggered and un-triggered dynemicin; stereoisomers of calicheamicin; investigation of its aglycone.
- Development of a New Antitumor Drug
Development of a drug design strategy; new warheads for enediynes; pH-dependence of the triggering of the warhead; construction of the real drug; favorable docking modes; calculation of binding energies; determination of DNA cleavage sites.
- Susceptibility of Proteins to Enediyne Ligands
Protein damage as an alternative to DNA cleavage; design of proteinophilic enediynes.
- Generation of Acrylamid in Food
Condition, mechanism, genotoxicity, carcinogenicity and adduct formation, investigation of the Maillard reaction.
- Investigation of the Nerve Gases Sarin and Soman
Structure, stability and toxicity; detection by NMR spectroscopy.
- Toxin Ricin - One of the Most Toxic Compounds
Investigation of the possibility to use this compound as new anticancer drug.
- Virtual Screening
Encoding of chemical information in bit strings.
- Investigation of the Anti-Malarial Drug Artemisinin
Stability and conformation; lability of the peroxidic group; reactions with Fe ions; reaction with the heme group.
Heuristic Models and Concepts
- Theory of the Chemical Bond
Electron Density Analysis, Investigation of Laplace concentrations and energy density distributions; derivation of bond properties from vibrational frequencies and infrared intensities.
- Concept of Aromaticity and Homoaromaticity
Problem of selecting references; description with geometric, energetic and magnetic properties of molecules; electron density description; s-aromaticity.
- Concept of Molecular Strain
Calculation of molecular geometries for gas and solution phases; calculation of infrared and NMR signals based on ab initio and DFT optimized geometries.
Chemical Disciplines
- Structure Elucidation of Molecules
Calculation of molecular geometries for gas and solution phases; calculation of infrared and NMR signals based on ab initio and DFT optimized geometries.
- Stability Analysis of Molecules
Rationalization of molecular stability by conjugation, hyperconjugation, anomeric effect, homoconjugation, etc. using MO models and electron density distribution.
- Elucidation of Reaction Mechanism
Pericyclic reactions in particular [2+2] and [4+2] cycloadditions; valence isomerization, substitution reactions, solvent effects; energy transfer and energy dissipation; Bergman and Myers cyclization; ozonolysis reaction and other oxidation reactions.
- Solvation and Solvent Effects
Geometries, energies and magnetic properties of molecules in solution; interactions of carbocations and silylium cations with various solvents.
- NMR Spectroscopy
NMR chemical shifts by IGLO, GIAO, SOS-DFT, magnetic susceptibilities, NMR/ab initio/Chemical Shift methods for the determination of molecular geometries in solution, correlation between spin-spin coupling constants and molecular geometry; Karplus curves.
- Infrared Spectroscopy, in particular Matrix Isolation Spectroscopy
IR determination of labile compounds, reaction mechanism, adiabatic analysis.
- Microwave Spectroscopy
Investigation of argon van der Waals complexes; investigation of ozone complexes.
- Inorganic Chemistry
Investigation of tin compounds: stannanes, stannylium cations; investigation of sulfur compounds: sulfanes, organo sulfur compounds; investigation of Ti compounds.
- Biochemistry
Anticancer drugs, reaction mechanism enediyne cytostatica and antibiotics; Bergmann and Myers cyclizations; structure and stability of biradicals that attack DNA.
- Reaction Dynamics
Reaction Path Hamiltonian, Direct dynamics, RRKM calculations; adiabatic mode analysis, electron density analysis; investigation of substitution reactions; investigation of pericyclic reactions.
- Atmospheric Chemistry
OH production, Ozonolysis, Carbonyl oxides, reaction mechanism, dioxirane reactions.
