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 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
2. Fully Funded PhD Position in Synthesis and structural investigation of self-assembled cluster crystals from DNA-based nano-constructs
Summary of PhD Program:
Just as the particles (atoms and/or colloids) in ordinary crystals are arranged in a periodic lattice, cluster crystals are states of matter in which the lattice sites are occupied by clusters consisting of several particles. The interaction between the particles is purely repulsive, leading thereby to the counterintuitive result of clustering in the absence of attractions. The successful candidate will undertake the demanding task of synthesis and study the self-assembly of nanosized DNA-polymer cluster-forming constructs with dendritic and linear architecture.
Application Deadline: Open until filled
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3. Fully Funded PhD Position in Robust Energy Supply
Summary of PhD Program:
Current political events highlight the vital importance of a robust and affordable energy supply. This thesis will primarily address questions pertaining to the security of supply of the existing and future sector-coupled German energy system within both a European and global context. In the course of this research, you will investigate which disruptive events and crises could endanger the security of supply and what an effective strategy for a robust energy supply could look like.
Application Deadline: Open until filled
4. Fully Funded PhD Position in Investigation of flow of blood in 3D channels that mimic the brain vasculature (Biophysics)
Summary of PhD Program:
In the proposed project we exploit the new opportunities of 3D microfluidics achieved by selective laser-induced etching to address three long standing questions on the dynamics of blood flow which are normally literary hidden and now have become accessible:
1) How does the blood start to flow following cardiac arrest?
2) What is the effect of anomalies in the microvascular structure, such as aneurysms, on blood flow?
3) How do high concentrations of amyloids in proteinopathic diseases such as Alzheimer affect RBCs?
Application Deadline: Open until filled
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5. 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.
Application Deadline: Open until filled
6. Fully Funded PhD Position in Investigation of the stability and corrosion behavior of uranium nitrides
Summary of PhD Program:
Innovative nuclear reactor concepts are currently intensively discussed internationally. For the operation of most of these concepts novel fuels are envisaged, in particular materials with a matrix of uranium nitride (UN) due to their good thermophysical properties. In addition to their suitability as nuclear fuel, the stability of the materials in contact with aqueous solutions, among other things, is of great interest for the safety assessment of a repository. At IEK-6, such investigations are being carried out to maintain competence as part of the European collaborative project FREDMANS.
Application Deadline: 31.5.2023
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7. Fully Funded PhD Position in Sulfide-based solid electrolyte materials for battery applications
Summary of PhD Program:
The widespread adoption of Li-ion batteries can be found in devices ranging from small personal electronics to larger battery banks used in electric vehicles and stationary energy storage for renewable energy. These batteries, although having large capacities have the inherent disadvantage of being a fire hazard leading to a high risk of catastrophic failure. Novel solid-state batteries represent a possible route for the next generation of electrochemical energy storage devices due to their higher stability, longer lifetime, and high energy density. Out of the potential candidates for solid-state electrolytes, sulfide-based materials are promising due to their high ionic conductivity and good processability.
Application Deadline: 6.6.2023
8. Fully Funded PhD Position in Quantitative Plant Sciences
Summary of PhD Program:
You have a deep interest in how plants optimize nutrient acquisition and acclimate to different soil conditions. You are curious about root functioning and preferably have some experience within plant root research, for example during your master thesis work. You enjoy designing, conducting, and analysing experiments. You enjoy math and quantitative approaches in science and have some affinity with modelling and or computer programming.
Application Deadline: Open until filled
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9. Fully Funded PhD Position in Geochemical Processes and Multiphase Flow in Porous Media
Summary of PhD Program:
Exploring geochemical processes (e.g. coupled mineral dissolution and precipitation) leading to gas generation in water saturated porous media to assess their consequences on solute transport
Development and application of dynamic macroscopic experiments combined with magnetic resonance imaging to gain insights into relevant processes
Collaboration in the development of mechanistic models to describe system evolution, testing models against experimental observations
Application Deadline: 11.6.2023
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10. Fully Funded PhD Position in High-performance Simulation of Micron-scale Plasticity of Crystalline Matter
Summary of PhD Program:
The field of micron-scale plasticity is particularly interesting as size-dependent behaviour, intermittency and far-from-equilibrium processes directly show in the resulting mechanical properties. At this length-scale simulation methods such as Discrete Dislocation Dynamics are becoming capable of modeling the evolution of the entire microstructure and, thus, can help in understanding such technologically rather relevant phenomena. One of the open challenges to understand is why and when dislocations show scale-free avalanche behaviour, and whether these events can be predicted. To this end, dislocation simulation tools have to be developed and applied, combined with various methods from the field of data science.
Application Deadline: Open until filled
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11. Fully Funded PhD Position in Cryogenic CMOS for Quantum Computing
Summary of PhD Program:
Would you like to contribute to the future fast and energy efficient computing systems and develop skills to enhance your competitiveness in the field of nano-technology? The Institute of Semiconductor Nanoelectronics (PGI 9) at Forschungszentrum Jülich is the right place for you! We focus on application oriented basic research in novel materials and innovative device concepts for both quantum and neuromorphic computing. PGI 9 has broad experience and competence in growth of semiconductor nanowires and quantum dots, epitaxy and analysis of group IV, III/V,III-nitrides and topological insulator nanostructures and their implementation in electronic and optical devices, fabrication of hybrid-nanostructures containing semiconductor / dielectric (ferroelectric) / superconductor / metal materials.
Application Deadline: Open until filled
12. Fully Funded PhD Position in Location-based system solutions for CO2 capture from air using adsorber technology
Summary of PhD Program:
Embarking on a journey towards a sustainable energy system necessitates the utilization of novel, efficient technologies for conversion of greenhouse gas-free secondary energy carriers, produced from renewable sources. At the Institute of Energy and Climate Research – Electrochemical Process Engineering (IEK-14), we are dedicated to translating fundamental and practical research outcomes into pioneering products and processes for electrochemical energy technology. Our work revolves around liquid energy carriers derived from carbon dioxide and green hydrogen, with an emphasis on generating and implementing these resources in an efficient and environmentally friendly manner. In the DACStorE project, we`re paving the way for the sustainable market deployment of direct air capture technologies in six Helmholtz centers.
Application Deadline: Open until filled
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13. Fully Funded PhD Position in Improving the stability and efficiency of suspension plasma spraying
Summary of PhD Program:
You are working in a publicly funded collaborative project with a German university. The goal is the targeted improvement of the stability and efficiency of the suspension plasma spraying process by means of adapted diagnostic methods. The particular difficulty in adapting these methods for suspension plasma spraying lies in the high local and temporal resolution required, the separation of the individual plasmas, and the selection of the radiation from the droplets/particles. In addition, the deposition conditions will be investigated to identify mechanisms affecting the layer properties. The deposition efficiency is another important aspect.
Application Deadline: 18.6.2023
14. 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
15. 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
16. Fully Funded PhD Position in Development of new UHV Technologies for the “Einstein Telescope for Graviational Waves Detection”
Summary of PhD Program:
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.
Application Deadline: Open until filled
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17. 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
18. 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
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
20. 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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21. 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
22. 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
23. 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
24. 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
