Linkoping University, 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 Linkoping University, Sweden.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: PhD student in computer science
We are looking for a PhD student in computer science specializing in formal security analysis.
Deadline : March 27, 2025
(02) PhD Degree – Fully Funded
PhD position summary/title: PhD student in Materials Science
The project for which we are now looking for a PhD student concerns fundamental and applied research within material physics and materials chemistry, primarily focused on development and use of low-dimensional materials for efficient removal of pollutants such as organic dyes, pesticides, phenols, and antibiotics.
The Materials Design division is currently active in the design and development of new 1D (filaments), 2D (sheets), and 3D (particles) materials, in both powder and thin film form. This is achieved through a combination of theoretical simulations performed in close connection to materials synthesis and characterization, with subsequent property testing. We have a strong track record in the discovery of new materials, often presented in high-impact publications, and we now intend to expand our activities and to explore both 1D and 2D materials for environmental applications.
The PhD student will perform materials synthesis of primarily inorganic materials through both bottom-up and top-down methods. The materials will be characterized with respect to structure and composition (XRD, SEM, EDX, XPS, TEM, etc.). Most important, materials will be formulated into morphologies suitable for water purification, and tested with respect to removal of various pollutants through photocatalysis. The purified water and degraded pollutants will be evaluated with different spectrometry and spectroscopy methods.
The PhD student will be part of an international team (> 30 people) performing theoretical investigations and experimental activities on a wide range of materials including (in selection) advanced materials characterization, high resolution (in situ) microscopy, and synchrotron analysis.
As a PhD student, you devote most of your time to doctoral studies and the research projects of which you are part. Your work may also include teaching or other departmental duties, up to a maximum of 20% of full-time.
Deadline : 1st of April 2025
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(03) PhD Degree – Fully Funded
PhD position summary/title: PhD student in Applied Physics
Organic solar cells (OSCs) are based on semiconducting carbon-based materials, which absorb visible light and transform the solar energy into electrical energy. Compared with the commercial silicon solar cells, OSCs have unique advantages. For example, they can be manufactured through low-cost printing technologies (organic semiconductors can be dissolved in organic solvents and thus used as ink); they can be made semi-transparent with selectable colors which can be used architecturally in building integration, thus delivering both aesthetic and environmental benefits; OSCs have a shorter energy payback time compared with other solar cells technologies (energy needed for production of OSCs is available after six months of use under typical sunlight conditions in northern Europe).
OSCs were traditionally limited by their relatively low efficiency (around 10%). However, the situation has now significantly changed during the past few years, with a high power conversion efficiency over 20% reported very recently. The key reason for this significant improvement is due to the application of non-fullerene acceptor materials. In spite of rapid progress of in the device efficiencies of non-fullerene OSCs, not much is known on the device physics and photophysics of this new type of solar cells. The PhD candidate will focus on understanding charge generation, recombination, and extraction of non-fullerene OSCs, aiming to provide guidance for the rational design of donor / acceptor materials for further enhanced efficiency.
As a PhD student, you devote most of your time to doctoral studies and the research projects of which you are part. Your work may also include teaching or other departmental duties, up to a maximum of 20% of full-time.
Deadline : 1st of April 2025
(04) PhD Degree – Fully Funded
PhD position summary/title: PhD student in Applied Physics
The project, funded by the ERC Consolidator Grant, is to develop a new generation of laser diodes based on metal halide perovskites.
Semiconductors based on organometal halide perovskites have shown great success in photovoltaic applications, demonstrating high power conversion efficiency over 25%. At the same time, they also have a huge potential for the design of functional materials and devices with new properties. For example, they demonstrate strong electroluminescence and tunable emission energy, making them a promising candidate for laser diodes.
You are supposed to work on one of the following tasks: 1, develop perovskite light-emitting diodes which can work under high current densities (towards lasing actions); 2, design and develop activity for lasing actions; 3, understand the device physics and/or photophysics of perovskite laser diodes.
As a PhD student, you devote most of your time to doctoral studies and the research projects of which you are part. Your work may also include teaching or other departmental duties, up to a maximum of 20% of full-time.
