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28 Fully Funded PhD Programs at Forschungszentrum Jülich, Germany

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Are you holding Master’s degree and looking for fully funded PhD positions? Forschungszentrum Jülich, Germany invites online application for multiple funded PhD Programs / fully funded PhD positions in various research areas.

Candidates interested in fully funded PhD positions can check the details and may apply as soon as possible. Interested and eligible applicants may submit their online application for PhD programs via the University’s Online Application Portal. 

1. Fully Funded PhD Position in Synthesis and structural investigation of self-assembled cluster crystals from DNA-based nano-constructs

Summary of PhD Program:

In the institute Biomacromolecular Systems and Processes (IBI-4) we investigate the collective behaviour of systems consisting of interacting biomacromolecules, red blood cells, and novel thermosensitive DNA hybrid particles. Our aim is to gain a fundamental quantitative understanding of their phase and transport behaviour, and their biological functions. In this context, the research group of Dr. Emmanuel Stiakakis uses DNA as a programmable nanoscale bulding block for fabricating all-DNA and DNA-based particles with engineered shape and interaction potentials that could serve as model systems for exploring unconventional bull phase behavior of diverse states of matter such as liquid crystals, crystalline phases and gels. To achieve our goals, we work in parallel with theory and simulation groups.

Application Deadline: Open until filled

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2. Fully Funded PhD Position in Multi-target Electrochemical Aptamer-based Biosensor for Detection of Respiratory Diseases

Summary of PhD Program:

We aim to develop an electrochemical biosensor for the detection of target proteins from respiratory diseases such as COVID-19 and Influenza. The biosensor should be fabricated and optimized on flexible multielectrode arrays (flexMEA) utilizing aptamers as detection molecules. This project aims to advance our bio-sensing technology as a Point-of-care (PoC) device.

Application Deadline: Open until filled

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3. Fully Funded PhD Position in Electronic system design and modeling for scalable long-range qubit coupling architecture

Summary of PhD Program:

To make the vision of a universal quantum computer reality, we are working on scalable electronic architectures based on semiconductor spin quantum bits (qubits). For ultimately scaling up the number of qubits into the millions, it is crucial to move parts of the control electronics closer to the qubits. To achieve this, we design and implement integrated cryogenic circuits for qubit control and readout in state-of-the-art CMOS technologies. Since the qubits are extremely sensitive to disturbances and operate in temperatures down to a few hundred millikelvins, the requirements on power consumption, noise and area are severe. For this reason, it is necessary to develop new and groundbreaking architectures and circuit topologies. Modeling electronics and their interfaces to qubits in this challenging environment is an essential part of this.

Application Deadline: Open until filled

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4. Fully Funded PhD Position in Electronic system design and modeling for qubit initialization and readout in a scalable quantum architecture

Summary of PhD Program:

To make the vision of a universal quantum computer reality, we are working on scalable electronic architectures based on semiconductor spin quantum bits (qubits). For ultimately scaling up the number of qubits into the millions, it is crucial to move parts of the control electronics closer to the qubits. To achieve this, we design and implement integrated cryogenic circuits for qubit control and readout in state-of-the-art CMOS technologies. Since the qubits are extremely sensitive to disturbances and operate in temperatures down to a few hundred millikelvins, the requirements on power consumption, noise and area are severe. For this reason, it is necessary to develop new and groundbreaking architectures and circuit topologies. Modeling electronics and their interfaces to qubits in this challenging environment is an essential part of this.

Application Deadline: Open until filled

Apply now

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5. Fully Funded PhD Position in Pre-Silicon Verification Environment for Neuromorphic Computing Hardware Demonstrators

Summary of PhD Program:

Our team is working on integrated circuits (ICs) which combine analog and digital components from modern CMOS technologies. One research focus within the NEUROTEC II research project is the development of ICs for novel computing devices using memristive elements to advance into the Beyond Moore computing regime. For that, we research on the co-integration of memristors onto commercial CMOS processes, creating a memristive computing system with heterogeneous neuromorphic accelerators on a single die. The focus of this doctoral work will be to develop and establish a pre-silicon verification environment using the universal verification methodology (UVM) for the heterogeneous architecture of a neuromorphic accelerator.

