KTH Royal Institute of Technology, Stockholm, Sweden 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 KTH Royal Institute of Technology, Stockholm, Sweden.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Visual Optics
This PhD position is part of the project “Improved myopia control via peripheral image quality assessment”, funded by the Swedish Research Council and conducted within the ongoing “Stockholm Myopia Study”.
Myopia is increasing worldwide, raising the global risk of eye diseases, which makes early detection and understanding of its development crucial. Research shows that not only central, but also peripheral retinal image quality influences myopia development, and optical treatments targeting the periphery are being developed. Our longitudinal study follows the visual development of children to advance knowledge on effective strategies to slow myopia progression. The work is highly interdisciplinary, providing a unique interface between optical engineering, vision science, and clinical practice. The project includes:
- Developing instrumentation and procedures for measuring retinal image quality through different spectacle designs
- Measuring image quality in children in collaboration with Karolinska Institutet
- Analysing data to identify biomarkers and protective mechanisms for myopia
Deadline : 11.Feb.2026
(02) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Construction Procurement and Innovation
The Department Real Estate and Construction Management at KTH is one of Sweden’s leading environments for research and education in construction procurement and innovation. KTH develops research-based knowledge to take the lead in sustainable development.
The doctoral student will work with the project “Sustainable transformation for the benefits of residents through public procurement and co-creation” and become part of, and thus be funded by, the Graduate School for the Future Public Sector (FOFOS). FOFOS is a interdisciplinary and innovative graduate school that serves as a national knowledge hub for developing new action-oriented knowledge to support the transformation of the public sector. https://www.sustaingov.se/aktuellt/2025-8/sustaingov-far-forskarskola/.
Deadline : 06.Feb.2026
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(03) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Optimal Transport for Optimization and Machine Learning
The project focuses on applying optimal transport and gradient flows to machine learning and optimization applications, such as deep generative models, sampling, inference, stochastic optimization, and beyond. The doctoral student will develop and analyze mathematical models and algorithms that connect partial (and/or stochastic) differential equations, infinite-dimensional optimization, and statistical machine learning. The goal is to build a theoretical and computational foundation for new methods in statistical inference and generative modeling, based on principled optimal transport and gradient flow theory.
We are looking for a highly motivated candidate with a strong background in mathematics, applied mathematics, or related fields, and with an interest in both theory and applications.
The doctoral student will be placed at the Department of Mathematics, School of Engineering Sciences (SCI), KTH Royal Institute of Technology, and will be part of a dynamic research environment with close collaboration with other researchers in the area.
Deadline : 04.Feb.2026
(04) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in experimental fluid mechanics and bacterial biofilms
The Department of Engineering Mechanics pursues basic and applied research in biomechanics, composite mechanics, fluid mechanics, contact mechanics, fracture mechanics and fatigue, material mechanics, and paper mechanics. FLOW is a strong community of researchers engaged in fundamental and applied research in fluid mechanics within the department.
We are currently seeking a PhD student in fluid mechanics to join the Fluid and Surface Group within FLOW. This position offers an exciting opportunity for a highly motivated candidate to contribute to a cutting-edge research program. The project, funded by the Swedish Research Council (VR), aims to uncover the fundamental mechanisms that govern biofilm morphology and growth under flow conditions. At present, the lack of such understanding limits our ability to predict how rapidly biofilms develop in dynamic environments, which poses major challenges across industry, where timely biofilm removal is critical.
In this project, the PhD student will work with a unique experimental platform and combine it with continuum modeling of complex materials and machine-learning-based analysis methods to understand and predict biofilm structure and growth.
Deadline : 31.Jan.2026
(05) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Radiofrequency ranging for Lunar orbits
The position is part of the MSCA “E-Sailors” doctoral network (https://sisu.ut.ee/esailors/), a challenge-driven Doctoral Network aimed at advancing a novel space propulsion technology known as the Electric Solar Wind Sail (E-sail). E-sail uses hair-thin tethers deployed from a spinning spacecraft and charged to high voltage, which interact with the solar wind flow, propelling the spacecraft with a continuous propulsion force. The project aims at investigating multidisciplinary aspects for designing and operating E-sail demonstrator in Lunar orbit.
In this project, the student will work with establishing a framework for characterizing the thrust of the E-sail demonstrator in an orbit around the Moon. Radiofrequency (RF) ranging will be used for determining the orbital changes achieved by E-sail propulsion. The focus of the project will be on modeling the accuracy of the determining the continuous small thrust force, and optimizing the configuration of the RF ranging operations.
Scientists and doctoral students at of Space and Plasma Physics are involved in a range of space missions, from sounding rockets to large international space projects (including the JUICE mission to Jupiter), where we have built instruments, plan operations, and analyze data.
