31 Fully Funded PhD Programs at Forschungszentrum Jülich, Germany

Are you holding Master’s degree and looking for PhD positions – Fully Funded PhD Programs in Europe? Forschungszentrum Jülich, Germany inviting application for funded PhD Programs or fully funded PhD Scholarship. Forschungszentrum Jülich is one of the largest university in the world with thousands of employees, students, and research scientists are involved in the innovation of science and technology daily.

Forschungszentrum Jülich has huge a campus in Germany and widely known as for its contribution in top notch education and research. The contribution of Forschungszentrum Jülich is not only limited to natural sciences and engineering but it also offers high quality research as well as higher education in bio-medical sciences, social sciences, humanities, psychology, education, architecture etc.

1. PhD Position – Simulation of the German Building Stock for Decarbonization using AI

Summary of Doctoral Project:

The goal of this thesis is to evaluate and generate detailed transition path for the decarbonization of the German building stock. Based on data sets about residential and commercial buildings you evaluate plans to electrify the heat supply and the potential for the usage for hydrogen for different building types. In this PhD Thesis methods of artificial intelligence are combined with a simulation (HiSim) and an optimization model (FINE). During this thesis you have the opportunity to collect experience in the areas of data science, artificial intelligence, modeling, building heat supply and programming. After completing this thesis, you will have an extremely in depth understanding of the German building stock, building modeling.

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2. PhD Position – Development of new UHV Technologies for the “Einstein Telescope for Graviational Waves Detection”

Summary of Doctoral Project:

Gravitational waves from colliding black holes, exploding stars or maybe from dark ages of the universe tell us about the evolution of our cosmos. Following the Nobel Prize in physics of 2017, we are now planning the next generation of even more sensitive observations. The so-called “Einstein-Telescope” (ET) is European`s future in gravitational wave detection. It might be built in the Euregio. Gravitational waves are detected by laser interferometers based on the concept of the Michelson Interferometer. The ET will include six of those interferometers with arm lengths of 10 km each in an underground, triangular configuration. To avoid interaction of the laser beams with air or any residual gas the laser beams will travel in ultrahigh vacuum tubes (UHV) with a diameter of approximately 1 m. In total, there will be 120 km of those tubes. It will be by far the largest UHV system ever built. You will work on the design of the vacuum system.

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3. PhD Position – Synthesis, characterization and electrochemical analysis of sustainable electrodes for post Li-ion batteries

Summary of Doctoral Project:

Li-ion batteries (LIBs), as the market leading power sources for portable electronic devices, electric vehicles, and large scale stationary energy storage technologies experience a growing economic and ecologic importance worldwide. However, the rapid growing demand for LIBs would deplete the earths’ resources eventually, especially for the critical metals such as Li, Ni and Co. This confronts us with the necessity to rethink battery chemistries for finding ways into more sustainability. The ways into meeting the demand for higher energy density and sustainability are multifold. One approach are new battery concepts with new core chemistries known as “Post-LIB” technologies. In this project new electrodes with relevant low cost, sustainable and more abundant elements will be developed, as such this project links into the cutting-edge research on sustainable materials for Post-LIB technologies.

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4. PhD Position – Multi-Qubit Control

Summary of Doctoral Project:

Our team is working on electronics for Quantum Computing (QC) based on integrated circuits (ICs) which combine analog and digital components from modern CMOS technologies. One research focus is the development of ICs for scalable control and read-out of semiconductor quantum bits (qubits). Up to now most of these electronics have been for single qubit examples but are getting towards larger numbers. Our modeling efforts focus more on the overall research goal of a compact, scalable machine. For implementing a computer, additional hardware components are needed next to control and readout electronics. One example is a digital unit managing and monitoring the control and readout of many qubits. The focus of this research part is the modeling of a scalable electrical unit able to coordinate the operation of larger qubit numbers.

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5. PhD Position – Negative Emissions – Potentials of Direct Air Capture and Storage Technology to Realize Greenhouse Gas-Neutrality

Summary of Doctoral Project:

Besides of a strict defossilization, negative emission pathways for taking care of hard to abate emissions need to be trod in order to reach the goal of greenhouse gas-neutrality. Sequestration of CO2 out of the air combined with underground storage can be an important puzzle piece within these pathways. The efficient operation of Direct Air Capture and Storage facilities is dependent on a variety of different site-specific factors. Due to the high electrical and thermal energy needs site-specific assessments of renewable potential is necessary. Local climate conditions can have an impact on the sequestration efficiency and need to be taken into consideration. Geological characteristics vary from site to site and need to be thoroughly assessed. Within your thesis you will combine all of theses factors to allow a model-based site-specific Direct Air Capture and Storage potenial assessment for different regions globally including economic aspects.

