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30 PhD Degree-Fully Funded at Forschungszentrum Julich, Germany

PhD Degree Fully Funded at Forschungszentrum Jülich Germany
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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 on “Myelo- and irono-architecture of the in vivo human brain using AI-powered advanced susceptibility imaging at ultra-high field”

The Institute of Neuroscience and Medicine – 4 (INM-4), led by Professor N. Jon Shah, is dedicated to advancing the field of medical imaging physics. The institute focuses on the innovation, experimental validation, and clinical integration of novel brain imaging techniques. You will work for the new project entitled “Myelo- and irono-architecture of the in vivo human brain using AI-powered advanced susceptibility imaging at ultra-high field”. This DFG-funded project is based on a unique combination of complementary skills of Korean and German groups and is anticipated to substantially advance our knowledge of the myelin and iron architecture of the in vivo human brain.

Deadline : 2.2.2025

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(02) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – New Synthesis Methods and Production of Polymers and Membranes for PEM Fuel Cells and Electrolyzers

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. Further information about the HI ERN and its pioneering research projects can be found at https://www.hi-ern.de

Deadline : Open until filled

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(03) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Effect modelling of climate variability on wheat plants and root-soil interactions

This work will be part of the BMBF project “Rhizosphere processes and yield decline in wheat crop rotations (RhizoWheat)” in collaboration with University of Kiel, the Institute of Sugar Beet Research and the Julius-Kühn-Institut, Institute for Epidemiology and Pathogen Diagnostics. The RhizoWheat project will investigate the effect of different pre-crops in crop rotations on wheat growth and performance. Simulations with the functional-structural plant model CPlantBox be used for an in-depth mechanistic analysis of pre-crop effects and to extrapolate pivotal research findings depicted within the models for future climate scenarios. You will be responsible to extend and parameterise the functional-structural plant model CPlantBox to support crop modelling with relevant root traits and functions. Your tasks in detail:

  • Adapt the CPlantBox model for specific soil and pre-crop situations
  • Parameterize CPlantBox based on experimental data from the consortium, including root data from both greenhouse and field observations.
  • Run CPlantBox to perform in silico experiments for different regional climate change scenarios
  • Postprocess and analyse simulation results
  • Present and publish results at national and international conferences and in peer reviewed journals

Deadline : Open until filled

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(04) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Life Cycle Assessment of defossilisation strategies in the Rhenish mining area

For the successful transition of the Rhenish lignite mining region into a future-oriented area for sustainable business, the regional energy-intensive industries need low-emission and future-proof solutions that are independent of fossil fuel imports. In order to achieve these goals, Power-to-X technologies are currently being further developed, tested in demonstration plants and the most promising approaches implemented. In your work, you will look at the environmental effects of these new technologies and the interactions that defossilisation has on areas such as resource criticality.

  • Development of methods for proscriptive Life Cycle Assessment of Power-2-X technologies
  • Assessment of different Power-2-X process routes for the use of renewable energies in the production of synthetic fuels or chemical industry
  • Supporting an integrative sustainability assessment of energy technologies
  • Presentation of scientific results at national and international conferences
  • Publication of results in renowned scientific journals

Deadline : Open until filled

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(05) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Characterization of new catalyst layer structures and electrolytes for polymer electrolyte water electrolysis

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. Further information about the HI ERN and its pioneering research projects can be found at https://www.hi-ern.de

Deadline : Open until filled

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(06) PhD Degree – Fully Funded

PhD position summary/title: PhD position – a-SMART-Fit project

Are you interested in joining our research on fascinating SMART material helping to create the first-of-a-kind water-cooled SMART-wall component for a fusion power plant? The main challenge will be to combine the SMART material and the fusion-class low-activation steel EUROFER: both highly sophisticated, but very different materials. Another challenge will be to “master” the EUROFER supporting structure by realizing the cooling channels using the innovative field-assisted sintering technology (FAST).

Deadline : 12.1.2025

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(07) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Cryo-EM of mitochondrial membrane protein complexes

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.

Deadline : Open until filled

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(08) PhD Degree – Fully Funded

PhD position summary/title: PhD position – in the Field of Autophagy and Amyloid Clearance

Your project addresses the clearance of amyloid structures in the cellular context. We are particularly interested in the involvement of a specific group of autophagy-related proteins, the human Atg8-like proteins. By combining our expertise in the field of human Atg8 proteins (such as GABARAP) with our long-standing experience in handling and characterizing various amyloid species (such as Aβ, α-synuclein), we aim to identify the relevant processes and understand the underlying mechanisms. In parallel, the modern approach of targeted protein degradation for fibrillar protein aggregates will be advanced by the development of new bifunctional molecules. To this end, we are applying methods of molecular, cell and structural biology, biophysics, advanced microscopy, and evolutionary selection. We are working closely with our international partners on the design of therapeutic peptides or small molecule compounds.

