11 Fully Funded PhD Positions at Maastricht University, Netherlands

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Are you holding Master’s degree and ready to elevate your academic journey to the highest level? Maastricht University, Netherlands, 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 candidate for BIOPYRANIA: Developing polybenzimidazoles with new bio-based aromatic monomers

This project is part of the BIOPYRANIA EU project (HORIZON-JU-CBE-2023-R-04) with partners both the public and the private sector.

European industry is facing the challenge of creating sustainable products while considering the environmental impact, durability, recyclability, and safety. There is a pressing demand to explore alternatives to fossil-fuel-based products, and this presents significant challenges for industries, notably the automotive and energy sectors.

BIOPYRANIA offers an innovative solution by utilising new bio-based aromatic monomers, which are obtained through fermentative processes from European second-generation woody biomass. Expanding on previous studies of polyesters based on these new bio-based aromatic monomers at Maastricht University, BIOPYRANIA shows that incorporating these building blocks into materials results in distinctive properties. Leveraging these properties, the project aims to develop sustainable polyamide (PA) and polybenzimidazole (PBI) polymers for high-performance applications in automotive electrification and green hydrogen production.

Deadline : 30 Dec 2024

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(02) Fully Funded PhD Position

PhD position summary/title:– PhD candidate synthesis & evaluation of biobased, responsive and self-dispersible waterborne resins.

This project is part of the SusInkCoat consortium with partners both the public and the private sector. The goal of the SusInkCoat project is to develop switchable and adaptive functional polymers and additives for low environmental footprint.
Plastics have their drawbacks: their production consumes energy and leads to greenhouse gas emissions; they are made from non-sustainable materials; they do not decompose; and less than 10% are recycled. Much progress has been made in making plastics more sustainable for larger applications. However, thin films, such as those used in coatings and inks, are lagging behind. The SusInkCoat project is changing that. Researchers are developing new materials, processes and applications to improve the durability, functionality and recyclability of coatings, thin films and inks. In addition, the consortium is training a new generation of chemical developers for whom sustainability and circularity are core values.

Deadline : 30 Dec 2024

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(03) Fully Funded PhD Position

PhD position summary/title:– PhD candidate: synthesis and evaluation of biobased covalent adaptable networks (project SusInkCoat)

Deadline : 30 Dec 2024

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(04) Fully Funded PhD Position

PhD position summary/title:–PhD candidate within the Academic Collaborative Center on Sustainable Care Limburg

The DACIL project is set up by an interdisciplinary consortium. The project aims to promote the autonomy, independence and self-reliance of people with Chronic Obstructive Pulmonary Disease (COPD). This is done by providing COPD patients with an artificial intelligence (AI) supported, personalised digital companion used at home that detects disease deterioration by voice and wearables and stimulates and supports a sustainable, positive, and healthy lifestyle to prevent disease deterioration. In DACIL, researchers from different backgrounds (law, medicine, sociology, data science, psychology) join hands together with patients and other relevant parties involved in COPD care. The work of the PhD candidate focuses on the requirements, wishes and expectations of COPD patients (taken into account inclusivity, digital literacy) for the design, usability and feasibility of this personalised digital voice companion. The voice companion includes (1) a function to detect COPD disease deteriorations through voice recognition (and devices) and (2) lifestyle modules to support COPD patients to adapt a healthy lifestyle by personalised support. Within the project, we work closely with data scientists, other research departments within the university and other parties in the Netherlands. The PhD candidate will be supervised by people from the department of Health Promotion at Maastricht University, the Athena institute in Amsterdam and the department of Respiratory Medicine at Maastricht UMC+. The PhD candidate will also be involved in teaching activities within the Digital Technology and Care track within the Bachelor of Health Sciences and the Master of Health and Digital Transformation.

Deadline : 1 Sep 2024

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(05) Fully Funded PhD Position

PhD position summary/title:–PhD candidate | Department Human Biology

Insulin resistance is a key factor in the development of obesity-related cardiometabolic diseases. An imperative problem is that current (lifestyle) interventions are not always effective in improving insulin sensitivity and cardiometabolic health in people with obesity. Therefore, it is important to evaluate treatment responses in an early stage. Measuring metabolic responses is promising to provide early efficacy markers. To this end, this project involves the conduction of a combined lifestyle intervention and the development and application of a novel ultra-high field Magnetic Resonance Imaging (MRI) method to measure early tissue metabolic biomarkers predicting the metabolic (non-)response to lifestyle interventions in individuals with overweight/obesity characterized by predominant skeletal muscle insulin resistance or predominant liver insulin resistance.

Deadline : 8 Sep 2024

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(06) Fully Funded PhD Position

PhD position summary/title:–PhD candidate | improving mycelium material properties by crosslinking

This project is part of the FWO-SBO project MycoMatters (developing next-generation sustainable mycelium-based materials). The consortium partners in the MycoMatters project are Free University Brussels (VUB), Antwerp University, Ghent University and Maastricht University.