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6. PhD Position – In the field of Reactive Transport Phenomena: Novel experimental approaches for benchmarking reactive transport models in variably saturated porous media

Summary of Doctoral Project:

The in-depth understanding and quantification of changes of transport parameters (e.g., diffusivity) in variably saturated geological media in response to mineral dissolution or precipitation induced spatio-temporal porosity changes is a pre-requisite for a realistic description of complex coupled processes in reactive transport simulations.

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7. PhD Postition – Engineering Post-Synaptic Architectures with Native Biomembranes

Summary of Doctoral Project:

One of the research topics at the Institute of Biological Information Processing – Bioelectronics (IBI-3) of the Forschungszentrum Jülich is the development of neuroelectronic devices, whose potential applications include, among many, the study and treatment of neurodegenerative diseases. As a question of fundamental research, we’re studying biomimetic platforms and coatings that optimize the cell-chip coupling paving the way towards the implementation of in vitro platforms to investigate and characterize neurodegenerative processes involving synaptic plasticity loss. The proposed project will be focused on engineering an artificial post-synaptic platform using native biomembranes formed with blebs directly collected from biological cells. In detail, cells will be engineered to express ion channels and the role of surface curvature on ion channels localization within the membrane will be investigated; later, the coupling with neuronal cells will be investigated to characterize cell processes at the biohybrid post-synaptic interface.

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8. PhD Position – Computational investigation of ion channels and transporters

Summary of Doctoral Project:

Using a combination of molecular simulations, patch-clamp electrophysiology, and molecular biology, the Computational Neurophysiology group of Jan-Philipp Machtens at the Institute of Biological Information Processing 1 investigate the structure-dynamics-function relationships of physiologically and clinically important membrane proteins. Furthermore, we study pathologic alterations of these proteins towards novel strategies to pharmacologically correct protein and cell function under disease conditions. The PhD project will focus on permeation and selectivity mechanisms in ion channels, mechanisms of ligand and voltage activation, or functional principles of thermodynamically coupled transporters.

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9. PhD position – Photoelectrochemical characterization of the ion transport

Summary of Doctoral Project:

This project is focused on utilizing electrochemical methods for understanding how ion transport can be influenced by incident light. In particular, the project will focus on electrode materials that are amenable to light-induced ion (de)intercalation. A combination of light- and potential-modulated methods will be necessary to elucidate the charge-transfer and ion transport kinetics in such systems. The goal is to attain a better fundamental understanding about how light-generated excitons can influence ion transport in electrode materials.

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10. PhD Position – Development of a separation process for ammonia from electrolysis processes

Summary of Doctoral Project:

During your PhD work, you will contribute to scientific projects in the field of energy research. For the transformation of the energy system towards renewable sources, a significant number of new fuels and energy storage systems is discussed. Ammonia is a promising candidate as a fuel as well as a hydrogen carrier. Liquid ammonia has an energy density twice as high as liquid hydrogen and can be transported more easily. Today, ammonia is synthesized in the Haber-Bosch process from nitrogen from air and hydrogen from fossil sources. To make the ammonia synthesis CO2-neutral, the University of Melbourne develops an electrolysis process to make ammonia from nitrogen, water and renewable electricity. The ammonia obtained in this process may still contain rests of nitrogen, water or side products.

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11. PhD Position – Development of Biodegradable Neural Implants

Summary of Doctoral Project:

With the ultimate goal to characterize and understand neuronal networks, as well as to restore lost sensory and motor functions, we aim to develop neural implants for reading and modulating the neural activity of the central and peripheral nervous system in in-vivo applications. One of the main challenges that neural implants face up to date is their long-term stability and the generation of foreign body reactions, such as inflammation and scarring tissue, which can lead to implant malfunction and rejection, and finally to the removal of the device. To extend the lifespan of neural implants, strategies such as design miniaturization and the use of polymeric materials have been implemented to mimic better the mechanical properties of the nervous tissues, however, efforts have not been sufficient for implants to last longer than a year. To circumvent the long-term stability of such devices and to achieve a real seamless integration with the nervous tissue, biodegradable and miniaturized implants will be developed.