Deadline : 31.Jan.2026
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(06) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in spacecraft-plasma interaction
The position is part of the MSCA “E-Sailors” doctoral network (https://sisu.ut.ee/esailors/), a challenge-driven Doctoral Network aimed at advancing a novel space propulsion technology known as the Electric Solar Wind Sail (E-sail). E-sail uses hair-thin tethers deployed from a spinning spacecraft and charged to high voltage, which interact with the solar wind flow, propelling the spacecraft with a continuous propulsion force. The project aims at investigating multidisciplinary aspects for designing and operating E-sail demonstrator in Lunar orbit.
In this project, the student will work on the design of a plasma probe instrument for the E-sail demonstrator mission, with the purpose of characterizing and monitoring the interaction of the spacecraft with a tether biased to a high voltage with surrounding plasma. The project will involve simulating spacecraft-plasma interaction, designing the plasma probe instrument, including prototypes. Working with plasma probe data from existing missions will be an important part of the project.
Scientists and doctoral students at of Space and Plasma Physics are involved in a range of space missions, from sounding rockets to large international space projects (including the JUICE mission to Jupiter), where we have built instruments, plan operations, and analyze data.
Deadline : 31.Jan.2026
(07) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Theoretical Condensed Matter Physics
The group of Egor Babaev at the Department of Physics of KTH Royal Institute of Technology has an opening for one Doctoral student in the field of theoretical condensed matter physics. The group carries a broad spectrum of research using analytical and numerical methods ranging from effective field theory, topological solitons, statistical mechanics of the phase transitions, topological systems to modern microscopic quantum many-body techniques. One of our research topics is the emerging field of composite order: In a recent year, experimental discoveries were made that revised half-century-old paradigms: the discovery of electron quadrupling condensate, and topological defects carrying an arbitrary fraction of magnetic flux quantum. The discovery opened up many fundamental questions on the nature of this new state of matter and its possible applications. Other topics include other new quantum symmetry-breaking and topologicallyordered states, unconventional phase transitions, and application of newly developed methods, such as Diagrammatic Monte-Carlo to understand the long-standing problems. Collaboration with local and international theoretical and experimental groups involved in the project is encouraged.
Deadline : 28.Jan.2026
(08) PhD Degree – Fully Funded
PhD position summary/title: Doctoral Student in High-performance Quantum Software
This Ph.D. project will develop high-performance quantum software technologies, with a focus on quantum compilers, scheduling and orchestration on parallel computing systems, including in distributed quantum computing settings and in quantum serverless computing environments. The work will range from theoretical and algorithmic development of compilation and scheduling techniques, through the design and implementation of software frameworks and runtime systems for heterogeneous quantum-HPC platforms, to experimental evaluation on realistic workloads. The Ph.D. student will work in an interdisciplinary environment at the intersection of quantum computing, computer science, and parallel computing research, with access to HPC clusters, cloud platforms, and quantum computer hardware.
Deadline : 23.Jan.2026
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(09) PhD Degree – Fully Funded
PhD position summary/title: Next-Generation Heating Systems for European Multi-Family Homes
The Department of Energy Technology at KTH is seeking a motivated and curious PhD candidate to join a dynamic division focused on energy systems in buildings and cities. Our work spans both education and research, with a strong emphasis on real-world impact and interdisciplinary collaboration.
As a PhD candidate, you will play an active role in our research community—contributing to ongoing projects and courses, while also having the opportunity to shape and develop new initiatives. You’ll be supported by an inclusive, collaborative team environment that values diverse perspectives and encourages innovation.
This PhD project is a unique partnership between KTH Energy Technology, two leading heat pump manufacturers in Sweden, and a very competent European consortium including both companies and research institutes from Germany, Austria, and France. We aim to develop an innovative, circular-by-design apartment-level compact heating system for European multi-family houses through innovative and cross-disciplinary solutions.
Deadline : 21.Jan.2026
(10) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student (licentiate) in soil and rock mechanics (grouting)
We are looking for a PhD student to join the Division of Soil and Rock Mechanics, with the goal of improving current methods for sealing rock tunnels against groundwater inflow through grouting. Grouting represents a significant part of both the cost and construction time in tunnelling projects. However, practical experience shows that designing effective grouting solutions remains a challenge. It is often difficult to predict the degree of watertightness that a particular design will achieve.
This doctoral project aims to develop new design principles for tunnel grouting. The project is of high practical relevance, as its results will serve as scientific input to the development of a new European design standard for underground construction in rock.
As a PhD student, you will work closely with experts in rock mechanics, grouting technology, groundwater modelling, and reliability-based design. Your tasks will include:
- Investigating how uncertainties in grouting design can be described and quantified using probabilistic methods.
- Exploring how grouting design can be formulated as verification of limit states, and conducting analyses to evaluate the proposed design methodology under realistic conditions.
- Publishing your research findings in scientific journals, deepening your expertise in soil and rock mechanics, and contributing to undergraduate and master’s level teaching at the department.
