University of Southern Denmark, Denmark invites online Application for number of Fully Funded PhD Positions at various Departments. We are providing a list of Fully Funded PhD Programs available at University of Southern Denmark, Denmark.
Eligible candidate may Apply as soon as possible.
(01) PhD Positions – Fully Funded
PhD position summary/title: PhD on Benthic-Pelagic Coupling in Oxygen-Depleted Waters
The Department of Biology at the University of Southern Denmark invites applications for Ph.D. position in aquatic biogeochemistry and microbial ecology, available for 3 years from spring 2026. The position is associated to the ERC Synergy project RECLESS (Recycling versus loss in the marine nitrogen cycle: controls, feedbacks, and the impact of expanding low oxygen regions). RECLESS aims to predict how ongoing ocean deoxygenation impacts microbial nitrogen transformations and thereby the future availability of nitrogen to support oceanic primary production and carbon sequestration. The project involves researchers from the universities of Southern Denmark, Gothenburg, and Vienna, as well as Carnegie Science, and synergistically integrates innovative oceanographic, biogeochemical, ecophysiological, and model-based investigations.
The candidate will explore and quantify how benthic processes influence the exchange of matter between sediment and water column in oxygen-depleted coastal waters, thereby ultimately influencing pelagic nitrogen cycling in these systems. This involves studies of microbial processes and fluxes within the sediment as well as in the benthic boundary layer, which is a poorly understood component of these systems. As oxygen depletion is spreading in coastal waters worldwide, the project will address knowledge gaps of both local and global significance.
With the aim of obtaining a mechanistic understanding of benthic-pelagic coupling, key tasks may include biogeochemical sediment analyses, measurement of benthic exchange rates, experimental studies of microbial processes in the sediment and benthic boundary layer, and implementation of the results in reaction-transport models. The project is tightly integrated with investigations of pelagic processes in RECLESS, and participation in international research cruises is an integral part of the position.
We seek a candidate with a background and strong interest in experimental (bio-)geochemistry, microbial ecology, or related fields, and with experience in and aptitude for field work. Experience with one or more of the above-mentioned approaches is desirable. The selected candidate will be associated to Bo Thamdrup’s research group as part of the diverse and international Nordcee section at the department, and will work closely together with associates from all RECLESS institutions.
Deadline : 01/31/2026
(02) PhD Positions- Fully Funded
PhD position summary/title: PhD Position in Self-Driving Labs for Perovskite Solar Cells
The Centre for Advanced Photovoltaics and Thin-Film Energy Devices (SDU CAPE), part of the Mads Clausen Institute, University of Southern Denmark (SDU), invites applications for a 3-year PhD position within the R2-D2 project: “Robotic Research platform and automated Device Doctor for Perovskite Solar Cells”. The position is available from April 15, 2026, and the specific start date will be agreed with the successful candidate.
Deadline : 03/02/2026
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(03) PhD Positions – Fully Funded
PhD position summary/title: PhD Positions in Medical Robotics – Intelligent Robotic Framework for Autonomous Cardiac Ultrasound Scanning
SDU Robotics, part of the Maersk Mc-Kinney Moller Institute, University of Southern Denmark (SDU), invites applications for one or more fully funded 3-year PhD positions, where the candidate will work under the DANARC project that aims to develop a robotic-based system capable of autonomously performing cardiac ultrasounds. The starting date will be agreed with the successful candidate. The workplace is at SDU’s main campus in Odense, Denmark, and the work is expected to be primarily onsite.
Deadline : 01/05/2026
(04) PhD Positions – Fully Funded
PhD position summary/title: PhD position in Algorithms
The Department of Mathematics and Computer Science (IMADA) at the University of Southern Denmark, Odense, invites applications for a PhD position in algorithms. The position has a duration of 3 years. Applications for a 4+4 PhD programme are also welcome.
The proposed starting time is spring 2026, with some room for flexibility. The appointment will be made at a competitive salary and will follow the PhD study program at the Faculty of Science.