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12. PhD Position – Photonics based on SiGeSn heterostructures

Summary of Doctoral Project:

The integration of photonics components with electronics on the same microchip may potentially solve the bandwidth bottleneck in modern computers and allow devices with decreased power consumption. Nevertheless, light emission from Si -the material underpinning the whole digital world- is inefficient because of its indirect bandgap. Recently SiGeSn semiconductors, a Si-group alloys proved to be a strong candidate to finally add/extend the Si photonics with Si-based laser sources. Si-Ge-Sn heterostructures have been already tested in optoelectronic devices such as light emitting diodes, field effect transistors or detection pixels in the short-wave infrared range. However, energy efficient electrical pumped lasers, and more complex sensing and imaging devices are still to be demonstrated for practical applications.

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13. PhD Position – High Throughput Assembly, Characterization and Testing of Membrane Electrodes

Summary of Doctoral Project:

Would you like to contribute to the energy transition in Germany through your work? Then the Helmholtz Institute Erlangen-Nürnberg (for Renewable Energy) (HI ERN) is the right place for you! The HI ERN forms the core of the close partnership between Forschungszentrum Jülich, Helmholtz-Zentrum Berlin for Materials and Energy, and Friedrich-Alexander-Universität Erlangen-Nürnberg at the Erlangen site. The collaboration relates to the areas of innovative materials and processes for photovoltaic energy systems and hydrogen as a storage and carrier medium for CO2-neutral energy. Support us researching and developing solutions for the climate-neutral, sustainable, and cost-effective utilization of renewable energies.

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14. PhD-Position: Operation of Local Energy Communities

Summary of Doctoral Project:

The concept of organizing energy systems in Local Energy Communities (LEC) coordinated across multiple energy carriers has gained significant attention in the last few years as a way to combine local coordination with the need for national and international interconnection. In the EU framework, LECs have been recognized by the EU as a key component of the energy transition. The European Commission’s Clean Energy Package has also defined a legislative framework for the operation of LECs that aim at participation of LECs in energy markets. While coupling of multiple energy carriers seems a promising solution to further reduce carbon emission and to maximize generation from renewable sources, their coordinated operation is still a challenge.

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15. PhD-Position: Data-driven modelling for power system operation

Summary of Doctoral Project:

The increasing availability of data has motivated the whole scientific community in developing data-driven approaches (e.g. based on machine learning) for the analysis and operation of modern power systems. At IEK-10, you will focus on the development of new methodologies for the development of data-driven models using probabilistic machine learning approaches and demonstrate the use of such models in power systems operation. A large volume of data is available at IEK-10 for validation of the developed methods.

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16. PhD Position – Chemical mechanism development of atmospheric VOC degradation aided by pattern analysis of high-resolution mass spectrometric data

Summary of Doctoral Project:

At the Institute for Energy and Climate Research, Troposphere (IEK-8), we investigate the chemical and physical processes in the troposphere that impact the chemical composition of the atmosphere. Organic compounds impact the air quality and climate change. Their oxidation chemistry leads to highly oxygenated organic molecules (HOM) and secondary organic aerosol (SOA) formation. We explore photochemical degradation of organic compounds by applying chemical ionization mass spectrometry. The high resolution mass spectrometry provides a multitude of simultaneous information about the oxidized organic species evolving in the degradation process.

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17. PhD-Position – Development of scalable superconducting quantum systems

Summary of Doctoral Project:

The mission of the newly founded Institute for Functional Quantum Systems (PGI-13) is to create the technological and scientific basis to enable useful quantum computing. We focus on developing quantum devices, improving their coherence and materials, and implementing quantum gates and algorithms. We use superconducting qubits that operate at temperatures close to absolute zero and are controlled by high-speed signals. A key requirement is to preserve high quality quantum operations as we scale. Overcoming these exciting challenges lies at the interface between scientific research and engineering.

