MMPWX01 Experimental Mineralogy-Petrology - in WiSem and SoSem

since 2017, we are offering the new Master-Wahlpflicht-Modul "Experimental Mineralogy-Petrology" (MMPWX01), reoccuring every fall and spring semester.

Here, we want to perform high-pressure-/high-temperature lab experiments on minerals, glasses and rocks, which will help us to understand natural magmatic and metamorphic processes. Applying different analytical methods and giving short project-related talks will be also part of this course.

A description of this module can be found in the current module catalogue (Vorlesungsverzeichnis).

Dr. Sarah B. Cichy, Dr. Georg Spiekermann & Prof. Max Wilke


Module Organisational Meeting: Monday 29th April 2019 at 13.00h in Bldg 27, Room 2.49.

In order to participate in this course, one needs to have taking recently the lab safety training!


Group Leader

Prof. Dr. Max Wilke

+49 331 977 5108
+49 331 977 5700
Arbeitsgruppenbild Mineralogie


What is mineralogy? The material science of naturally formed, mostly crystalline solids (minerals, rocks) covers also technical materials (glasses, raw materials) and, due to interaction with their environment, also fluids and gases. Depending on the focus, mineralogy is either part of Earth Sciences (Environmental Mineralogy, Geochemistry, Applied Mineralogy) or part of Chemistry (basic research, Crystallography, Material Sciences).

Historically, mineralogy can be placed between mining, chemistry and physics, where the assessment, exploitation and processing of raw materials were of interest. A key point in the development of mineralogy was the improvement of analytical methods to explore equilibria between solids, melts and solutions. As a result mineralogy became the global science of the formation and evolution of rocks and of the distribution of chemical elements in the system Earth. Today it is a material-oriented field of expertise, which investigates in the atomic structure, the physical and chemical parameters, and the conditions of formation, especially of solids. Here the main focus lies on process-orientated questions in the field of geo and material sciences, whereas mineralogy is closely linked to other natural sciences such as geology, geophysics, chemistry (e.g., solid-state chemistry, analytics, physical chemistry), and physics (e.g., nuclear physics, solid-state physics, metal physics, surface physics, magnetism, optics). Further connections can be made to the fields of biology and medicine (crystal structure investigations of biological objects and of mineralogical carrier of contaminants), as well as to astronomy and extraterrestrial physics, to chemical engineering, to mining and metallurgy, to data processing, and finally to archaeology (investigation of artefacts).