Are you holding Master’s degree and ready to elevate your academic journey to the highest level? Technical University of Denmark (DTU), Denmark, has announced a multiple fully funded PhD positions awaiting talented individuals like you. Don’t miss your chance to be part of our vibrant academic community. Explore the exciting PhD positions available and submit your application today!”
Candidates interested in fully funded PhD positions can check the details and may apply as soon as possible.
(01) Fully Funded PhD Position
PhD position summary/title:– PhD within bioinformatics and AI applied on Lactic acid bacteria biology – DTU Food
This PhD project “Harnessing AI to Identify Superior Strains for Plant-Based Starter Cultures” aims to leverage AI and Big Data to develop predictive models for identifying superior microbial strains for plant-based starter cultures. By integrating multi-omics data, the project seeks to enhance our understanding of microbial enzymatic activities and metabolic pathways, ultimately improving fermentation efficiency, aroma production, and the removal of off-flavors and anti-nutritional factors. This interdisciplinary approach not only addresses the immediate challenges of plant-based fermentation but also contributes to the broader goal of sustainable food production.
The main part of the project will be conducted at DTU Food in the research group of Microbial Biotechnology and Biorefining. The 3-year period will include an external academic stay as well as a potential stay at an industrial partner’s premises. The PhD project will be supervised from both DTU Food and DTU HealthTech with DTU Food as the main affiliation, but with co-supervision from DTU HealthTech. Data for the PhD project will be supplied from several other projects and partners.
You will work in close collaboration with both data scientists as well as wet lab researchers and laboratory technicians and you will during the project period participate in the daily supervision of student projects and support the group with bioinformatic skills.
As PhD, you will work with high throughput screening data and sequencing data making models that will be applied for predicting better strains for starter cultures. The main data will be from the internal DTU Food strain collection NFICC. NFICC is composed of approximately 4500 primarily lactic acid bacteria strains isolated from a diverse set of niches. In this project we will focus on computational models for phenotypes relevant for plant-based dairy alternatives.
The team’s overarching focus is to support the major trends with new technological solutions that will shape the food industry in the future within the area of non-dairy (vegan) alternatives by applying our microbial strains from the NFICC. This is to reduce the carbon footprint of foods and provide sustainable food production where plant fermentation may provide health benefits, longer shelf life, safer food products as well as better tasting alternatives.
Deadline :09/02/2024
(02) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in next generation electrolyzers for power-to-X – DTU Energy
Do you want to be part of the development of core technologies of the green transition? This PhD scholarship offers the opportunity to be at the forefront of the development of ion-conducting membranes for alkaline water electrolysis. Conversion of electrical energy from wind turbines and solar cells into fuels by electrolysis is paramount in the green transition and ion-conducting polymer membranes are key to high performance of next generation electrolyzers.
Deadline : 08/13/2024
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(03) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Intelligent Control of Ship-Shore Communication System for Remote Situational Awareness – DTU Electro
Do you want to help drive the sustainable and human-centred digital transformation of the maritime industry? Are you excited by the opportunity to design cutting-edge intelligent systems that enhance the safety of navigation at sea? Would you like to establish yourself as a key scientist in autonomous systems and join a world-leading research group in this field? Look no further—your opportunity to achieve your professional ambitions is right here.
Following the successful implementation and demonstration of the GreenHopper, Denmark’s first autonomous harbour bus, DTU Electro will break new ground on autonomy at sea by pursuing the development, testing and experimental verification of a resilient situational awareness system to enable the remote navigation of waterborne systems in congested fairways and harbours. As PhD candidate in Intelligent Control of Ship-Shore Communication System for Remote Situational Awareness you will have a key role in the innovation project SLGreen – WP4 Digital land-based pilotage and remote navigation, you will collaborate with leading industry partners in the Danish and global maritime landscape, and you will contribute to consolidate DTU Electro’s international leadership on autonomous marine systems.
The research of this project has civilian objectives. However, equipment restricted by export licenses and ITAR (International Traffic in Arms Regulations) is being used. Applicants that are citizens of Denmark, Norway and other NATO countries, Australia, Austria, Finland, Ireland, Israel, Japan, the Republic of Korea, New Zealand, Sweden, Switzerland, and Ukraine are eligible. Other applicants should provide evidence of eligibility to use such equipment for their application to be considered.
