Forschungszentrum Julich, Germany invites online Application for number of Fully Funded PhD Degree at various Departments. We are providing a list of Fully Funded PhD Programs available at Forschungszentrum Julich, Germany.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: PhD Position – Negative emissions through cost-optimal Direct Air Capture and Storage plant design
One essential step towards the ramp-up is the identification of site-specific optimal design of DACS plants, which will be the focus of the advertised PhD. To identify optimal DACS plant designs in terms of their techno-economic characteristics an optimization model is to be developed in the institutes’ inhouse modelling framework FINE (https://github.com/FZJ-IEK3-VSA/FINE) in addition to technical models allowing to assess technical scaling and an optimal operation. The optimal plant design is identified by considering the energy supply system, the choice of capture technology, the DAC-plant’s technical design, the DAC-plant’s operational concept and the positioning of the DAC-plant with regards to the storage site and needed transportation effort.
Deadline : Open until filled
(02) PhD Degree – Fully Funded
PhD position summary/title: PhD Position – Cryo-EM of Cellular Autophagy
In order to gain a deep structural understanding, we biochemically purify and reconstitute autophagy protein complexes in lipid environments and we visualize them by high-resolution cryo-EM methods. Moreover, we visualize the autophagy process in in situ mammalian cells to understand the role in neurodegeneration. The successful candidate will be embedded in a network of membrane biological research and latest cryo-EM infrastructure.
Deadline : Open until filled
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(03) PhD Degree – Fully Funded
PhD position summary/title: PhD-Position – Development of scalable superconducting quantum systems
- Master`s degree in physics or electrical engineering
- Knowledge of solid state physics and/or quantum information
- Experience with programming, preferabl with Python
- Fluent speaking and writing skils in English
- Team-oriented and highly motivated to work in an experimental laboratory
- A background in quantum computing as well as experience with cryogenics, signal delivery, microfabrication, materials optimization, and microwave control are highly preferred qualifications
Please feel free to apply for the position even if you do not have all the required skills and knowledge. We may be able to teach you missing skills during your induction.
Deadline : Open until filled
(04) PhD Degree – Fully Funded
PhD position summary/title: PhD – Interfacial structures of LOHC molecules
- X-ray reflectivity measurements at solid-liquid interfaces of solid surfaces and LOHC molecules
- Design of cells for temperature-dependent X-ray reflectivity measurement
- Analysis of X-ray reflectivity measurements with modern analytical methods
- Electrochemical experiments with LOHC molecules
- Publication and presentation of results in high-ranking and recognized journals as well as at national and international conferences
- Collaboration with other research groups
- Support in the preparation of third-party funding proposals
- Support in establishing the institute
Deadline : Open until filled
(05) PhD Degree – Fully Funded
PhD position summary/title: PhD Position – Hyperpolarized Magnetic Resonance
If you are interested in creative problem solving at the interface between chemistry and physics, with the chance to mix hands-on experimental work with theory+simulations, this opportunity may be for you!
The Hyperpolarization Methods research group, led by Dr. James Eills at the Institute for Structural Biochemistry, is seeking a motivated PhD candidate to carry out research in the field of hyperpolarized magnetic resonance. Hyperpolarization is the preparation of molecules in a specific nuclear spin quantum state. This means the molecule’s NMR/MRI signals are enhanced by many orders of magnitude, which is transformative for applications such as medical MRI or chemosensing. Specifically, we develop novel chemical and physical methods to produce hyperpolarized molecules, and to extend the lifetimes of those hyperpolarized states.
As a member of the research group, you will work in an environment that combines the best aspects of modern scientific research with traditional academic values. You will carry out fast-paced research on societally-relevant topics, with individual support (especially for your personal well-being) so you can grow as an individual. At the same time, you will have ample opportunity for acquiring knowledge, discussing science, and thinking creatively.
