The fundamental vision of the Center for Functional Particle Systems (FPS) is to develop methods and processes to produce, process and apply particles with defined size, shape, (pore) structure and tailored surface properties. These particle building blocks can then be assembled into functional structures with specific electronic, optical, catalytic or biological properties. The self-organization processes that occur are controlled in multi-phase systems via the interactions between the particles. In addition to structure-property functions, the FPS also focuses on structure-process relationships right from the start, as this is the only way to create particles with a specific, multifunctional property profile and correspondingly high added value. The aim of the project is to bundle the process chain for the production, functionalization and characterization of particle systems established in the FPS in a core facility, in which users receive simple, transparent access to the diverse and powerful processes tailored to the respective research need. The structural combination of the aforementioned competencies in the FPS Core Facility and the targeted expansion of the equipment to include complementary and powerful methods for the cross-scale characterization of complex particle systems establishes a technology platform and hub for meeting and networking with international scientists and thus promises to become a "lighthouse" in the scientific landscape. By setting up an FPS Core Facility, the following goals are pursued: 1) Providing a unique range of methods at the highest scientific level. 2) Expanding and sustainably ensuring scientific visibility through multiple collaborations at national and international levels. 3) Ensuring efficient utilization of large equipment, especially to compensate for fluctuating utilization due to internal work. 4) Bundling experimental equipment, expanding the complementary pool of methods and avoiding redundant large-scale equipment and expertise. 5) Expanding the methodological diversity by integrating additional large-scale equipment and expertise into the FPS Core Facility. 6) Expansion of the large equipment offering for external users in addition to the other two user groups (commissioned work, collaborations). 7) Continuous development of graduate and postgraduate training through method-specific training courses.

DFG Programme Core Facilities

Applicant Institution Friedrich-Alexander-Universität Erlangen-Nürnberg

Leader Professor Dr. Martin Hartmann

Co-Investigators Professor Dr.-Ing. Wolfgang Peukert; Professor Dr. Matthias Thommes