Deadline :08/10/2024
(04) Fully Funded PhD Position
PhD position summary/title:– PhD in Modelling, control and stability assessment of converter-rich power plants in tomorrow’s power systems – DTU Wind
Are you a talented, self-motivated, and team-oriented person, who thrives in a collaborative environment and enjoys working with complex topics? We seek a PhD student to join a world-leading research environment and contribute to the development of converter-rich power plants, which are expected to play a major role in tomorrow’s power systems. You will join an international team of PhD students and postdocs that, together with other academic staff and industrial partners, develop tools and models for simulating and assessing the dynamic performance and stability of such power plants.
Deadline : 09/01/2024
(05) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in AI driven medical image analysis for cardiovascular risk prediction – DTU Compute
We have an open PhD position in AI driven medical image analysis. If you would like to be part of a multidisciplinary research group that aims at using AI methods to reduce the risk of cardiovascular disease then this position might be for you
The projects are focused on deep learning-based methods on 3D CT for cardiovascular risk prediction in collaboration with the heart center at Rigshospitalet. From the computational side, our main research interests are 3D data representations (meshes, implicit descriptions and other descriptors), latent space manipulations (deep metric learning etc), geometric deep learning and deep reinforcement learning. From the clinical side, we aim at discovering new or unexplored image biomarkers that can add to the existing patient stratification for major cardiovascular diseases. In addition to our offices at DTU Compute, we have an office and access to GPU computers at the hospital where we can work on the large databases of CT scans they have there.
Deadline :08/12/2024
(06) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Computer Vision to Revolutionize Crowd Counting through Remote Sensing – DTU Compute
Are you interested in the newest deep learning models for computer vision, and do you want to advance the state-of-the-art for counting people in crowds? Then this position is for you.
Obtaining accurate information from imaging is more important than ever. Information and facts are ignored to promote political interests, and there are numerous cases where the number of people at an event is used for arguing a political case. In other areas, detecting and counting objects from remote-sensed images is of great interest e.g. to survey the environment and similar. Existing methods for crowd counting often fall short, particularly in scenarios with dense crowds, low-resolution images obtained from video, and dynamics with moving cameras and crowds.
This PhD project aims at developing methods that enable counting crowds in previously impossible situations and improve accuracy across various scenarios. The project will answer key research questions, including the optimal remote sensing techniques for crowd analysis, strategies for aggregating diverse data sources and pushing the boundaries for crowd counting, including extremely dense crowds.
Current crowd-counting solutions rely on high-resolution images from single viewpoints, which are rarely available in real-world scenarios. Factors such as occlusions, low illumination, moving camera, and insufficient resolution hinder accurate counting. This project seeks to overcome these challenges by combining the strengths of remote sensing and computer vision. By synthesizing virtual crowd data, conducting real-world experiments, and curating a public dataset, the research aims to elevate automated crowd counting to new heights.
Deadline :08/26/2024
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(07) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Thiophosphate Thin Films for Quantum Technology
Do you want to be the first person to develop an entirely new class of materials for quantum technology? Then you have come to the right place. Your mission will be to synthesize metal thiophosphate thin films using vacuum-based techniques and evaluate their applicability as new building blocks for quantum technology. Thiophosphates are a family of materials composed of phosphorus, sulfur, and one or more metals. They have been previously studied as bulk crystals but are still virtually unexplored as thin films. Because quantum technology requires chip-based miniaturized devices, thin film synthesis of the targeted materials is a requirement for their real-world application. Many thiophosphate compounds exhibit large nonlinear optical responses due to their unique crystal structures. This feature is of particular interest for long-distance communication of quantum information, because high optical nonlinearity allows materials to efficiently convert light from one frequency to another. At DTU Nanolab, we have a world-unique suite of thin-film deposition and processing setups heavily customized for the inclusion of the “difficult” elements phosphorus and sulfur. The deposition setups are glovebox-integrated and compatible with high-throughput deposition of combinatorial thin-film libraries with different elemental composition in one process run. At DTU Electro, we have unique capabilities for characterizing nonlinear optical properties of thin-film samples. All experimental results (positive and negative) can be fed into a common database to ensure public availability and machine readability of the data.
