Are you holding Master’s degree and looking for PhD positions – Fully Funded PhD Programs in Europe? University of Zurich, Switzerland inviting application for funded PhD Programs or fully funded PhD Scholarship. University of Zurich is one of the largest university in the world with thousands of employees, students, and research scientists are involved in the innovation of science and technology daily.
University of Zurich has huge a campus in Zurich, Switzerland and widely known as for its contribution in top notch education and research. The contribution of University of Zurich is not only limited to natural sciences and engineering but it also offers high quality research as well as higher education in bio-medical sciences, social sciences, humanities, psychology, education, architecture etc.
1. PhD Position in Child Development 100 % (employment 60% according to UZH rules)
Summary of Doctoral Project:
The Child Development Center at the University Children’s Hospital Co-Chair Beatrix Latal) , is a large department that provides outpatient services for children and adolescents with various developmental problems. The department also has a strong track record of clinical research ranging from normal development to abnormal development in various patient groups using multi-dimensional approaches including advanced techniques (MRI, aEEG etc.). The research group lead by Prof. Beatrix Latal is an international leading group focussing on the development, its trajectories, risk factors, brain alterations and psychsocial and educational consequences of complex congenital heart disease. A new research focus is being set on studying successful and difficult transition into adulthood for this important and growing patient population.
Last Application Date: Open until filled
2. PhD position in the field of law and human genetics, namely on aspects of genome editing and human genetics in reproduction 60 %
Summary of Doctoral Project:
The University Research Priority Program (URPP) “Human Reproduction Reloaded | H2R” explores, as of January 1, 2021 and for maximum 8 years, the rapidly changing medical technology on human reproduction. As part of the strategic orientation of the research conducted at the University of Zurich, this program aims at researching and analyzing the societal impacts and legal implications of human reproduction. This interdisciplinary positioned URPP brings together researchers from six faculties as well as from various disciplines from the humanities, social, medical and natural sciences.
Last Application Date: July 31, 2022
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3. Doctoral Position
Summary of Doctoral Project:
The Department of History at the University of Zurich offers a three-year research position in intellectual history as part of the project The Just City: The Ciceronian Conception of Justice and Its Reception in the Western Tradition (JustCity), funded by an ERC Consolidator Grant (2020-2025) and headed by Professor Benjamin Straumann. With a focus on Cicero’s conception of justice and its lasting intellectual legacy, the JustCity project delves into one of the most innovative and influential, yet widely neglected contributions the history of Western political thought has to offer. Not only does Cicero’s law-centred conception of justice, both within and between states, mark a significant departure from the virtue-centred conceptions of justice typical for earlier, Greek theories, it also paved the way for what has come to be known as the Constitutionalist Tradition in political thought, as well as for the emergence of natural and international law in early modern Europe. In order to fully appreciate its massive impact in the long term, the project will trace Cicero’s conception of justice as it is first and foremost expressed in the famous Carneadean debate in the Republic through four historical inflection points
Last Application Date: Open until filled
4. PhD Position – Spatiotemporal drivers of metastasis
Summary of Doctoral Project:
The laboratory of Didier Surdez (Bone Sarcoma Research Laboratory) at the University of Zurich is looking for a PhD candidate to decipher spatiotemporal drivers of metastasis in Ewing sarcoma. The group studies bone sarcoma and in particular Ewing sarcoma, the second most frequent bone tumor of childhood and adolescence. This cancer is characterized by a pathognomonic chromosomal translocation and few additional recurrent mutations. Among those, we identified STAG2 mutation as the most frequent one and highlighted its association with poor prognosis (Tirode et al., 2014, Cancer Discov). We recently showed how STAG2 mutation alters the generation of chromatin loops and conducts to increased invasive/metastatic properties of these mutated Ewing sarcoma cells (Surdez et al. 2021, Cancer Cell) and how STAG2 mutation favors the transformation of mesenchymal stem cells into Ewing sarcoma (Sole et al. 2021, Cancer Res).
Last Application Date: 26.06.2022
5. PhD Position – Spatiotemporal drivers of metastasis
Summary of Doctoral Project:
The group studies bone sarcoma and in particular Ewing sarcoma, the second most frequent bone tumor of childhood and adolescence. This cancer is characterized by a pathognomonic chromosomal translocation and few additional recurrent mutations. Among those, we identified STAG2 mutation as the most frequent one and highlighted its association with poor prognosis (Tirode et al., 2014, Cancer Discov). We recently showed how STAG2 mutation alters the generation of chromatin loops and conducts to increased invasive/metastatic properties of these mutated Ewing sarcoma cells (Surdez et al. 2021, Cancer Cell) and how STAG2 mutation favors the transformation of mesenchymal stem cells into Ewing sarcoma (Sole et al. 2021, Cancer Res).