Deadline : 16.Jan.2026
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(11) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Neuromorphic Computing in Memristors
As part of the Marie Curie ITN project REACT, KTH will focus on developing a memristor-based neuromorphic architecture, with particular emphasis on the BCPNN model pioneered at KTH. Other neuromorphic models will also be investigated. The PhD candidate will contribute to enhancing an existing simulation framework to validate memristor-based models in terms of functionality and accuracy, while also accounting for non-idealities and device variability. In addition, the candidate will develop memristor fabric fragments as SiLago blocks (“Silicon Lego bricks”) to enable rapid composition of memristor-based computational structures.
Deadline : 15.Jan.2026
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(12) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Energy/thermal comfort in public electric buses
The project the candidate will work on investigates the relationship between passengers’ thermal comfort, the thermal management of the drivetrain and battery, and the energy consumption for heating and cooling in electric buses operating in urban traffic. The goal is to minimize energy use in electric public transport buses through optimized climate and operational strategies.
Through field studies, simulations, passenger surveys, and pilot studies, the project will develop guidelines for operators and manufacturers. The project is expected to contribute to increased energy efficiency and accelerate the transition to sustainable public transport, in line with the call’s objective to promote applicable solutions for the energy transition of the transport system.
The candidate should have relevant education in Energy Technology, with a focus on climate control of occupied zones.
Deadline : 15.Jan.2026
(13) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in “Autonomous Decentralized Energy Market Design and Analytics”
The Division of Decision and Control Systems is seeking an exceptional doctoral student to conduct research at the intersection of optimization, learning, and game theory, with the goal of developing the foundations of next-generation autonomous and decentralized energy markets. The project addresses both fundamental and computational challenges, spanning the development of stochastic models for decentralized energy markets, decentralized and learning-enhanced market clearing algorithms, and fair-by-design pricing strategies. The research will address one or more of the following topics:
- Stochastic and data-driven modelling of peer-to-peer energy trading
- Learning-to-Optimize (L2O) for large-scale multi-agent systems
- Bilevel games and mechanism-design approaches to fair pricing
- Design and analysis of decentralized energy markets
Deadline : 15.Jan.2026
(14) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Large Language Model inferencing
The advertised doctoral student position are within an ambitious, 5-year Wallenberg Scholar project titled “Scalable and adaptive inferencing for democratizing AI”. In this 18 Million SEK project, we want to dramatically reduce the cost and power for serving large language models such as ChatGPT. The project page, with our early publications, is available at: https://www.kth.se/blogs/dai/
The work will primarily entail design, implementation, and evaluation of distributed systems and networks for machine learning inference. Applying machine learning concepts, with the goal of devising agentic frameworks, will also be a part of the project.
Supervision: Professor Dejan Kostic and Associate Professor Marco Chiesa is proposed to supervise the doctoral student. Decisions are made on admission
Deadline : 15.Jan.2026
(15) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Thermal Catalytic Conversion of CO2 to Solid Carbon
The project focuses on thermal catalytic conversion of CO2 to solid carbon, an emerging and promising pathway for sustainable carbon utilization. The goal is to develop electrified and energy-efficient catalytic processes that transform captured CO2 into valuable carbon materials for use in energy storage and industrial applications.
You will work experimentally with catalyst development, reactor design, and process operation, supported by process modeling in Aspen Plus. The research will explore both fundamental reaction mechanisms and practical system performance, combining materials science, chemical reaction engineering, and process electrification.
The project is part of a dynamic international research team at KTH Royal Institute of Technology, in collaboration with industrial partners through national innovation programs. You will have access to advanced laboratories for catalysis and materials characterization, and you will work closely with experienced researchers in CO2 utilization and sustainable process development.
You will join an international and collaborative research team working on CO2 utilization and process electrification. The project provides access to modern laboratories, advanced analysis tools, and strong industrial partnerships within KTH’s leading research environment
Deadline : 13.Jan.2026
About KTH Royal Institute of Technology, Stockholm, Sweden – Official Website
KTH Royal Institute of Technology, abbreviated KTH, is a public research university in Stockholm, Sweden. KTH conducts research and education within engineering and technology, and is Sweden’s largest technical university. Currently, KTH consists of five schools with four campuses in and around Stockholm.
KTH was established in 1827 as Teknologiska Institutet (Institute of Technology), and had its roots in Mekaniska skolan (School of Mechanics) that was established in 1798 in Stockholm. But the origin of KTH dates back to the predecessor to Mekaniska skolan, the Laboratorium Mechanicum, which was established in 1697 by Swedish scientist and innovator Christopher Polhem. Laboratorium Mechanicum combined education technology, a laboratory and an exhibition space for innovations. In 1877 KTH received its current name, Kungliga Tekniska högskolan (KTH Royal Institute of Technology). The King of Sweden Carl XVI Gustaf is the High Protector of KTH.
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