Deadline : 08/26/2024
(08) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Nature-Inspired and Biocompatible Materials for Energy Harvesting in the Gut – DTU Health Tech
In connection with our Novo Nordisk foundation challenge grant ‘Energy Materials for the Gut (EMGUT)’ we are looking for a PhD student to work with nature-inspired materials to be used in ingestible devices. The materials will be used to harvest energy for sensing, drug release or gut sampling. One focus point will be development and modification of nature-inspired materials. A range of materials, including mycelium from fungi, will be tested to provide required energy generation. We offer a highly creative, collaborative and ambitious work environment.
This project will be part of the IDUN research section, led by Prof. Anja Boisen at DTU, Department of Health Technology (DTU Health Tech). IDUN is a highly cross-disciplinary research section with over 50 members, that focuses on development of micro and nanotechnology-based sensors, detection systems, drug delivery devices and energy materials.
Deadline : 08/13/2024
(09) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in in vivo Investigation of 3D Features for Gastrointestinal Retention, Friction and Mucopermeation/Tissue Penetration – DTU Health Tech
In connection with our ERC Advanced grant “FREJA”, we are currently looking for a PhD student who will be working on specific aspects of macroscale devices, primarily aimed at enabling oral drug delivery of pharmaceutical compositions that cannot be delivered in a feasible manner using conventional dosage forms such as tablets and capsules. In the IDUN research section at DTU Health Tech, we have explored novel devices that can increase the systemic uptake of e.g. peptide drugs by facilitating an intimate contact between the active pharmaceutical ingredients (API) and the intestinal epithelium. As an example, we have developed a self-unfolding elastomeric foil that can be triggered in the intestine. In broader terms, self-configurable devices are characterized by their ability to change shape in order to facilitate close proximity between API and the intestinal epithelium. We are now interested in studying the effect of 3D structures on the gastrointestinal retention, friction and mucopermeation/tissue penetration. In collaboration with colleagues in IDUN, working on the FREJA project, the PhD student will spearhead the implementation of 3D structures such as rough surfaces for improved friction and needles for penetration.
We offer a highly creative, collaborative and ambitious work environment. This project will be part of the IDUN research section, led by Prof. Anja Boisen at DTU Health Tech. IDUN is a cross-disciplinary research section with over 50 members, that focuses on development of micro and nanotechnology-based sensors, detection systems, energy materials and drug delivery devices.
Deadline : 08/13/2024
(10) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Alternative Materials for Oral Devices and their in vivo Interactions – DTU Health Tech
In connection with our ERC Advanced grant “FREJA”, we are currently looking for our new PhD student who will be working on macroscale devices primarily aimed at enabling oral drug delivery of pharmaceutical compositions that cannot be delivered in a feasible manner using conventional dosage forms such as tablets and capsules. In the IDUN research section at DTU Health Tech, we have explored novel devices that can increase the systemic uptake of e.g. peptide drugs by facilitating an intimate contact between the active pharmaceutical ingredients (API) and the intestinal epithelium. As an example, we have developed a self-unfolding elastomeric foil which can be triggered in the small intestine. In broader terms, self-configurable devices are characterized by their ability to change shape in order to facilitate close proximity between API and the intestinal epithelium. Such devices must be contained in the limited inner volume of size 00-000 capsules and upon triggering in the small intestine or colon they must unfold or swell and mediate a substantial pressure against the intestinal lining.
In collaboration with colleagues in IDUN working on the FREJA project, you will spearhead the implementation of alternative and sustainable materials design and development of devices that can improve retention and/or proximity to epithelium. We offer a highly creative, collaborative and ambitious work environment. This project will be part of the IDUN research section, led by Prof. Anja Boisen at DTU Health Tech. IDUN is a cross-disciplinary research section with over 50 members, that focuses on development of micro and nanotechnology-based sensors, detection systems, energy materials and drug delivery devices.