Deadline : 2.12.2024
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(06) PhD Degree – Fully Funded
PhD position summary/title: PhD position – Global source apportionment of particulate matter air pollution
The latest report from the Intergovernmental Panel on Climate Change (IPCC) emphasizes the importance of finding ways to remove CO2 from the atmosphere to meet climate change targets. One strongly considered solution is Direct Air Capture and Storage (DACS), which involves capturing CO2 from the air and storing it underground in geological formations. However, the operation of DAC facilities could release significant amounts of pollutants, forming toxic gases and atmospheric aerosols. Atmospheric aerosols affect human health and play an important role in changing the Earth’s climate. Therefore, atmospheric chemical modelling can provide valuable insights into the potential risks associated with the use of proposed DAC technology.
Deadline : Open until filled
(07) PhD Degree – Fully Funded
PhD position summary/title: PhD Position – The Influence of Solid Surfaces on the Structure and Dynamics of Bio-Pesticide Formulations
It is of outmost importance to understand the structure and dynamics formulations and their constituents in the proximity of solid surfaces since they are forced through narrow pipes and nozzles during spray deposition. To this end, you will
- experimentally characterize formulations at rest and under shear, by means of scattering techniques with standard and with evanescent illumination and with confocal laser scanning microscopy
- measure the static interaction potentials between formulation constituents with solid surfaces using total internal reflection microscopy
- analyze and interpret your experimental results and publish them in international peer reviewed journals and on conferences
The outcome of your work will be combined with the results of your peers in the doctoral network to improve the performance of bio-pesticide formulations.
Deadline : Open until filled
(08) PhD Degree – Fully Funded
PhD position summary/title: PhD Position – Cryogenic Integrated CMOS Circuit Design and Electronics for Scalable Quantum Computing
We are working on scalable cryogenic electronics and integrated circuits (ICs) for quantum bits (qubits) to turn the vision of a universal quantum computer into reality. Scaling up to millions of qubits necessitates moving parts of the control electronics closer to the qubits. To achieve this, we design and implement cryogenic ICs for qubit control and readout in state-of-the-art CMOS technologies. Since qubits are extremely sensitive and operate in temperatures as low as a few hundred millikelvins, the requirements on power consumption, noise, and area are extremely challenging. This demands the development of new and groundbreaking architectures and circuit topologies. Our designed ICs and electronics are thoroughly measured and verified by co-integration in direct proximity with qubits.
Deadline : Open until filled
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(09) PhD Degree – Fully Funded
PhD position summary/title: PhD Position – Developing balloon-based hydrogen measurements in the upper troposphere and stratosphere
- Characterization and optimization of a lab-based GC-HID-ECD instrument to measure H2, CH4, N2O and SF6
- Construction and characterization of an AirCore to sample air masses without disturbance of the target trace gases
- Conducting regular balloon launches with AirCores in Jülich and analysis of collected air samples with the GC-HID-ECD system
- Investigate the climate impact of the measured H2 profiles in collaboration with our modeling department
Deadline : Open until filled
(10) PhD Degree – Fully Funded
PhD position summary/title: PhD Position – Numerical Simulations of Active Particles in Foam-Like Confinements
The aim is to characterize the behaviour of microorganisms with motion restricted into complex environments such as bi-continuous surfaces, draining or sprayed foams. Models details are to be developed in close cooperation with the experimental partners to closely reproduce the properties of specific microorganisms. Your tasks will include :
- Familiarize with active matter general behaviour and acquire specific knowledge of interaction with confining boundaries
- Model development mimicking actual applications such as bacteria encapsulation or spraying conditions
- Code development and testing in C, C++, LAMMPS, Open MPI, and/or CUDA
- Analyze and interpret the results and design of further computing experiments
- Publish research in high-impact journals and present at leading international conferences
Deadline : Open until filled
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(11) PhD Degree – Fully Funded
PhD position summary/title: PhD Position – Automated creation of energy engineering models for urban districts to assess disruptive events on the security of supply