Deadline : 3rd of April 2025
(05) PhD Degree – Fully Funded
PhD position summary/title: PhD student in Environmental Science
The position for a doctoral student is announced as part of the research area “Digestion processes” within the Biogas Solutions Research Center (BSRC) hosted by LiU.
The main purpose of the PhD project is to investigate the fate of organic pollutants present in organic residues from sources such as agricultural, municipal and industrial activities and assess their fate and transformation in anaerobic digestion (AD) plants. Current understanding of the dynamics of macro and micropollutants in AD plants mainly refers to change of bulk properties. The proposed research aims to advance this science to knowledge of transformation processes at the molecular resolution. This knowledge will enable defining strategies to direct the degradation of these pollutants to harmless transformation products.
Mechanistic understanding of the dynamic transformation of complex biomass resources and pollutants in AD plants will enhance utilization of bioresources and generation of added-value products with targeted properties for various applications. One example of valorization of the effluents from AD systems (i.e. digestate) is production of dedicated biofertilizers as a green bioresource in the agriculture with potentials to substitute mineral fertilizers. Digestate quality and yield are of upmost important and will benefit from a molecular level understanding of the dynamics of organic matter and pollutants in AD plants. The project intends to promote circular bioeconomy principles, significant in advancing green technologies.
You will study the molecular complexity of organic matter to elucidate pathways underlying the anaerobic transformation of macro and micropollutants and to develop strategies for enhancing their degradation in AD systems. Among the available analytical options, liquid chromatography with various detection modes, target and non-target mass spectrometry, and nuclear magnetic resonance (NMR) spectroscopy will be the main applied methods.
As a PhD student you will be expected to conduct independent research in line with the research focus. The work assignments particularly relate to the focus area on interplay between physicochemical and microbiological parameters with dynamics of organic matter and pollutants in anaerobic bioprocesses. Also, it includes the management and feeding of biogas reactors. This includes responsibility for research that involves planning, sampling, reactor maintenance, overall laboratory work connected to biogas processes, data processing and writing scientific articles.
You are expected to contribute to a positive, stimulating, and creative work environment at TEMA Environmental Change and BSRC. A requirement for the position is good knowledge of English, both spoken and written.
As a PhD student, you devote most of your time to doctoral studies and the research projects of which you are part. Your work may also include teaching or other departmental duties, up to a maximum of 20% of full-time.
Deadline : April 16 2025
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(06) PhD Degree – Fully Funded
PhD position summary/title: PhD in Materials Science
Flexible X-ray detectors represent a future technology that can benefit applications spanning several scientific, medical, and technological fields. Our joint project funded by the Knut and Alice Wallenberg foundation aims to realize flexible X-ray detectors by developing new high-Z covalent organic framework (COF) materials that can fulfil the critical requirements on flexibility, X-ray absorption, and charge transport simultaneously. You will assist COF development through advanced characterization techniques carried out in house and at synchrotron/spallation sources, develop and refine COF film processing, engineer device interfaces to limit charge-trapping defects and carry out device design and fabrication. You will be working jointly with chemists, materials scientists and device physicists to carry out your research, which will involve close and regular interaction with the other participating research groups at Linköping university (led by Prof. Feng Gao), Chalmers University (led by Prof. Eva Olsson) and Uppsala University (led by Prof. Sascha Ott).
As a doctoral student, you devote most of your time to doctoral studies and the research projects of which you are part. Your work may also include teaching or other departmental duties, up to a maximum of 20% of full-time.
Deadline : 22nd of April 2025
About Linkoping University, Sweden –Official Website
Linköping University is a public university in Linköping, Sweden. Linköping University was granted full university status in 1975 and is now one of Sweden’s larger academic institutions. Education, research and PhD training are the mission of four faculties: Arts and Sciences, Educational Sciences, Medicine and Health Sciences, and the Institute of Technology. In order to facilitate interdisciplinary work, there are 12 large departments combining knowledge from several disciplines and often belonging under more than one faculty. Linköping University emphasises dialogue with the surrounding business sphere and the community at large, both in terms of research and education. In 2018, Linköping University was home to 32,000 students and 4,000 employees.
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