Multisite Search
http://natural-sciences.nwu.ac.za/electrochemistry-energy-environment-eee-group/collaborators
Collaborators
Our collaborators and/or coinvestigators are as follows: Prof Svein Sunde, Department of Materials Science and Engineering, Norwegian University of Science and Technology, Trondheim, Norway Prof Frode Seland, Department of Materials Science and Engineering, Norwegian University of Science and Technology, Trondheim, Norway Prof Vijday…http://natural-sciences.nwu.ac.za/electrochemistry-energy-environment-eee-group/funders
Funders
Anglo American Platinum Lonmin National Research Foundation of South Africa\ HySA Infrastructurehttp://natural-sciences.nwu.ac.za/atmospheric-chemistry-research-group/history-group
History to the Group
The Atmospheric Chemistry Research Group (ACRG) was established in the 1990s by Prof JJ Pienaar with a specific focus on studying the reaction kinetics of atmospheric chemical species. In 2008, Prof PG van Zyl and Prof JP Beukes took over the management of the ACRG, during which the focus of research shifted towards ground-based in-situ…http://natural-sciences.nwu.ac.za/pure-and-applied-analytics-paa/program-and-special-issue
Program and Special Issue
.bg { padding: 1em; color: white; background-color: black; clear: left; text-align: center; } .btn-group-vertical { width: 100%; } 6TH Workshop on Goodness-Of-Fit, Change-Point and Related Problems Skukuza Lodge, Kruger National Park, South Africa 25 – 29 August, 2023 Home Invited…http://natural-sciences.nwu.ac.za/laboratory-applied-molecular-modelling-lamm/history-group
History to the Group
The Laboratory for Applied Molecular Modelling (LAMM) was established in 2001 as an initiative of Prof Dolf Bruinsma, Prof Manie Vosloo and Dr Gerhard Lachman. In 2002 Prof Cornie van Sittert joined this effort. The primary aim of the LAMM initially was to give fundamental training to BSc Hons students in Chemistry, and training of…http://natural-sciences.nwu.ac.za/laboratory-applied-molecular-modelling-lamm/background-research
Background to the Research
The LAMM specialises in computational catalysis, focussing on developing and applying theoretical models based on density functional theory to comprehend the fundamental chemistry and mechanisms of homogeneous and heterogeneous catalysis. The group aims to identify catalysts that can be utilised to develop cost-effective renewable energy sources…http://natural-sciences.nwu.ac.za/laboratory-applied-molecular-modelling-lamm/current-research-focus
Current Research Focus
The current projects of the group can be summarised as follows: Application of mono and bi-metallic Pd-Cu immobilised on magnetite for CO oxidation reaction Solid-state molecular modelling of glassy carbon supported PtxPdy bimetallic electrocatalysts A computational study of solid solution platinum, palladium and aluminium electrode…http://natural-sciences.nwu.ac.za/laboratory-applied-molecular-modelling-lamm/research-leaders-and-publication-links
Research Leaders and Publication Links
Prof Cornie van Sittert Group Leader Tel: 018 299 2338 Email: Cornie.VanSittert@nwu.ac.za Office: Building G08, Room G01, Potchefstroom Campus Qualifications: PhD (Chemistry), MSc(Molecular Modelling), MSc (Chemistry), Diploma in Tertiary Education Expertise: …http://natural-sciences.nwu.ac.za/laboratory-applied-molecular-modelling-lamm/active-researchers-and-publication-links
Active Researchers and Publication Links
Dr Tsepiso Khutlane Postdoctoral Research Fellow Google Scholar Dr Cecil Botchway Postdoctoral Research Fellow …http://natural-sciences.nwu.ac.za/hydrometallurgy/research-leaders-and-publication-links
Research Leaders and Publication Links
Mr. Derik van der Westhuizen Research scientist, group leader Orcid | Scopus Telephone: +27 18 299 2346 Email: derik.vanderwesthuizen@nwu.ac.za Office: Potchefstroom Campus, Building G8, Room 107 Highest qualification: M.Sc in Chemical Engineering Expertise: solvent extraction,…http://natural-sciences.nwu.ac.za/hydrometallurgy/current-research-focus