- Development of dynamic simulation models in Modelica
- Verification and validation of simulation models
- Further development of methods for automated generation of simulation models based on publicly available data (e.g. OpenStreetMap)
- Integration of models into co-simulation platforms
- Extension and maintenance of database systems
- Supporting the development of model predictive control (MPC) algorithms
- Supporting the development activities of model libraries
- Supervision of student theses
- Publication of the achieved results in professional journals
Deadline : Open until filled
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(12) PhD Degree – Fully Funded
PhD position summary/title: PhD Position – Structure-property relationships in the dimethyl ether/CO2 system for the hydrogen storage cycle
- Operando investigations of the dimethyl ether/CO2 system for the hydrogen storage cycle
- Development of appropriate measurement set-ups with focus on X-ray methods
- X-ray investigations on modern laboratory X-ray instruments
- Coordination and execution of synchrotron beam times
- Publication and presentation of results in high-ranking and recognized journals as well as at national and international conferences
- Collaboration with other research groups
- Support in the preparation of third-party funding proposals
- Support in establishing the institute
Deadline : Open until filled
(13) PhD Degree – Fully Funded
PhD position summary/title: PhD position – Theory and Modelling of Electrical Double Layer at Supported Nanoparticles
A defossilized global energy ecosystem hinges on efficient conversion between renewable electrical energy and chemical energy stored in molecules. This conversion requires precious catalysts to drive relevant reactions at practical rates. Many catalysts are employed in the form of nanoparticles (NP) dispersed on support materials. All relevant reactions occur in a nanoscale region at the interface between the solid catalyst and an electrolyte solution, i.e., an electric double layer (EDL).
Our current knowledge of EDL is essentially limited to planar electrodes with a single EDL, whereas supported NP catalysts (SNPC) exhibit radically different EDL characteristics, featuring overlap of individual EDLs around the NPs and the adjacent support material. This knowledge gap, concerning crucial local reaction conditions within the EDL, prevents effectively transferring knowledge obtained at planar electrodes to performance improvements of SNPC.
Your PhD project aims at understanding the mesoscopic (1~100 nm) overlapping EDLs in SNPC. Specifically, you will address the fundamental question: how are the overlapping EDLs formed under realistic conditions? This will be studied using an in-house theoretical approach for mesoscale EDLs with both quantum mechanical electrons and classical electrolyte particles treated on equal footing.
Deadline : Open until filled
(14) PhD Degree – Fully Funded
PhD position summary/title: PhD Position – Numerical simulation of bijel formation, stability and rheology
This computational doctoral project focuses on a theoretical understanding of emulsions stabilized by colloidal particles. Mesoscale simulation methods combining a lattice Boltzmann solver for the involved fluids and a Discrete Element solver for the suspended colloidal particles shall be developed and applied on state-of-the-art supercomputers. These simulations will be combined with systematic coarse-graining in order to resolve the dynamics and stability of bijels on all relevant timescales. We aim to understand how these emulsions form and which physical effects influence their stability and rheology. With the overall goal of using particle-stabilized emulsions as biopesticides, the candidate shall perform simulations of nutrient transport and the growth of bacteria in numerically optimized emulsion systems. The outcome of your work will be combined with the results of your peers in the doctoral network to improve the performance of bio-pesticide formulations.
Deadline : Open until filled
(15) PhD Degree – Fully Funded
PhD position summary/title: PhD position – Environmental fate of BIO2PIM in agro-ecosystems
In both conventional and biodynamic agriculture, there is immense pest stress on cultivated plants which can be counteracted with biopesticides to secure crop yields. Even with optimal field application of biopesticides, soil and weeds are hit in addition to the target crops, directly or indirectly by wash-off/drift, similarly as happens with chemical pesticides. Furthermore, residues from the biopesticide-treated crops can be mixed into the soil. In addition to the active ingredients or active organisms, the fate of the formulation adjuvants or carriers must also be harmless after a period of action i.e. they should not have any negative impact on the environment.