This position is embedded in the project “PARAMLP: Parameterized Algorithms and Polyhedra” funded by the ERC. The ERC is the premier European funding organization dedicated to frontier research of the highest quality. The aim of the project is to make significant advances in the theory of algorithms, specifically on parameterized algorithms and approximation algorithm, using linear programming methods. Over the next years, the project will grow to a collaborate team of 4-5 PhD students and Postdocs.
The successful candidate will work directly with the project’s principal investigator, Associate Professor Lars Rohwedder, an internationally recognized expert in the areas of approximation algorithms and parameterized algorithms, see https://larsrohwedder.com/ for more information
Deadline :01/26/2026
(05) PhD Positions – Fully Funded
PhD position summary/title: PhD Position in Structural and Probabilistic Modelling
The successful candidate will be part of the research group SDU Structures. The PhD project will focus on probabilistic modelling of existing structures.
The successful candidate will carry out research related to the new research programme called Civil Engineering and the Green Transition in the Built Environment (CEBE). SDU Structures is co-leading the programmes research on existing structures in collaboration with Aarhus University and Technical University of Denmark. As a part of the CEBE research programme the successful candidate will join a highly ambitious initiative involving extensive national and international collaboration with leading academic institutions and industry partners.
The successful candidate will be part of a vibrant and growing research environment with strong ties to industry, offering opportunities for applied research and innovation.
The research activities will be linked to the educational programmes in Civil Engineering, where the selected candidate will contribute to teaching and supervision in the areas of structural engineering.
Deadline : 12/19/2025
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(06) PhD Positions- Fully Funded
PhD position summary/title: Ph.D. position Biopharmaceutical Investigations of Long Acting Injectable Suspensions
Long acting injectables (LAIs) are pharmaceutical products intended for weekly, monthly or with an even lower administration frequency, which provides a continued drug release and thereby a steady exposure of the delivered compound. LAIs are typically administered intramuscularly (IM) or subcutaneously (SC) as oil solutions, in situ forming gels, microspheres, implants, micro- or nanosuspensions, with focus on suspensions in the present work. For individuals suffering from dysphagia or chronic disease where limited patient adherence may have a negative outcome on the treatment efficacy, LAIs can provide a huge benefit in disease treatment. The incidence of chronic illnesses and of dysphagia is significantly growing in our ageing population. For this reason, many disease areas may benefit from the constant drug delivery that a LAIs formulation may offer.
LAIs have, with huge clinical success, been applied in the treatment of antipsychotic conditions and the area contains some of the most successful LAI formulations seen from a therapeutic perspective. In the 1960s, oil-based parenteral depot formulations, containing antipsychotics, were introduced in the clinical practice. Since then, the micro- and nanosuspension technology has significantly advanced and many of the more recent LAIs are nano-or microsuspensions. Hence, this is currently one of the important technologies in the field of LAIs.
The common approach to manipulate the performance of LAI suspensions release rate relies on changing particle size distribution of the crystalline API. This strategy is fundamentally explained by the Noyes-Whitney equation, which describes the dissolution rate of particles in sink conditions. According to the Noyes-Whitney equation, the dissolution rate is proportional to the total surface area of the drug particles. Some commercial products confirms thus and also a few academical studies have reported correlations between the particle size and the in vivo release, hence it is clearly a point that should be clarified when working with a new compound for a LAI suspension. Aside from particle size, other formulation aspects can significantly impact performance, such as formulation composition and the level of flocculation. In addition, API crystal form properties, such as morphology, level of amorphous contents and residual solvent in the API, may have a significant impact on dissolution, indicating that the selection of version and form is crucial not only for manufacturability and stability purposes, but also for performance.