Application Deadline: Open until filled

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6. Fully Funded PhD Position in Circular recycling in photovoltaics (PV)

Summary of PhD Program:

You will be working in the new topic area “circular recycling in PV” (headed by Dr. Ian Marius Peters) of the High Throughput Experiments Photovoltaik department. Our vision is to design new PV modules that are easier to recycle, and thus have an improved environmental footprint. This work is part of an ERC project that aims to design, model and realize new PV module architectures that i) use use materials with improved environmental performance ii) equip interfaces with a release mechanism, iii) use techno-economic and life cycle analysis to project economic and environmental improvement and guide development, iv) use industrial-grade materials and processes and v) experimentally demonstrate improved recyclability.

Application Deadline: Open until filled

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7. Fully Funded PhD Position in Organic and Perovskite solar cells

Summary of PhD Program:

Organic and perovskite solar cells are among the emerging photovoltaic technologies that can contribute to the energy transition in the near future. Compared to silicon devices, these solution-processed solar cells are cost-effective and environmentally friendly, and they allow novel applications thanks to their flexibility and partial transparency. However, the efficiency and lifetime of these solar cells still need to be improved. In addition to materials development, it is known that the fabrication process plays a decisive role in their performance. Therefore, one of the challenges for further optimization is to rationalize the effects of processing conditions on the subtle nanomorphology formed during the production of the photoactive layers. The aim of the project is to understand the relationship between the fabrication process and the resulting structures based on the fundamental physical and material properties. This theoretical work makes use of a novel, worldwide unique phase field simulation method.

Application Deadline: Open until filled

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8. Fully Funded PhD Position in Assessment of an innovative process chain for green hydrogen and methanol provision

Summary of PhD Program:

The use of green hydrogen in certain industry sectors (e.g., chemical industry or in steelmaking) is without an alternative to reach greenhouse gas neutrality. Besides of the availability of huge amounts of renewable energy the presence of water has an essential impact on the ‘green hydrogen’ potential especially in dry regions like western Africa. The transformation from hydrogen to methanol can be advantageous because of its better storage and transportation characteristics under ambient conditions. In the realm of this PhD position the techno-economic potential of an innovative process route for green hydrogen and methanol provision is going to be assessed. The process route is innovative as the needed water is adsorbed from the ambient air and this way important local ground water resources can be saved.

Application Deadline: Open until filled

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9. Fully Funded PhD Position in Ionic liquids as conducting electrolytes in polymer membrane fuel cells

Summary of PhD Program:

Proton conducting ionic liquids (PIL) are promising alternative electrolytes for intermediate-temperature PEMFCs. A large variety of combination of cation and anion gives the opportunity to design ionic liquids with different properties. You will be part of the DFG project IL-for-E-lyte in cooperation with the Friedrich-Alexander-University Erlangen-Nürnberg. The project will focus on the electrochemical characterization of phosphonium-based Brønsted-acidic ionic liquids and their interaction with a host polymer in the fuel cell membrane. New ionic liquids with modified structure will be synthesised by the project partner.

Application Deadline: Open until filled

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10. Fully Funded PhD Position in Cryo-EM of mitochondrial membrane protein complexes

Summary of PhD Program:

Mitochondria are organelles involved in multiple cell processes, ranging from energy production (in the form of ATP), to apoptosis and cell signalling. Defects in mitochondrial function result in severe diseases, primarily affecting muscles and brain. The Vercellino group is interested in understanding the assembly mechanism and function of fundamental mitochondrial membrane protein complexes using the locally available state-of-the-art cryo-EM technology as a tool.