Last Application Date: 26.06.2022
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6. Open PhD position
Summary of Doctoral Project:
Accurate movement control is the result of a complex interplay between various muscle groups whose activity is controlled by different areas of the central nervous system (CNS). Besides the corticospinal system, the phylogenetically old reticulospinal system is a key motor system controlling different elementary movements including posture, locomotion and reaching across vertebrate species. In contrast to the corticospinal system, there is only sparse knowledge on the motor physiology of the functionally important reticulospinal system in humans. The SNSF-funded research projects of the advertised PhD position will tackle the role of the reticulospinal system in movement control and recovery of motor function in healthy volunteers and subjects with spinal cord injury (SCI). Based on animal research, the reticulospinal system bears a high potential for neuroplastic adaptions that underlie functional recovery after SCI. Confirmatory data from patients with SCI are virtually lackin.
Last Application Date: Open until filled
7. PhD student in applied evolutionary biology
Summary of Doctoral Project:
We are seeking a PhD student to join us (Prof. Anna Lindholm and Dr. Andri Manser in a research project at the Department of Evolutionary Biology and Environmental Studies assessing the potential of a naturally occurring selfish genetic element (called t haplotype) as a tool to control invasive mouse pests on islands where they harm endemic wildlife. The t haplotype is a supergene in house mice with two seemingly ideal characteristics for pest control. First, males that carry two copies of the gene (t/t homozygotes) are completely sterile. Second, males that carry only one copy of the t (+/t heterozygotes) pass the gene on to 95% of their offspring rather than the 50% expected under Mendelian inheritance (gene drive), allowing the genetic propagation of the sterile t in a population. Preliminary work suggests that sterile t releases could offer a powerful, versatile, and humane tool to eradicate target populations due to a lack of fertile males. The aim of the project is to assess the potential of the sterile t as a pest control tool from a wide range of methodological angles.
Last Application Date: 31 July 2022
8. PhD Position in Data-driven Marketing
Summary of Doctoral Project:
The PhD position is supported by the interdisciplinary project “How individual-level choices drive collective consumer behavior in social networks”, recently approved by the Swiss National Science Foundation (SNSF). How do influencers’ choices affect their long-term success on a digital platform? How to detect and target prospect early adopters of new products? How should a firm leverage customers’ behavioral traits and social network structure to promote the diffusion of a new product throughout a social network? These and related research questions will be the focus of the SNSF project that supports the position. The candidate will use quantitative methods (e.g., large-scale empirical data, experiments, and numeric simulations) to address them. The overall goal of the project is to understand the link between individual-level choices with the success of new products and their creators in social systems. The candidate’s research will not only advance theoretical understanding but also derive its implications for influencer marketing policies adopted by firms.
Last Application Date: Open until filled
9. Doctoral position
Summary of Doctoral Project:
The Ph.D. student will work in the context of a new SNSF interdisciplinary project that will address the topics of democratic issue identification, deliberation, and democratic proposal co-creation. The Ph.D. student will investigate hybrid human-machine systems that cultivate, coordinate, and support participants using coordination technology and artificial intelligence (AI) in the context of real-world democratic processes. The Ph.D. student will work in close collaboration with other Ph.D. students from the disciplines of computer science, political science, and law. In the tradition of our research group to explore both the technical and the behavioral dimension of computer science, we are seeking an interested Ph.D. student to investigate the traditional computer science approach, as well as human behavior, specifically in the realm of computer-supported cooperative work (CSCW).
Last Application Date: Open until filled
10. Open PhD position in neurophysiology of lower urinary tract function
Summary of Doctoral Project:
We are looking for a highly motivated and scientifically interested candidate to conduct clinical research joining neurophysiology and neuroimaging with neuro-urology in humans. This post is embedded in the research environment of the Department of Neuro-Urology and the Spinal Cord Injury Center, University of Zürich, and Balgrist University Hospital in Zürich, where you will be working in an interdisciplinary team of health care professionals, neuroscientists, physicists, biologists, human movement scientists, pharmacologists, and electrical engineers.
Last Application Date: Open until filled
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11. PhD Position “Electrophysiology to Optimize Hearing in Cochlear Implant Recipients”
Summary of Doctoral Project:
After cochlear implantation surgery, recipients currently have many follow-up appointments in the clinic during which the cochlear implant’s sound processing parameters are optimized. The project aims to develop and test a set of measurements to partially automate this process and transfer it to the home environment. The successful applicant will join the research group “Otology and Biomechanics of Hearing” at the University Hospital Zurich (https://www.otobm.uzh.ch/en.html) and will be enrolled in the doctoral program at the University of Zurich.The project is conducted in collaboration with the company Sonova.
Last Application Date: Open until filled
12. Ph.D. Student position: Investigations of catalytic RNAs by ensemble and single-molecule fluorescence
Summary of Doctoral Project:
This project focuses on the visualization of the splicing process of a catalytic RNA that takes place during RNA maturation. Self-splicing introns are fascinating examples of functional RNAs where structure and function are inextricably linked. We investigate the complex RNA folding mechanism of a mitochondrial intron of baker’s yeast and monitor its self-cleavage reaction by various fluorescent techniques, e.g. in the ensemble and on a single-molecule level, applying single-molecule Förster Resonance Energy Transfer (smFRET). For this purpose, we are fluorescently labeling the RNA at various positions. In this way, we want to understand the complexity of structure and the requirements leading to a perfect ligation of the coding regions. For further reading: Steffen, et al., Nat Commun, 2020., Paudel, et al., PNAS, 2018.
Last Application Date: Open until filled
