Web Access Research Portal

Researcher: Goemann, AA (Dr Anissa Goemann)

Fields of Research

Surface properties of condensed matter
Transport properties and non-equilibrium processes
Organic chemical synthesis
Exploration geochemistry
Catalysis and mechanisms of reactions
Organometallic chemistry
Transition metal chemistry

Research Objectives

Ceramics
Expanding knowledge in the chemical sciences
Mining and extraction of copper ores

Career Best Publications

Research Publications

Capillary Microreactor Catalysis Utilising Solid Organic Macroporous Monolith Supports; IC07: Royal Australian Chemical Institute Conference of the Inorganic Division
Cation Transport and Surface Reconstruction in Lanthanum Doped Strontium Titanate at High Temperatures; Materials Research Society Proceedings
Changes in the surface topography and electronic structure of SrTiO3(110) single crystals heated under oxidizing and reducing conditions ; Surface Science
Electronic structure and topography of annealed SrTiO3(111) surfaces studied with MIES and STM; Applied Surface Science
Geometric structure and chemical composition of SrTiO3 surfaces heated under oxidizing and reducing conditions; Surface Science
Island formation on 0.1 at.% La-doped SrTiO3(100) at elevated temperatures under reducing conditions; Surface Science
Microfluidic devices for flow-through supported palladium catalysis on porous organic monolith; Australian Journal of Chemistry
Miniaturising Metal Catalysis at the Micrometre Level in Capillaries and Glass Chips; IC08: Royal Australian Chemical Institute Conference of the Inorganic Division
Miniaturising organic monolith supported metal catalysis at the sub-micrometre level in capillaries and glass chip; 4th EuCheMS Conference on Nitrogen Ligands in Coordination Chemistry, Metal-Organic Chemistry, Bioinorganic Chemistry and Homogeneous Catalysis
Nanostructures on La-doped SrTiO3 surfaces; Analytical and Bioanalytical Chemistry
P732. Mineral characterization of 8 Nyrstar Plant Samples
Palladium-mediated organic synthesis using porous polymer monolith formed in situ as a continuous catalyst support structure for application in microfluidic devices; Tetrahedron
Sr diffusion in undoped and La-doped SrTiO3 single crystals under oxidizing conditions; Physical Chemistry Chemical Physics
Study of the electronic and atomic structure of thermally treated SrTiO3(110) surfaces; Surface and Interface Analysis
Ti diffusion in La-doped SrTiO3 single crystals; Physical Chemistry Chemical Physics

Research Projects

Research Candidate Supervision