Current Research Focus
In an effort to create more sustainable outcomes for the mining and energy industries, the Hydrometallurgy research group is teaming up with the NWU Minerals Beneficiation research group at the Faculty of Engineering's Centre of Excellence for Carbon based Fuels (CoE for CbF) to conduct joint research as a cluster. This cluster is well-equipped to…http://natural-sciences.nwu.ac.za/hydrometallurgy/active-researchers-and-publication-links
Active Researchers and Publication Links
Shriya Roopa Jnr. Metallurgist Orcid Marcus Keulder Jnr. Metallurgist Hanno Bijzet Process Engineer…http://natural-sciences.nwu.ac.za/hydrometallurgy/collaborators
Collaborators
Our collaborators and/or coinvestigators are as follows: Dr. J. Kerres, Team Leader, Membrane Polymer Synthesis, HI-ERN, Erlangen, Germany Dr. V. Atanasov, Group Leader, Stuttgart University, Germany Dr. OSL Bruinsma, Managing Director, Bruinsma Solutions, South Africa Prof. M. Dry, Managing Director, Arithmetek, Canada Mr. P.…http://natural-sciences.nwu.ac.za/hydrometallurgy/funders
Funders
Tharisa Minerals Arxo Metals RedoxOne Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) National Research Foundation (NRF, South Africa) Technology Innovation Agency (TIA, South Africa) The Chemical Industries Education & Training Authority (CHIETA, South Africa)http://natural-sciences.nwu.ac.za/laboratory-analytical-services/key-functions-las
Key Functions of the LAS
The Key Functions of the LAS include: Provision of state-of-the-art spectroscopic instruments Separation and thermal analyses equipment Knowledge transfer and training to students and researchers in all disciplines of science and engineeringhttp://natural-sciences.nwu.ac.za/laboratory-analytical-services/bruker-micro-qtof-hrms-dip-apci-and-esi-sources
Bruker Micro QTOF (HRMS) with DIP-APCI and ESI sources
The Bruker MicroQTOF II is a high-resolution mass spectrometer that is equipped with both DIP-APCI and ESI ionization sources. This instrument is widely used in various research fields, such as metabolomics, proteomics, and environmental analysis, due to its high sensitivity, accuracy, and resolution. The DIP-APCI source allows for the direct…http://natural-sciences.nwu.ac.za/laboratory-analytical-services/bruker-autoflex-speed-iii-maldi-stainless-steel-polished-steel
Bruker Autoflex speed III MALDI with stainless steel, polished steel target plates and a TLC accessory plate
The Bruker Autoflex Speed III TOF/TOF is a matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometer that combines the high-resolution capability of time-of-flight (TOF) mass spectrometry with the specificity of tandem mass spectrometry (MS/MS). The instrument is compatible with both ground steel and polished…http://natural-sciences.nwu.ac.za/laboratory-analytical-services/bruker-600-mhz-nuclear-magnetic-resonance-spectrometer-nmr-direct
Bruker 600 MHz nuclear magnetic resonance spectrometer (NMR) with direct (BBO) and indirect (TBI) broadband observation probes
The 600 MHz NMR spectrometer is a high-field instrument with a magnet strength of approximately 14 Tesla. The NMR spectrometer is a workhorse and more than 1 000 samples are analysed per annum. Samples that are dissolved in liquids can be analysed. Routine analysis can be performed, which typically involves 1H, 11B, 13C, 19F, and 31P…http://natural-sciences.nwu.ac.za/laboratory-analytical-services/bruker-emx-electron-paramagnetic-resonance-spectrometer-epr
Bruker EMX electron paramagnetic resonance spectrometer (EPR)
The Bruker EMX EPR is a high-performance electron paramagnetic resonance (EPR) spectrometer used for the analysis of paramagnetic species in various research fields, including chemistry, materials science, biology, and medicine. The instrument is equipped with a superconducting magnet, microwave system, and temperature control system,…http://natural-sciences.nwu.ac.za/laboratory-analytical-services/agilent-ultravioletvisible-range-spectrometer