This project aligns closely with Quality by Design (QbD) principles, emphasizing risk assessment, formulation understanding, and robust design space development, but systematically investigating the formulation impact on in vivo release of LAI suspensions in nonclinical models using the obtained data to generate a risk matrix for in vivo impact of potential particle size variations. A successful outcome of this project will provide pharmaceutical scientists with the tools to understand the biopharmaceutical performance of LAI suspensions supported by quality tools as well as physiological based pharmacokinetic modelling platforms.
Deadline :12/29/2025
(07) PhD Positions – Fully Funded
PhD position summary/title: Ph.D. position available: Stability of Pharmaceutical Suspensions
Terminal sterilization is the process of sterilizing a pharmaceutical product in its final container. Among various sterilization techniques, moist heat sterilization (autoclaving at 121°C) is the most widely accepted and validated method due to its proven microbial lethality, cost-effectiveness, and ease of implementation at scale- Other options are gamma radiation and E-beam. Regulatory agencies, including the U.S. Food and Drug Administration (FDA) and the European Medicines Agency (EMA), strongly prefer terminal sterilization over aseptic manufacturing wherever feasible, as it offers a higher Sterility Assurance Level (SAL) and significantly reduces the risk of post-process contamination.
Despite its advantages, terminal sterilization is not universally applicable. A significant limitation arises when drug substances or drug formulations are thermolabile, meaning they degrade either chemically or physically upon exposure to high temperatures. This is especially problematic for colloidal based formulations, such as suspensions intended for injection, which also cannot be sterile filtrated. Terminal sterilization of suspensions can lead to aggregation, hydrolysis, oxidation, Ostwald riepening or other chemical and physical degradation pathways. As a result, most marketed parenteral suspension products are manufactured using aseptic processing, where the drug and container are sterilized separately and then combined under aseptic conditions. Although effective, aseptic processing introduces significant operational complexity, requires extensive environmental controls, is more costly, and presents a higher risk of microbial contamination.
To stabilize the inherently thermodynamic instable suspensions addition of surfactants to stabilize the formulation is often needed. These surfactants are commonly nonionic surfactants, such as polysorbates and poloxamers, which have cloud points below 121 °C, i.e. they will phase invert at autoclavation temperature. Older literature teaches us that the cloud point can be elevated by the addition of e.g. PEG400, PEG3350, and some lecithin’s. This was in a later study applied to suspensions with ethyl diatrizoate nanocrystalline suspensions that could be stream autoclaved if the media was added cloud point boosters to bring it to approximately 135 °C. Colleges from Pfizer have at conferences presented data suggesting that they occasionally see similar trend for some compound, however, slides have not been shared for further analysis.
This project aligns closely with Quality by Design (QbD) principles, emphasizing risk assessment, process understanding, and robust design space development. A successful outcome of this project will provide pharmaceutical scientists with the tools to improve the physical stability of aqueous suspensions and if fully successful extend the applicability of terminal sterilization of parenteral suspensions thus improving product quality, regulatory compliance, and patient safety. By overcoming formulation barriers to terminal sterilization, this project has the potential to significantly impact the field of sterile pharmaceutical manufacturing, offering both clinical and economic benefits across the product lifecycle.
Deadline : 12/27/2025
(08) PhD Positions – Fully Funded
PhD position summary/title: PhD Position in Multi-level Material Cycles and Market Dynamics
Do you want to be part of the circular revolution to rethink the way we value the built environment? Join us as a fully-funded PhD in the MSCA doctoral network QuiVal– Quantum Inspired Valuation of Circular Real Estate (https://quival-research.eu/ ).
The SDU Life Cycle Engineering at the Department of Green Technology, University of Southern Denmark, invites applications for a Fully Funded three-year PhD in multi-level material cycles and market dynamics, in the MSCA Doctoral Network QuiVal, where we learn, ideate and reimagine real estate value and valuation practices by drawing inspiration from quantum theories.
