Explores the diversity and structure of sponge spicules and skeletons, including the biomineralization process and the potential environmental archive they provide.
Covers the basics of proteomics, mass spectrometry, protein synthesis, and amino acids, emphasizing the importance of molecular weight and isotopic abundance.
Covers hydrologic transport, water pollution, the EU WATER FRAMEWORK directive, water transit times, stable isotopes, and age balance in hydrologic systems.
Explores silica biomineralization in diatoms, radiolarians, and sponges, discussing its impact on global climate and the pH-dependence of silicon biomineralization.
Covers the efficient computation of heat capacity in metal organic frameworks using quantum classical methods and explores advanced PIMD techniques beyond benchmarks.
Explores methods for analyzing microbial communities, including FISH, PCR, stable isotopes, and single-cell genomics, to link functions to individual cells.
Delves into silica biomineralization in diatoms, radiolarians, and sponges, exploring their origin, distribution, and impact on the ocean's silica cycle.
Covers exercises on radiochemistry, including mass loss calculations and decay processes of various isotopes, with practical applications in medical treatments.
Covers protein mass spectrometry, proteomics fundamentals, ionization sources, analyzers, detectors, mass accuracy, resolution, and various ionization methods.