Application Deadline: Open until filled

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11. Fully Funded PhD Position in Mathematical modelling of the soil-root-mycorrhiza system

Summary of PhD Program:

The work will be part of the DFG project “Texture Dependency of Arbuscular Mycorrhiza Induced Plant Drought Tolerance (TeAM-uP)” in collaboration with the Leibniz Institute of Vegetable and Ornamental Crops, the University of Bayreuth, the Technical University of Munich, and the Czech Academy of Sciences. The TeAM-uP project will investigate the effects of arbuscular mycorrhizal fungi (AMF) on soil and rhizosphere hydraulic properties and its consequences for host plant water and nutrient uptake as well as carbon flows under drought conditions.

Application Deadline: Open until filled

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12. Fully Funded PhD Position in Organic Electrosynthesis – Heterogeneous Catalyst under Real-Time Monitoring

Summary of PhD Program:

You will be part of the Electrocatalysis research department, which research area is to investigate fundamental relationships between electrolyte-electrode interface structure and selectivity or efficiency of chemical outcome during the preparation of complex and value-added compounds directly from the readily available feedstock. Organic synthesis under electrochemical conditions is a powerful tool for future sustainable chemical manufacturing, for which a robust catalytic materials are of high demand. A unique platform for online real-time analysis of electrochemical processes, developed in the Department of Electrocatalysis, will be applied by you to discover and develop novel Organic Electrosynthetic Protocols.

Application Deadline: 11.4.2023

Apply now

 

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13. Fully Funded PhD Position in Development of electrospun separators for Aluminum-Ion batteries

Summary of PhD Program:

The success of the energy transition is heavily dependent on innovative and efficient electrochemical energy storage systems. Currently, Li-ion is the most promising energy-storage technology. However, in view of the limited lithium and cobalt availability and their unpredictable price development, it is very challenging to cover the (stationary) storage segment with Li-based technology alone. Inexpensive batteries with a long service life, abundantly available and easily recyclable electrode materials such as aluminum and graphite are promising to make a significant contribution in the growing market segment of stationary storage devices. Due to the ecological harmlessness and the low costs for aluminum, graphite and other cell components, AI-ion battery technology is predestined for stationary applications in particular.

Application Deadline: Open until filled

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14. Multiple Fully Funded PhD Position in Development and Characterization of Tailormade Materials for Orbital Cinematography

Summary of PhD Program:

Several open positions are available at Peter Grünberg Institute – Quantum Nanoscience (PGI-3). The positions are funded by the European Union through the ERC Synergy Grant “Photoemission Orbital Cinematography: An Ultrafast Wavefunction Lab”. Directly watching in slow-motion videos how electrons move in quantum mechanical orbitals and how this motion shapes the functionalities of condensed matter has been a dream shared by all natural and life sciences. Based on synergies between photoemission orbital tomography, ultrafast photoelectron spectroscopy, lightwave electronics and advanced theory, the project “Orbital Cinema” will turn this dream into reality, by creating a cinematography at unprecedented time scales, faster than a single oscillation period of light.

Application Deadline: Open until filled

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15. Fully Funded PhD Position in Development of scalable superconducting quantum systems

Summary of PhD Program:

The mission of the Institute for Functional Quantum Systems (PGI-13) is to create the technological scientific basis to make quantum computing usable. We focus on developing quantum devices, improving their coherence an materials, and implementing quantum gates, algorithms and architectures. We use superconducting qubis 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 an engineering.

Application Deadline: Open until filled

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16. Fully Funded PhD Position in Microfluidic single-cell analysis of microbial co-cultures

Summary of PhD Program:

In the framework of the Collaborative Research Center “MibiNet” of the Universities Düsseldorf, RWTH Aachen, Cologne and several research centers, we are looking for interdisciplinary team players, especially (bio)engineers or microsystems engineers, for the project “Race for Iron”. At the Institute of Institute of Bio- and Geosciences – Biotechnology (IBG-1) of Forschungszentrum Jülich, you will develop innovative single-cell experiments for microbial mixed cultures. As a pioneer, you will analyze bacteria in a competition for microstructured iron oxide resources under well-controlled environmental conditions. High-resolution microscopy and the deep-learning image analysis will enable temporal and spatial analysis of yet unknown interactions. Within MibiNet you will be part of a large multidisciplinary research consortia in which single-cell analysis plays a central role and exciting collaborations to explore microbial networks are expected. Your position will be integrated into the graduate college “MibiNext” to prepare you for this research endeavor.