Deadline : 01/06/2026
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(09) PhD Positions – Fully Funded
PhD position summary/title: PhD Position in Bioorganic Chemistry at SDU in Odense
Posttranslational modifications on nucleosomal core and linker histone proteins are central to transcriptional regulation in eukaryotes and are thus of fundamental importance to complex life. In contrast to advanced biomolecular understanding of core histones, the basic molecular knowledge on linker histones is currently limited. As a PhD student, you will work on the Novo Nordisk Foundation NERD-funded project aimed at developing innovativechemical tools that will enable precise elucidation of roles of linker histones and their posttranslational modifications in the chromatin structure and function. You will apply modern bioorganic chemistry and chemical biology approaches, ranging from peptide and protein synthesis to enzyme assays and protein binding studies, in investigations of biologically important linker histones.
Deadline : 01/06/2026
(10) PhD Positions – Fully Funded
PhD position summary/title: PhD Position in Material Chemistry at the Mads Clausen Institute – Sønderborg
We are seeking an enthusiastic new colleague as a PhD student in the field of Materials Chemistry with a strong background, particularly in Solid State Chemistry and Crystal Structure Analysis, and interest in industrial applications and cooperation to join the Mads Clausen Institute (MCI) at the University of Southern Denmark (SDU) in Sønderborg, Denmark. The position is for three years with an expected starting date of April 1, 2026, or as soon as possible.
MCI is a part of the University of Southern Denmark (SDU) and covers research and education, including applications of engineering sciences. Our working language is English, reflecting the fact that far more than half of our students and staff are international. We are located at SDU’s beautiful campus in Sønderborg, in the inspiring building of Alsion, which is a centre for science, culture, and learning in the heart of Sønderborg and perched on the strait of water separating the island of Als from the mainland. The university has very close relations with industries in Sønderborg, Southern Denmark, and Northern Germany.
The successful candidate is expected to carry out research mainly within a project funded by the Novo Nordisk Foundation. The research work involves the synthesis and characterization of novel compounds based on mixed-anion compounds (e.g., transition metal (oxy)nitrides) and the evaluation of their performance in solar water splitting. Also, the successful candidate is expected to be actively involved in the supervision of BSc, MSc, and exchange/visiting students affiliated with SDU NanoSYD, preparing project reports, presentations, and publications, as well as writing grants for supporting research at SDU NanoSYD.
Deadline : 01/11/2026
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(11) PhD Positions – Fully Funded
PhD position summary/title: Marie Curie PhD scholarship in rural sociology and entrepreneurship at the Department of Political Science and Public Management
We are looking for a talented and motivated PhD student for the EPHEMERAL research project. EPHEMERAL – Entrepreneurship and Place: How Entrepreneurs Manage Evolving Relationships Across the Life-cycle is a Marie Skłodowska-Curie Doctoral Network (MSCA-DN) funded under Horizon Europe. The project aims to train a new generation of researchers to advance rural development theory and practice through entrepreneurship.
EPHEMERAL explores how entrepreneurs shape rural places over time, considering life-cycle dynamics, evolving local contexts, and structural societal changes. The network includes five European universities and several non-academic partners, offering interdisciplinary supervision and training with a focus on rural entrepreneurship and development.
As part of the project you will participate in the research network, working with other PhD candidates and senior scholars across Europe. This includes participation in six international training weeks, and international secondments with academic and non-academic partners.
Deadline :01/07/2026
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About University of Southern Denmark, Denmark –Official Website
The University of Southern Denmark is a university in Denmark that has campuses located in Southern Denmark and on Zealand.
The university offers a number of joint programmes in co-operation with the University of Flensburg and the University of Kiel. Contacts with regional industries and the international scientific community are strong.
With its 29,674 enrolled students (as of 2016), the university is both the third-largest and, given its roots in Odense University, the third-oldest Danish university (fourth if one includes the Technical University of Denmark). Since the introduction of the ranking systems in 2012, the University of Southern Denmark has consistently been ranked as one of the top 50 young universities in the world by both the Times Higher Education World University Rankings of the Top 100 Universities Under 50 and the QS World University Rankings of the Top 50 Universities Under 50.
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