Deadline : Open until filled

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(09) PhD Degree – Fully Funded

PhD position summary/title: PhD in pre-clinical and risk assessments of Parkinson’s Disease using artificial intelligence

Researchers at the Institute of Neuroscience and Medicine – Cognitive Neuroscience (INM-3) – https://www.fz-juelich.de/en/inm/inm-3 – investigate the neural mechanisms underlying cognitive and motor (dys-)function in healthy participants and patients suffering from neurological and psychiatric disorders. Using multimodal imaging and computational modelling, we work at the intersection of cutting-edge technology and pioneering brain health research. A focus of this work is on identifying pre-clinical symptoms and risk factors – an essential step to enable timely preventive measures.

Deadline : 12.1.2025

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(10) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Direct Ammonia Fuel Cell

At the Institute of Energy Technologies – Fundamental Electrochemistry (IET-1), we perform research on highly relevant topics related to the energy transition. For example, we investigate the battery of the future and new battery concepts. How we can turn the greenhouse gas carbon dioxide (CO2) into the fuel of the future or how electrolysis can contribute to a hydrogen energy economy are other exciting projects. The aim is to develop sustainable and cost-effective batteries and fuel cells with improved energy and power density, longer lifetime, and maximal safety.

Deadline : 7.1.2025

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(11) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Hybrid Quantum Computing for Earth Observation

Are you interested in pursuing a research project in data science using quantum computing on state-of-the-art quantum devices and supercomputers? The Jülich Supercomputing Centre (JSC), is seeking applicants for a joint PhD student in collaboration with the Simulation and Data Lab “AI and Machine Learning for Remote Sensing” and the research group “Quantum Information Processing”. At JSC, we operate the Jülich UNified Infrastructure for Quantum Computing (JUNIQ), a uniform Quantum Computing Platform as a Service (QC-PaaS), which provides European users with support and access to quantum computer emulators and quantum computing technologies at various levels of technological maturity. JUNIQ integrates quantum computers into quantum-classical hybrid computing systems, seamlessly connecting them with Europe`s most powerful High-Performance Computing (HPC) systems for scientific and engineering applications. Our teams are actively involved in developing hybrid quantum-classical machine learning models and optimization algorithms for Earth observation applications.

Deadline : Open until filled

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(12) PhD Degree – Fully Funded

PhD position summary/title: Postdoc – Determination of Charge-Extraction and Recombination Losses at the Interfaces of Perovskite Solar Cells

At the Institute of Energy Materials and Devices – Photovoltaics (IMD-3), novel materials as well as innovative device architectures for sustainable photovoltaics are investigated. In this regard, perovskite solar cells are a promising solar cell technology that enables printable, flexible and lightweight solar cells. Further improvements in their performance requires accurate characterization of the charge extraction and recombination losses related to the transport layers and their interfaces with the perovskite layer. This project will involve the fabrication and characterization of insulator-based device structures to isolate and analyse the loss mechanisms at each interface, allowing accurate determination of their associated parameters. By participating in this project, you will thus directly contribute to the development of a photovoltaic technology for efficient clean energy production, to tackle climate change.

Deadline : Open until filled

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(13) PhD Degree – Fully Funded

PhD position summary/title: PhD position in Cognitive Neuroscience

Researchers at the Institute of Neuroscience and Medicine – Cognitive Neuroscience (INM-3) investigate the neural mechanisms underlying cognitive (dys-)function in healthy subjects and patients suffering from neurological and psychiatric disorders. Functional imaging (PET, MRI) and electrophysiological methods (EEG, TMS, tDCS) are combined with computational approaches.

Deadline : 12.1.2025

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(14) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Electrical controlled photon condensates in III/V semiconductor heterostructures

One of the important open questions with regard to modern quantum technologies is their application in quantum simulations, which cannot be realized with classical computers. In this project, we want to establish spatially structured semiconductor chips as a platform for photon condensates. For this purpose, we use semiconductor structures as an active medium on a highly reflective Bragg mirror. The coupling between neighboring condensates is controlled piezoelectrically. Together with the thermodynamic equilibrium characteristics of the photon condensates, our unique solid-state chip platform offers a scalable architecture for quantum simulations.

Deadline : Open until filled

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(15) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Fabrication and Characterization of Perovskite Solar Cells and Devices

Fabrication and Characterization of Perovskite Solar Cells and Devices At the Institute of Energy Materials and Devices – Photovoltaics (IMD-3), novel materials as well as innovative device architectures for sustainable photovoltaics are investigated. In this regard, perovskite solar cells are a promising photovoltaic technology, with the highest laboratory efficiencies comparable to the best silicon solar cells. Further improvements in their performance require a better understanding of the charge extraction losses due to the transport layers and recombination losses via defects at the device interfaces. This project will involve the fabrication of perovskite devices with insulating interfaces to isolate and characterize the different loss mechanisms at each interface accurately. Perovskites with different bandgaps and devices with different transport layers will be investigated to provide a holistic analysis of the loss mechanisms and their corresponding parameters. By participating in this project, you will thus directly contribute to the development of a photovoltaic technology for efficient clean energy production, to tackle climate change.