Application Deadline: Open until filled

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17. Fully Funded PhD Position in Thermophoresis of ionic (bio-)compounds and chelating agents

Summary of PhD Program:

Thermophoresis or thermodiffusion describes the coupling between a temperature gradient and the resulting mass flow in a multicomponent system. The effect is discussed in connection with the question of the “origin of life” and is used as a powerful sensor to determine the binding constants of protein-ligand systems. Thermophoretic study of ions reveals ion-specific hydration, which is crucial for biological information processes. The goal of this project is to gain a better microscopic understanding through systematic studies of the thermodiffusion of salt solutions and chelating agents used to control ions. The results obtained will be used to improve and develop new theoretical concepts for the underlying physical mechanism.

Application Deadline: Open until filled

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18. Fully Funded PhD Position in Sustainable polymers and membranes for fuel cells and water electrolysis

Summary of PhD Program:

You will be part of the department “Electrocatalytic Interfacial Engineering”, headed by Prof. Dr.-Ing. Simon Thiele, in the team “Membrane Processing and Synthesis”, headed by Dr. Jochen Kerres. The department focuses on the production, analysis and simulation of functionally optimal structures from the nanometer scale to the micrometer scale in electrochemically active materials as well as the production of new materials for electrode ionomers and polymer electrolyte membranes.

Application Deadline: Open until filled

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19. Fully Funded PhD Position in From controlling quantum processors to variational quantum algorithms

Summary of PhD Program:

The Peter Grünberg Institute for Quantum Control (PGI-8) at the Forschungszentrum Jülich specializes in novel optimization strategies for emerging quantum technologies. These emerging technologies aim to provide transformative changes to our society, including how we think about information, and unlocking vast calculations for the natural sciences, logistical problem solving, and high-performance computation. Our group has pioneered the application of quantum optimal control methods to quantum computation and many-body quantum systems. This includes the development of physical models and model reduction techniques as well as algorithmic advances of in-situ optimization and machine learning to tackle the complex processes inherent to scalable quantum devices.

Application Deadline: Open until filled

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20. Fully Funded PhD Position in Cryo-EM of membrane remodeling proteins

Summary of PhD Program:

For the Ernst Ruska-Centre for Microscopy and Spectroscopy with Electrons under the direction of Prof. Sachse, you will be working on cryo-EM studies of membrane remodelling proteins in the field of Structural Biology at our institute. The Sachse lab recently determined a series of cryo-EM structures of bacterial as well as eukaryotic members of the endosomal sorting complexes required for transport (ESCRT) protein family. In order to gain a deep structural understanding, we biochemically purify and reconstitute ESCRT protein complexes in lipid environments and visualize them by cryo-EM methods. You will be working in a network of membrane biological research and latest cryo-EM infrastructure.

Application Deadline: Open until filled

Apply now

 

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21. Fully Funded PhD Position in Material bottlenecks of the global energy transition

Summary of PhD Program:

Are you interested in questions concerning the greenhouse gas neutral energy system of the future, would you like to be part of an international research team and would you like to incorporate your own creative ideas into your doctoral thesis? Then you have come to the right place! At the Institute of Energy and Climate Research – Techno-Economic Systems Analysis (IEK-3), we use integrated models to make statements regarding one of the greatest challenges of the 21st century: achieving a greenhouse gas-neutral global energy system.