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18. PhD position – Development and application of high-performance models for the analysis of European energy systems

Summary of Doctoral Project:

At the Institute of Energy and Climate Research – Energy Systems Engineering (IEK-10 we focus on the development of models and algorithms for simulation and optimization of decentralized, integrated energy systems. Such systems are characterized by high spatial and temporal variability of energy supply and demand as well as by a high degree of interdependence of material and energy flows. Our research aims to provide scalable and faster than real-time capable methods and tools which enable the energy-optimal, cost efficient and safe design and operation of future energy systems.

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19. PhD position – Use of Hardware Solutions for Modern Energy System Simulation and Control

Summary of Doctoral Project:

At the Institute of Energy and Climate Research Energy Systems Engineering (IEK-10) we focus on the development of models and algorithms for simulation and optimization of decentralized, integrated energy systems. Such systems are characterized by high spatial and temporal variability of energy supply and demand as well as by a high degree of interdependency of material and energy flows. Our research at the IEK-10 aims to provide scalable and faster than real-time capable methods and tools which enable the energy-optimal, cost-efficient and safe design and operation of future energy systems.

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20. PhD Position – Methodical Conception, Design and Development of Modern Multi-Modal Energy System Simulation

Summary of Doctoral Project:

At the Institute of Energy and Climate Research Energy Systems Engineering (IEK-10) we focus on the development of models and algorithms for simulation and optimization of decentralized, integrated energy systems. Such systems are characterized by high spatial and temporal variability of energy supply and demand as well as ba a high degree of interdependence of material and energy flows. Our research at the IEK-10 aims to provide scalable and faster than real-time capable methods and tools which enable the energy-optimal, cost-efficient and safe design and operation of future energy systems.

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21. PhD-Position – Conception, Design and Development of Multi-FPGA Simulation Methods for Real-time Verification of Power Electronics enabled Energy Systems

Summary of Doctoral Project:

At the Institute of Energy and Climate Research Energy Systems Engineering (IEK-10) we focus on the development of models and algorithms for simulation and optimization of decentralized, integrated energy systems. Such systems are characterized by high spatial and temporal variability of energy supply and demand as well as by a high degree of interdependence of material and energy flows. Research at IEK-10 aims to provide scalable and faster than real-time capable methods and tools which enable the energy-optimal, cost-efficient and safe design and operation of future energy systems.

Last Application Date: Open until filled

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22. PhD Position – Conception, Design and Development of Modern Power System Simulation and Control Solutions

Summary of Doctoral Project:

IEK-10 focuses on the development of models and algorithms for simulation and optimization of decentralized, integrated energy systems. Such systems are characterized by high spatial and temporal variability of energy supply and demand as well as by a high degree of interdependency of material and energy flows. Research at IEK-10 aims to provide scalable and faster than real-time capable methods and tools which enable the energy-optimal, cost-efficient and safe design and operation of future energy systems.

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23. PhD Position – Agronomy or Botany, funded within the framework of the international EU Root2Resilience Project

Summary of Doctoral Project:

Would you like to contribute to solutions to climate change and food and biomass resource scarcity? Work with us at the Institute of Bio- and Geosciences – Plant Sciences (IBG-2) on innovative use, production, and technology concepts related to crop resilience to climate change. Roots are the primary organs through which crop plants feed themselves. Crop production is increasingly confronted with extreme and changing weather. We aim at finding root traits that could enhance crop resilience. Our research is part of a large consortium on “Root phenotyping and genetic improvement for rotational crops resilient to environmental change”. The consortium brings together top researchers around this topic, and you could become part of it. Are you a scientist pursuing an academic career at the intersect of mathematical modeling and plant biology? This is your chance to do a PhD and produce novel models and develop a strong theoretical understanding of root functioning. Join our team of experts.

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24. PhD Position – Non-invasive imaging of flow and transport in porous media

Summary of Doctoral Project:

You will be part of the collaborative research center SFB1313 on “Interface-driven multi-field processes in porous media – flow, transport and deformation” (https://www.sfb1313.uni-stuttgart.de/). The SFB1313 consortium investigates interfaces in porous media, which are known to have large impact on flow, transport and deformation. An important step is to quantify how the dynamics of fluid-fluid and fluid-solid interfaces in porous-media systems are affected by pore geometry, heterogeneity, and fractures. This will be achieved through the development of experimental knowledge as well as mathematical and computational models. IBG-3 participates in the SFB1313 and is leading the project C05 with a focus on non-invasive imaging of porous media.