Deadline :08/13/2024
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(11) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Developing a Fungal Phenotype Genotype Relationships in Novel Foods – DTU Biosustain
Our current food production system is relying on animal and plant-derived proteins. Filamentous fungi may hold great potential to support the green transition of our diets. They can be utilized for the creation of delicious food products. Their features such as enzyme secretion, texture and flavour are critical for the development of sustainable foods. Join us in our endeavor to develop relationships between fungal traits important for the food production of tomorrow and their genome. You will be working in a highly motivated and dedicated team of researchers in an inspiring and interdisciplinary environment and research network in order to tackle this challenge.
Deadline : 08/15/2024
(12) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Selenium Solar Cells – DTU Physics
The SURFCAT section at DTU Physics explores the use of catalysis and solar energy harvesting to secure renewable energy for the future. Novo Nordisk Fonden (NNF) has funded the SelSiCELL project which aims to make high performance solar cells based on selenium (c-Se) as the photoabsorber, and to make tandem solar cells based on the c-Se/c-Si architecture.
The project is mostly experimental, and you will design, build and operate various high-vacuum equipment for making the samples as well as an array of characterization techniques for benchmarking samples.
Deadline : 08/02/2024
(13) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Multi-Qubit Quantum Photonic Devices for the Quantum Internet – DTU Electro
We are looking for outstanding experimentalists who are eager to participate in our research. Our group aims to research at the highest international level. Candidates who fit into this environment are invited to apply. Experience in quantum nanophotonics, quantum photonic devices, nanoscience, nanotechnology, and quantum dots is welcomed.
Learn more about the project here: nikaakopian.org/multiqubit.
The project is supported by an ERC Consolidator grant (€ 2.6 million) from the European Research Council (EU).
Our research aims at exploring quantum information science at the nanoscale and developing novel quantum photonic devices. Such quantum devices are central for quantum information networks, quantum computation, and quantum cryptography systems, and lie at the basis of a forthcoming Quantum Internet. We focus on quantum control and manipulation of novel nanostructures at the single-photon and single-electron level, using nanowires, quantum dots, and hybrid semiconductor-atomic systems.
This Ph.D. project is focused on experimental investigation and realization of advanced quantum photonic devices, based on crystal-phase structures in nanowires. This is a recently developed technology uniquely allowing for the fabrication of quantum devices with an ultimate precision of a single atomic layer. We are at the very forefront of international research in this area and the topic is new, creating ample opportunities for the Ph.D. student to significantly push the state-of-the-art and define new standards in the field.
Our group works in a new state-of-the-art quantum nanophotonics lab and in the national center for nano- and micro-fabrication. We work in tight collaboration with a team of quantum nanophotonics theorists and a team of nanofabrication experts. We have established an effective in-house collaboration that covers all aspects of our research: theory and modeling, sample growth and fabrication, experiments and demonstrations. We have created a dynamic research environment of young and senior scientists aimed at excellent science. We are part of Quantum DTU — the Center for Quantum Technologies at DTU.
Deadline : 08/13/2024
(14) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship – AI Augmented Design Optimization of Wind Farms – DTU Wind
Are you a curious, self-driven individual with a strong passion for developing sustainable energy solutions? Are you interested in exploring the potential of AI in engineering design? The Department of Wind and Energy Systems at the Technical University of Denmark (DTU) invites applications for a PhD position focused on the topic of AI augmented design optimization of wind farms at DTU Wind. This is your opportunity to make a significant contribution towards next generation wind farm design methodology.
You will be affiliated with the System Engineering and Optimization (SYS) section in the Division of Wind Energy Systems. The SYS section works closely with experts from all across the department and companies to create simulation, design and control solutions for wind farms, wind clusters and hybrid-power plants.
Deadline : 10/16/2024
(15) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Terahertz Spectroscopy for Sustainable Maritime Coatings – DTU Chemical Engineering
Are you looking for an interdisciplinary PhD topic, bridging disciplines such as colloids and interfaces, polymer chemistry, data science, and photonic devices? Then we invite you to apply for this exiting project, a collaboration between DTU Electro and DTU Chemical Engineering. You will push the boundaries of state-of-the-art terahertz spectroscopy and explore its application in the characterization of maritime coatings. You will measure the film thickness of wet and cured coatings, investigate the coating drying and curing dynamics, and detect rust hidden below the coating film.