Deadline : Open until filled

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(16) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Control and simulation of solid state quantum processors and simulators

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.

Deadline : Open until filled

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(17) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Characterization of the Phenotypic Diversity of Root and Shoot Traits in Rye Heterotic Pools

Are you passionate about science? Would you like to contribute to research on breeding crops resilient to climate change? Come to work with us at the Institute of Bio- and Geosciences – Plant Sciences (IBG-2) at the Research Center Jülich. IBG-2 has a leading position in plant phenotyping, focusing on dynamic plant-environment interaction. We apply non-invasive imaging methods for digital phenotyping of roots and shoots in controlled environments. Rye is a European orphan crop with a strong climate protection service and a high adaptation potential to a changing climate. Genome-based breeding of new varieties will contribute stacking of superior alleles. In this respect, characterizing root architecture diversity is important to create future varieties better adapted to climate change. Through this PhD project you will have the possibility to use state-of-the-art phenotyping methodologies and the exciting opportunity to link with a multi-disciplinary network funded by the German Ministry of Research (RYE-HUB).

Deadline : 10.1.2025

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(18) PhD Degree – Fully Funded

PhD position summary/title: PhD Student for the development of advanced electrolyte formulations for sodium ion battery applications

Batteries move us and our world – they start our cars, keep the hands of our watches running and ensure that we can take pictures with our smartphones everywhere. At the Helmholtz Institute Münster Ion Conductors for Energy Storage (IMD-4 / HI MS), we are researching novel electrolyte formulations for new and advanced battery concepts. We focus on electrolyte research and development as a key area for future battery concepts. Major research activities comprise the design, synthesis, characterization and processing of more sophisticated battery electrolytes and chemistries. We are located at the Münster branch of the Jülich Research Centre and are operated in close cooperation with the University of Münster and the RWTH Aachen University. This enables us to pool our expertise in battery research and substantially advance this important future field of electrolyte research.

Deadline : Open until filled

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(19) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Dendritic Computing Circuits and Algorithms

At the Peter Grünberg Institute – Neuromorphic Compute Nodes (PGI-14), we currently have an opening for doctoral research in bio-inspired computing systems, focusing on algorithm and circuit design and their co-integration for energy-efficient machine learning and signal processing applications. This neuromorphic approach leverages recent neuroscience insights in multi-timescale memory functions using complex compartment neuron models to enhance information processing capabilities and energy efficiency. Engineering electronic circuits for dendritic computing can have diverse applications that can surpass traditional machine learning (such as Transformers) running on CPUs and GPUs. This project will also investigate the use of memristive devices in circuits, enabling analog tunable time-scale encodings for short- and long-term retention. The project goal is to advance the performance (energy efficiency, latency, area) of current neuromorphic computing systems.

Deadline : Open until filled

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(20) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Algorithm and Circuit Co-design for Networks of Analog Complex Neuron Models

This project, at the Peter Grünberg Institute – Neuromorphic Compute Nodes (PGI-14), explores the capabilities of neural networks (NN) composed of complex neuron models, such as Hodgkin-Huxley or Izhikevich. Such complex neurons can be efficiently engineered in analog circuits including memristive devices and locally active elements. Locally active elements can be realized utilizing volatile memristors (e.g., negative differential resistance). Hardware realizations (e.g., based on VO2 devices) are able to reproduce known biological neuronal dynamics (spike patterns) depending on internal parameter settings. Increasing the internal complexity of the neurons is expected to allow for increasing computational capabilities beyond leaky-integrate-and-fire (LIF) neurons. These computational capabilities and methods for training or learning in networks will be the subject of this PhD research.

Deadline : Open until filled

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(21) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Electrochemical Engineering

You will work in the Electrocatalytic Interface Engineering department, which is headed by Prof. Dr.-Ing. Simon Thiele. The department focuses on the fabrication, analysis and simulation of functional materials to find an optimal structure on a small scale from the micrometer to the nanometer. The materials and systems examined play an essential role in sustainable technologies such as water and CO2 electrolyzers as well as in fuel cells. The aim is to make a significant contribution to the development of electrochemical energy conversion as a future key player in electromobility and energy policy in general. You will work as a research scientist and engineer to develop novel technologies in the area of electrochemical energy storage and conversion using liquid organic hydrogen carriers (LOHC), for example with the isopropanol/acetone couple. 

