If you’re a Masters degree holder and seeking Fully Funded PhD Programs, Ludwig Maximilian University of Munich, Germany has several online applications open for PhD programs. Explore the PhD opportunities across diverse research areas and submit your application soon.
1. Fully Funded PhD Position in Optics / Membrane Biophysics
Summary of PhD Program:
Our research focuses on the synthesis and characterization of optical tools designed to explore and manipulate biological systems using light. These tools include photo-switchable molecules and fluorescent / plasmonic particles that are suitable for biophysical applications.
Application Deadline: Open Until Filled
2. Fully Funded PhD Position in Physical Chemistry and Materials Science
Summary of PhD Program:
These projects aim to explore new materials for photocatalysis – and possibly extend them to electrocatalysis. The portfolio of materials expand from sustainable materials – including CN-based materials, earth-abundant nanostructures, 2D materials and transition metal dichalcogenide (TMDs) – all the way to single atoms and vacancies/defects. By employing novel characterization techniques, we aim to discover and control new energy conversion pathways in these materials aiming to maximize the light-matter interaction as well as understand and modulate the charge-transfer energy barriers.
Application Deadline: Open Until Filled
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3. Fully Funded PhD Position in Aquatic Animal Health
Summary of PhD Program:
At the Chair for Fish Diseases and Fisheries Biology, we encourage independent thinking and support projects related to aquatic animal (vertebrate and invertebrate) medicine, health and disease, including infectious and non-infectious diseases and pathologies.
Application Deadline: Open Until Filled
4. Fully Funded PhD Position in Experimental Physics / Nanophotonics
Summary of PhD Program:
Although the use of polymeric platforms in integrated (on-chip) photonic devices is extremely interesting, it is still seldom reported. In fact, there are only a few studies in this direction on structures fabricated by two-photon polymerization, which contrasts to the number of similar studies in semiconductor structures. In this project one aims at fabricating polymeric devices via two-photon polymerization for integrated optics, mainly using the Nanoscribe facility full accessible to the host group.
Application Deadline: Open Until Filled
5. Fully Funded PhD Position in Experimental Physics / Nanophotonics
Summary of PhD Program:
Thermal effects manifest themselves in condensed matter systems in a variety of ways, from the simple deposition of energy in a material due to light absorption, leading to local heating and temperature increase, to the opposite effect, where phonon-assisted light absorption leads to material’s cooling. The first kind of process can be exploited for detecting nanoparticles with sub 10 nm sizes in diffraction limited optical systems, while the second is used for laser cooling of solids.
Application Deadline: Open Until Filled
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6. Fully Funded PhD Position in Experimental Physics / Nanophotonics
Summary of PhD Program:
Nanophotonics has led to a huge progress in understanding of light-matter interaction many approaches have been paving the way to full control of light at the nanoscale. By nanostructuring diverse materials (metal/plasmonic, dielectric, critical media etc…), one aims at nanoscale controlling of amplitude, phase and polarization of the electromagnetic field, possibly leading to diverse application possibilities, like in biosensing, quantum and nonlinear optics, wavefront shaping, data storage and displays.
Application Deadline: Open Until Filled
7. Fully Funded PhD Position in Experimental Physics / Nanophotonics
Summary of PhD Program:
Photonic cavities play a paramount role in the whole field of optics, ranging from sensing, lasing, harmonic generation or even quantum optics. A variety of configuration is proposed and realized with continuous progressing to improve the light condiment. However, better performance always accompanied with more sophisticated fabrication techniques, which hinders the application at industrial level.
Application Deadline: Open Until Filled
8. Fully Funded PhD Position in Ultrafast Electron Imaging: Motion of Atoms in THz fields
Summary of PhD Program:
Changes and reactions of matter require the motion of atoms and electrons from initial to final positions. This happens within femtoseconds for atoms and within attoseconds for electron densities. The method of ultrafast electron diffraction allows to visualize such processes in all four dimensions of space and time. This is made possible by the picometer-sized de Broglie wavelength of keV-electrons, resulting in a ‘4D-movie’ of atoms/electrons in motion (see Figures).
Application Deadline: Open Until Filled
9. Fully Funded PhD Position in Experimental Physics / Nanophotonics
Summary of PhD Program:
Nanophotonics has revolutionized optics by controlling light propagation on length scales far below the optical diffraction limit, enabling breakthrough applications in energy harvesting, beam shaping, and few-molecule biodetection. To push the limits of light-matter coupling, the project will combine an emerging class of all-dielectric optical metasurfaces [Science 360, 1105 (2018)] with artificial intelligence (AI) methods for nanophotonic design and data analysis [Angew. Chem. Int. Ed. 58, 14810 (2019)].
Application Deadline: Open Until Filled
10. Fully Funded PhD Position in Meteorological Institute
Summary of PhD Program:
Air quality monitoring has become a very important issue within the last couple of years due to recent events. The ‘Dieselgate’ has raised public concern and the frequent exceedances of the World Health Organization emission standards in many German cities have drawn the public attention towards air quality improvement efforts and regulations.
Application Deadline: Open Until Filled
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11. Fully Funded PhD Position in Functional Nanosystems
Summary of PhD Program:
In our research program we strive to achieve synthetic control over the creation of functional nanostructures and investigate their physical properties. Periodic porous materials such as templated mesoporous materials, metalorganic frameworks and covalent organic frameworks offer a multitude of opportunities to create such nanostructures. This is based on their compositional and topological diversity, the well-defined dimensions of their nanoscale pore systems, and the great variety of possible interface design within the pore system and on the external surface.
Application Deadline: Open Until Filled