Your work on terahertz spectroscopy will be supported by leading researchers at DTU Electro, not just building or optimizing the hardware but also tuning the data processing and analyses algorithms. The coating formulation, production, and testing will be done at the Hempel Foundation Coatings Science and Technology Research Center (CoaST), which is part of DTU Chemical Engineering. Here, you will have the chance to work in recently established state-of-the-art laboratories (visit https://virtual.kt.dtu.dk/CoaST-labs/ for a virtual tour) while being supported by world-class scientists.
Deadline : 08/10/2024
(16) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Nucleic Acid Chemistry – DTU Chemistry
If you are establishing your career as scientist within the field of nucleic acid chemistry and you are looking for the best possible foundation for fulfilling your ambitions, it is the right position for you. At DTU Chemistry you will break new ground at the forefront of research and technology, aiming at new diagnostic and treatment solutions for cancer.
Deadline : 08/16/2024
(17) Fully Funded PhD Position
PhD position summary/title:– Strategic PhD scholarship in AI-Based Dynamic Blackout Anticipation Methods for Future Power Systems – DTU Wind
Are you passionate about revolutionizing power systems with AI and digital twin technology? We are looking for a highly motivated PhD student to join our dynamic team at DTU. This is your opportunity to work on groundbreaking research to enhance future power systems’ resilience and efficiency. By joining us, you will gain hands-on experience with state-of-the-art tools and methodologies, collaborate with leading experts in the field, and contribute to innovative solutions that address real-world challenges.
We look for a talented, self-motivated, and team-oriented individual who thrives in a collaborative environment and enjoys tackling complex topics. As a PhD student in our team, you will be part of a world-leading research environment and contribute to the development of next-generation AI-based tools for power systems. Your work will focus on developing dynamic blackout anticipation and prevention methods using a digital twin of future power systems. This involves developing AI-based dynamic security assessment tools to enhance decision-making and control processes, collaborating on creating and employing a digital twin of an actual power system, the Bornholm Energy Island, and innovating solutions to improve power system resilience.
By joining us, you will not only advance your professional skills but also play a crucial role in pioneering research that supports a sustainable transition in the power sector. This project is funded by DTU Strategic PhD scholarship, through collaboration between the Division for Power and Energy Systems at the Wind and Energy Systems Department and the Section for Dynamical Systems at the Department of Applied Mathematics and Computer Science. As such, you will enjoy the benefits of having contact with two leading departments.
Deadline : 09/01/2024
(18) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Astrophysics – DTU Space
We are seeking applications for a 3-year PhD position at DTU-Space, focusing on stellar astrophysics. You will join the ERC-funded MAGNIFY group under the leadership of Dr. Victoria Antoci. This project aims to explore the effects of magnetic fields on stellar structure and mixing processes. The research will delve into magnetic field generation, their influence on stellar pulsations, and their broader implications for stellar evolution. MAGNIFY investigates variability caused by stellar spots and examines the origins of magnetic fields in A and F stars. By utilizing asteroseismology, the project aims to detect and analyze near-core and surface magnetic fields, comparing theoretical models with photometric observations from the Kepler and TESS satellites, as well as data from Gaia and ground-based spectroscopic and spectropolarimetric observations.
Deadline : 09/02/2024
(19) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in integrated blue optical phased array on thin-film lithium niobate platform for underwater optical communication – DTU Electro
The Internet of Underwater Things (IoUT) is defined as a worldwide network of smart interconnected underwater objects, poised to revolutionize a number of related technologies including ocean monitoring observatories, underwater exploration and resource exploitation, disaster prediction and prevention, aquaculture, and defense/security. The establishment of the IoUT requires sensing, localization, and data transmission functionalities, which are mostly achieved using underwater wireless sensor networks, consisting of small, intelligent, and battery-powered sensors. A crucial point is to enable transmission of the collected data over relatively large distances with high speed, low power consumption and low environmental impact. Underwater optical wireless communication (UOWC) represents a promising technology with the potential of addressing these requirements.
We are seeking a candidate for a PhD position to research integrated blue optical phased array (OPA) on thin-film lithium niobate (TFLN) platform, which can enable solid-state optical beam steering and will be used for the next-generation photonic chip-based UOWC system. TFLN platform is extremely promising for the UOWC application given its high transparency at blue-green light wavelength, high electro-optical coefficient, and low loss, allowing OPA-based underwater communications in a high speed.