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25. PhD Position – Nanoscale study of superconductors for qubits

Summary of Doctoral Project:

We look for excellent candidates who are interested in experimental work on the fundamental physics and materials science of superconductors. Samples will be fabricated by our collaborators within QSolid, as well as our own laboratories and will be analyzed using our state-of-the-art low-temperature scanning tunneling and atomic force microscopes.

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26. PhD position in applied hydrometeorologic sciences and data analytics

Summary of Doctoral Project:

The work will be part of the collaborative project ClimXtreme funded by the Federal Ministry of Education and Research, Germany. The goal of the project is to identify and analyze extreme events especially related to drought, and study the anthropogenic impact due to e.g. groundwater pumping and irrigation. You will setup and perform unique terrestrial simulations using existing scientific software ( terrsysmp.org ) at the climate time scale in cooperation with our project partners, and develop novel data analytics technologies to analyze existing and new results from regional climate simulations. The project will be conducted in collaboration with the Centre of High-Performance Computing in Terrestrial System, Geoverbund ABC/J.

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27. PhD Position – Three dimensional mapping of epidermal tissue mechanobiology upon mechanical stretching

Summary of Doctoral Project:

The human skin is the largest organ in the human body. As a multi-layered epithelium it depends functionally on a precise regulation of cell division and cellular adhesion. Faulty regulation and impaired adhesion lead to a variety of human diseases that require detailed analysis in biomimetic 3D cell culture systems. You will cultivate three dimensional, multilayered models of the epidermis on stretchable substrates and subject them to defined mechanical strain. This signal will induce cellular mechanoadaptations like reinforcement of the actin cytoskeleton and cellular adhesions that you will image and quantify in all layers. You will use photobleaching techniques to explore protein exchange upon mechanoadaptation. Moreover, you will compare cells of different genetic background.

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28. PhD Position – Theoretical condensed-matter physics

Summary of Doctoral Project:

As part of the MAGMA project (“Magnetic topological insulators for robust Majorana bound states”), which is funded by the European QuantERA program and by the national research agencies of Luxembourg, Germany and Spain, we offer a PhD position that is jointly organized by Forschungszentrum Jülich (FZJ) and the University of Luxembourg (UL). The aim of the project is to engineer Majorana bound states and to establish magnetic topological insulators as a platform for topological quantum computation.

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29. PhD Position – The role of CO2 as a resource in a global greenhouse gas-neutral energy system

Summary of Doctoral Project:

Achieving a greenhouse gas-neutral energy supply is one of the greatest challenges of the 21st century. At the Institute of Energy and Climate Research – Techno-Economic Systems Analysis (IEK-3), we use integrated models to explore how possible cost-effective transformation strategies must be designed to achieve this. Become part of our international research team and contribute your ideas and creativity on how a future global greenhouse gas neutral energy system could look like.

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30. PhD Position – High Dimensional Multi Omics Data Integration

Summary of Doctoral Project:

Your project has the aim to develop novel (interactive) workflow tools for high dimensional data integration and data mining. The data used should comprise multiple omics disciplines e.g. transcripts, metabolites and epigenetic sig-nals. Currently many analyses comprise ad-hoc methods or “standard” procedures that are disjunct. Within this project the main goals are Standardization and workflow development for such integrative data, developing integrative data mining and visualization tools and including data from public experiments and including data from different species.

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31. PhD Position – Model-Based Analysis and Optimization of Intra- and Inter-Chip Communication for High Speed Computing

Summary of Doctoral Project:

Join us in designing processors for high-performance computing made in Europe. In 2018, the European Union started with the European Processor Initiative (EPI) a long-term program with the goal to develop a low-power High Performance Computing (HPC) processor, to increase Europe’s sovereignty in the processor market. One major goal is chip-architecture optimization in order to deliver a competitive product with maximum compute throughput in 2024. For this task, modeling of the intra- and inter-chip communication is paramount, as it enables the design teams to perform a quick and cost-efficient exploration of various architecture variants. Within the ZEA-2 and in close collaboration with JSC, you will do your work on your thesis topic at the intersection between electronic design and High Performance Computing (HPC). Specifically, you will work in the context of modeling methodology and processor architecture exploration/optimization. Interest in practical programming as well as theoretic scientific work would be ideal prerequisites for this position.

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