Deadline : Open until filled

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(22) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – New Synthesis Methods and Production of Polymers and Membranes for AEM Fuel Cells and Electrolyzers

You will join the “Electrocatalytic Interface Engineering” department, led by Prof. Dr.-Ing. Simon Thiele, and the “Membrane Polymer Synthesis” (MPS) team by Dr. Jochen Kerres. The department focuses on the production, analysis, and simulation of functionally optimized structures from the nanometer to the micrometer scale in electrochemically active materials, as well as the development of new materials for catalysis, polymer electrolytes, and polymer electrolyte membranes.

Deadline : Open until filled

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(23) 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.

Deadline : Open until filled

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(24) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Structure-property relationships in the dimethyl ether/CO2 system for the hydrogen storage cycle

Would you like to actively shape the structural change in the Rhenish mining area together with us? With us you have the chance to join the newly founded Institute for Sustainable Hydrogen Economy (INW) with your ideas right from the start. Together with the H2 demonstration region, the INW forms the “Helmholtz Cluster for sustainable and Infrastructure-Compatible Hydrogen Economy” (HC-H2). Here, scientific foundations are laid in the field of innovative hydrogen technologies in order to advance research and development approaches with high sustainability potential and attractive economic prospects. You will be part of the institute`s department INW-1. In INW-1, the focus is on the elementary processes on the catalyst surface during the hydrogenation and dehydrogenation of hydrogen storage molecules. If you are interested in the topics of energy transition, sustainability and chemical hydrogen storage, then you are in your element here. Become part of the team and make the world a bit more sustainable!

Deadline : Open until filled

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(25) 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.

Deadline : Open until filled

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(26) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – Cryogenic Integrated CMOS Circuit Design and Electronics for Scalable Quantum Computing

Combine your scientific interest and technical skills in the field of electrical engineering to create new knowledge for the socially and scientifically relevant areas of information, energy and bioeconomy. We offer you all of this at the Central Institute of Engineering, Electronics and Analytics – Electronic Systems (ZEA-2) with modelling, designing and developing the most innovative system solutions for science and society. In recent years, there has been a surge in research on novel computing architectures and artificial intelligence. This has led to the huge research and development efforts in the area of using quantum effects for new computing paradigms. This requires also huge efforts on control electronics shared between room and ultra-cold cryogenic temperatures.

Deadline : Open until filled

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(27) PhD Degree – Fully Funded

PhD position summary/title: PhD Position – The Influence of Solid Surfaces on the Structure and Dynamics of Bio-Pesticide Formulations

The heavy use of pesticides and fertilizers in agriculture is nowadays still crucial for the food supply. However, this practice leads to significant environmental and health issues, including poisoning, environmental degradation, and the development of insecticide resistance. EU policies and the UN Sustainable Development Goals advocate for safer, more sustainable alternatives like biopesticides. The Marie-Sklodowska-Curie doctoral network BIOMAC-BP (Bio-Stabilized Multi-Phase Materials as Carriers for Biopesticides) sets out to address the issue of synthetic pesticide use by developing sustainable biopesticide formulations, bringing together experts from soft-matter physics, physical chemistry, chemical engineering, microbiology, biophysics and agricultural science, and combining industrial and academic perspectives. The project`s main objective is to develop and optimize novel bio-sourced materials to incorporate bacteria capable of producing biopesticides, enhancing the benefits and sustainability of the formulations. This effort aims to reduce synthetic pesticide emissions, improve agricultural practices, and support a greener future for the chemical industry. One of the doctoral projects within the BIOMAC-BP programme will be carried out at the Institute of Biomacromolecular Systems and Processes (IBI-4).

Deadline : Open until filled

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(28) PhD Degree – Fully Funded

PhD position summary/title: PhD – Interfacial structures of LOHC molecules

Would you like to actively shape the structural change in the Rhenish mining area together with us? With us you have the chance to join the newly founded Institute for Sustainable Hydrogen Economy (INW) with your ideas right from the start. Together with the H2 demonstration region, the INW forms the “Helmholtz Cluster for sustainable and Infrastructure-Compatible Hydrogen Economy” (HC-H2). Here, scientific foundations are laid in the field of innovative hydrogen technologies in order to advance research and development approaches with high sustainability potential and attractive economic prospects. You will be part of the subinstitute INW-1. In INW-1, the focus is on the elementary processes on the catalyst surface during the hydrogenation and dehydrogenation of hydrogen storage molecules. If you are interested in the topics of energy transition, sustainability and chemical hydrogen storage, then you are in your element here. Become part of the team and make the world a bit more sustainable!

Deadline : Open until filled

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(29) PhD Degree – Fully Funded

PhD position summary/title: PhD-Position – Development of scalable superconducting quantum systems

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 and engineering.

Deadline : Open until filled

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(30) 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

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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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