You will participate in an international team in a European Innovation Commission (EIC) Pathfinder project called BlueArray. The project has partners from four different EU countries within the overall theme of photonic and electronic integrated circuits for next-generation UOWC technologies. This PhD project will take place at DTU Electro. As a participant of the project, you will become part of a team at DTU with expertise in design, simulation, nanofabrication, characterization, and application of photonic integrated circuits (PIC). The activities within the project will benefit from synergies with other projects in the group as well as with other activities in the department. The main supervisor will be Dr. Hao Hu, DTU Electro.
Deadline : 08/13/2024
(20) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Biomethanation of Pyrolysis Gas as a Sustainable Route for the Conversion of Residual Biomasses to Carbon Negative Fuels – DTU Chemical Engineering
Are you a highly competent, ambitious, and hard-working scientist wanting to excel in the exciting field of gas fermentation in one of the best foundations and collaboration schemes to accomplish this? Then this position is for you.
At DTU Chemical Engineering, a PhD position is available in the frame of a research project funded by DTU as a strategic PhD. The project is in close collaboration with DTU Construct (Associate Professor Lasse Røngaard Clausen), and Stiesdal SkyClean A/S (Chief Engineer Dr. Jesper Ahrenfeldt) and the main task will be to optimize biomethanation of pyrolysis gas from laboratory to pilot scale including process digitalization and sustainability.
Deadline : 08/08/2024
(21) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Topological Photonics – DTU Electro
The Nanophotonics section at DTU Electro is seeking an excellent and highly motivated PhD student to be a part of a program on ‘Symmetry-guided discovery of topological photonics’, led by Senior Researcher Thomas Christensen, who moved from MIT to DTU in 2023.
Funded by a Villum Young Investigator program (link), the project aims to uncover novel kinds of photonic topology using recent ideas and tools at the intersection of topological band theory, symmetry analysis, and group theory. You will work on developing and applying these ideas to discover new photonic phenomena and identify opportunities for proof-of-principles demonstrations with experimental collaborators at the department and internationally.
The program aims to advance the frontiers of theoretical photonics, deepen our understanding of fundamental wave-phenomena, and investigate the applications of topology in photonics.
Deadline : 08/19/2024
(22) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Prevalence and Mitigation of Pathogenic Sporeforming Bacteria in Plant-based Foods – DTU Food
We seek a dedicated and independent PhD student with an interest in microbiological ecology of plant-based food products. Your research work will focus on the prevalence and behaviour of pathogenic sporeforming bacteria in plant-based foods and ingredients and will be carried out as part of a recently funded Plant2Food (Novo Nordisk Foundation) project. As PhD student you will join our team in the Food Microbiology and Hygiene Research Group at the National Food Institute. You will also work closely with our industrial partners and partners at Wageningen University in the Netherlands.
Deadline :08/17/2024
(23) Fully Funded PhD Position
PhD position summary/title:– PhD scholarship in Cryptography – DTU Compute
We are looking for a bright, ambitious, and motivated PhD student to join the cryptography group in the Cybersecurity Engineering Section at DTU Compute in the Copenhagen region of Denmark. The 3-year PhD position will preferably start on 1 November 2024 (or according to mutual agreement). The goal of the PhD project is to improve the state of threshold post-quantum cryptography. You will join the growing cryptography team at DTU and be able to work with researchers in- and outside of the Copenhagen region and Denmark.
Deadline : 09/01/2024
About Technical University of Denmark (DTU), Denmark – Official Website
The Technical University of Denmark, often simply referred to as DTU, is a university in the town Kongens Lyngby, 12 kilometres (7.5 mi) north of central Copenhagen, Denmark. It was founded in 1829 at the initiative of Hans Christian Ørsted as Denmark’s first polytechnic, and it is today ranked among Europe’s leading engineering institutions.
Along with École Polytechnique in Paris, École Polytechnique Fédérale de Lausanne, Eindhoven University of Technology, Technical University of Munich and Technion – Israel Institute of Technology, DTU is a member of EuroTech Universities Alliance.
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