Application Deadline: Open until filled

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22. Fully Funded PhD Position in Molecular-Beam Epitaxy of Magnetically-Doped Topological Insulators

Summary of PhD Program:

Topological insulators (TIs) in combination with superconductors (SCs) have a great potential for the realization of next-generation quantum bits. These quantum bits rely on the manipulation of so-called Majorana excitations, and they are deemed to outperform existing qubits in terms of fault-tolerant computation. Besides conventional TI/SC structures, magnetically doped TIs have a great prospect for the realization of qubits. For example EuSe/TI superlattices are expected to host Majorana excitations, and such structures may be exploited in future quantum computation devices.

Application Deadline: Open until filled

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23. Fully Funded PhD Position in Development of new UHV Technologies for the “Einstein Telescope for Graviational Waves Detection”

Summary of PhD Program:

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.

Application Deadline: Open until filled

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24. Fully Funded PhD Position in Optimal control theory for full-stack superconducting quantum processor

Summary of PhD Program:

The Peter Grünberg Institute for Quantum Control (PGI-8) at the Forschungszentrum Jülich specializes in novel optimization strategies for emerging quantum technologies. These emerging technologies aim to provide transformative changes to our society, including how we think about information, and unlocking vast calculations for the natural sciences, logistical problem solving, and high-performance computation. Our group has pioneered the application of quantum optimal control methods to quantum computation and many-body quantum systems. This includes the development of physical models and model reduction techniques as well as algorithmic advances of in-situ optimization and machine learning to tackle the complex processes inherent to scalable quantum devices.

Application Deadline: Open until filled

Apply now

 

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25. Fully Funded PhD Position in High-performance Simulation and Optimization of Energy Systems

Summary of PhD Program:

In response to the urgent demands arising from climate change in an ever-growing global economy, as well as the goal of reducing dependence on imported energy sources and raw materials, the European energy system is facing a paradigm shift: away from a system based on the import of fossil fuels and relying on centralized utilities operated by large power plants, towards a dynamic, supply- and demand-driven approach, often organized in local energy communities where renewable energy is the main source. To maintain an efficient, sustainable, and stable energy supply, the integration of different infrastructures such as the electricity, gas and heat sectors and the fluctuating availability of energy pose complex challenges for both the European energy system and local energy systems.

Application Deadline: Open until filled

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26. Fully Funded PhD Position in Quantum-based Energy Grid Simulation

Summary of PhD Program:

Quantum computing is a promising, disruptive technology for solving optimization and simulation problems which is at the heart of energy grid design and operation. Your work should first focus on the translation of basic power system algorithms to quantum computing (QC). As a results of this phase – after the definition of new algorithms – use cases should be defined to highlight the value of QC in energy grids simulation and optimization as well as a road map for their use aligned with QC technology development. At the same time – considering the high societal impact of innovations in the energy sectors – your work should also be able to identify new needs from energy grid simulation that could influence quantum computing development.

Application Deadline: Open until filled

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27. Fully Funded PhD Position in Control solutions for modern energy systems

Summary of PhD Program:

With the rapid evolution of modern energy systems, the large spread of renewable resources and the increase of coupling between power, thermal and gas systems, novel control solutions are needed. At FZJ, in the framework of the Living Lab Energy Campus initiative, we are able to test custom-developed control solutions in the field.

Application Deadline: Open until filled

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28. Fully Funded PhD Position in Disruptive events in the integrated energy system and their impact on security of supply

Summary of PhD Program:

Current political events highlight the great importance of a robust and affordable energy supply. This dissertation strengthens the model-based system analysis capability of the IEK-3. The thesis addresses questions regarding the security of supply of the existing and future sector-coupled German energy system in the European and global context, which is robust against disruptive events as well as strongly changing political, societal and technological conditions. To this end, you will identify and systematize possible disruptive events from the perspective of energy demand and derive short- and medium-term scenarios to be able to examine them with existing IEK-3 energy system models. In this thesis, you will explore various questions, such as: What black swan events, natural disasters, political decisions, or crises, and what technological innovations would be imaginable and how can possible scenarios be modeled? How would these events affect an energy system and which system design is necessary to ensure a robust energy supply?

Application Deadline: Open until filled

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