Deadline : Open until filled
(16) PhD Degree – Fully Funded
PhD position summary/title: PhD-Position – Planning, Simulation and Optimization of local energy communities
The concept of organizing energy systems in Local Energy Communities (LECs), which are coordinated across multiple energy sources, has gained considerable attention in recent years. LECs have been recognized by the EU as a key component of the energy transition to integrate the local coordination of energy supply and consumption into overarching systems and grids. The European Commission`s Clean Energy Package has defined a legal framework for the operation of LECs, aiming at the participation of LECs in the energy markets. The coupling of multiple energy sources appears to be a promising solution to further reduce carbon emissions and maximize generation from renewable sources, but their coordinated operation is still a challenge.
Deadline : Open until filled
(17) PhD Degree – Fully Funded
PhD position summary/title: PhD position: High Performance Computing Solutions for Energy Systems
Computing performance plays a very critical role in the use of model-based approaches to the planning, design, and operation of energy systems. At ICE-1, the department of High-Performance Computing focuses on the development of innovative methodologies for the parallelization of simulation algorithms as well as on the best exploitation of hardware architectures. In this context, we are developing an innovative solver for faster than real time simulation of multi-modal energy system with founding from Helmholtz Foundation and DFG.
Deadline : Open until filled
(18) PhD Degree – Fully Funded
PhD position summary/title: PhD position – Modelling of Gas Grids for High Performance Computing Simulation
The increasing share of fluctuating renewable energies in electricity generation leads to increased volatility as well as a strongly changed distribution of the power fed into the grid. This increases the requirements on the flexibility of the system and the operation of power grids. Additional electricity demand to decarbonize various energy sectors, such as transport and heating, as well as intersectoral flexibility options such as power-to-X lead to increasing sectoral interdependencies. Your task is to support our institute in the development of gas grid models that are able to analyze this interaction of energy networks (electricity, gas, heat) and markets at high resolution.
Deadline : Open until filled
(19) PhD Degree – Fully Funded
PhD position summary/title: PhD Position – NMR Transport Studies of Anion Exchange Membranes for Green Hydrogen Production
DURALYS ( https://go.fzj.de/BMBF_Foerderaufruf_Wasserstoff ) is a German-Italian EU-funded research project of academia and industry with the goal of developing a commercially viable water electrolysis cell based on anion exchange membranes (AEMs) for the production of green hydrogen. AEM electrolyzers offer similar advantages to proton exchange membrane (PEM) technology like high efficiency and performance while avoiding fluorinated materials and rare metal catalysts.
Deadline : 27.11.2024
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(20) PhD Degree – Fully Funded
PhD position summary/title: PhD Position – Magnetic and structural properties of nanoparticles in solutions
The aim of this PhD position is to characterize magnetic nanoparticles in solvents, such as water, both magnetically and structurally. For this purpose, chemically synthesized iron oxide nanoparticles with diameters in the range of 10 – 20 nm are used. The objective is to design nanoparticle-solution mixtures in such a way that they are optimal for medical applications such as hyperthermia or magnetic particle imaging (MPI). To this end, the physical and structural properties must first be characterized and understood.
Deadline : Open until filled
About Forschungszentrum Julich, Germany –Official Website
Forschungszentrum Jülich is a member of the Helmholtz Association of German Research Centres and is one of the largest interdisciplinary research centres in Europe. It was founded on 11 December 1956 by the state of North Rhine-Westphalia as a registered association, before it became “Kernforschungsanlage Jülich GmbH” or Nuclear Research Centre Jülich in 1967. In 1990, the name of the association was changed to “Forschungszentrum Jülich GmbH”. It has close collaborations with RWTH Aachen in the form of Jülich-Aachen Research Alliance (JARA).
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