Driven by the urgently needed shift towards a more sustainable economy, there is a rising interest in mycelium materials, of which vegetative fungal biomass is a main component. Recently, focus is placed on materials with leather- and textile-like appearance for applications in fashion, apparel, interior design and automotive sectors. Despite the great promise and global investments, there are still challenges pertaining to the development of a material that meets performance criteria while being fully biobased and biodegradable and to developing a scalable cost-efficient production process. These challenges are addressed in the project, which aims to develop a robust process for production of 100% biobased and biodegradable mycelium-based materials with improved properties, such as mechanical strength and flexibility, durability but also visual and sensory attributes. The project aims to develop a higher-throughput small-scale fermentation platform, based on liquid-state surface fermentation, accelerating the research by enabling a screening of various feedstocks and process conditions, in direct connection to material characteristics. Key innovations include the use of biobased additives, such as crosslinkers, to enhance material properties and the integration of a bacterial synthetic biology host in a co-cultivation approach to optimize cost-efficiency of the process and quality of the product. Collaboration with users will guide initial product development and help to determine optimal applications, thereby further orienting the research. An interdisciplinary research approach will be employed, combining expertise in microbiology, synthetic biology, materials science, chemistry, engineering and product development. Project results will contribute to the future development of new value chains that provide environmentally conscious consumers with a fully biobased and biodegradable new material aligned with the circular economy principles.

Deadline : 29 Sep 2024

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(07) Fully Funded PhD Position

PhD position summary/title:–PhD Candidate on “Machine learning assisted prediction of plastic recyclate quality”

About the position: Mechanical recycling of plastics, is the most efficient way to treat the plastic waste in a sustainable way. However, the quality of recyclates is usually compromised leading to products with inferior properties. Quality of reprocessed samples (recyclates) depend on many factors but also is application dependent. An effective recycling process benefits from products with low variability in properties such as rheological and mechanical characteristics. To achieve this, several tests are required and a sorting and re-cycling line needs to be optimized to predict the quality of the output. The predictions should be carried out in a scientifically and economically viable method to assure applicability in industry.
This project applies the state-of-the art machine learning models combined with plethora of experiments to generate data for training the model. The significance of this project is governed by the dependency of the plastic industry on the recyclates with consistent and high quality. The quality estimation is a topic which our quality model can address. How-ever, predictions require a step backward and to impute the data gaps to assure inline sorting and separation is feasible with high accuracy and high rates.

Deadline : 10 Sep 2024

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(08) Fully Funded PhD Position

PhD position summary/title:–PhD candidate for clinical and translational research in dilated cardiomyopathy at CARIM

The Heart Failure Research team of Prof. Dr. Stephane Heymans within CARIM and the University Hospital of Maastricht (www.hfresearch.eu) is seeking a PhD candidate with a medical background. The candidate will analyze imaging, clinical data, biomarkers, genetics, and (RNA, protein, metabolic) omics to optimize outcome prediction and identify new therapeutic targets for genetic, inflammatory, and idiopathic cardiomyopathies within our local and international DCM registry (DCM Share, DCM Next, totaling over 11,000 DCM patients).

If you have expertise or interest in combining clinical, imaging, and data science for omics analysis, and are passionate about making a clinical impact through the development of new therapies, you are the ideal candidate. You will collaborate with European and US partners, as well as industry professionals, to advance new therapy development. You will join an enthusiastic and supportive research team engaged in preclinical, translational, and clinical research on non-ischemic cardiomyopathies.

Deadline : 8 Sep 2024

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(09) Fully Funded PhD Position

PhD position summary/title:–PhD candidate in Network Science

Are you a highly motivated researcher excited by interdisciplinary research on developing new methods to investigate how neural interactions in the neuromuscular system change across the lifespan and how these interactions are reorganized in movement disorders? Apply for a PhD position in the Data Analytics and Digitalization department at Maastricht University. You will work with an interdisciplinary team in collaboration with the Faculty of Psychology and Neuroscience, the Faculty of Health, Medicine and Life Sciences and the Maastricht University Medical Centre.

In the mobile brain-body imaging lab in Maastricht we study patterns of neural interactions between the brain and multiple muscles to investigate how neural coordination breaks down in movement disorders such as Cerebral Palsy and Parkinson’s disease. Movement disorders are a high priority theme within the Maastricht University Medical Centre with special focus on treatment with neuromodulation, e.g. deep brain stimulation. Complex networks are ideally suited to investigate the many-to-many coupling in the sensorimotor system and offer a mathematical and statistical framework to quantitatively assess these connectivity patterns.

Deadline : 21 Sep 2024

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(10) Fully Funded PhD Position

PhD position summary/title:–PhD candidate in Multiomics and Artificial Intelligence for Early Diagnosis of Osteoarthritis

The department of Cell Biology-Inspired Tissue Engineering (cBITE) at the MERLN Institute for Technology-inspired Regenerative Medicine at Maastricht University in the Netherlands invites applications for a PhD position. We seek a motivated and talented PhD candidate to join our dynamic research team as part of the KIC CircBioCare project, which is dedicated to advancing early diagnosis methods for osteoarthritis (OA). This exciting project aims to develop innovative proteomic strategies to detect biomarkers associated with the onset of OA, leveraging advanced technologies and artificial intelligence.

Deadline : 4 Sep 2024

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(11) Fully Funded PhD Position

PhD position summary/title:–PhD candidate for national Study on Bleeding Disorders of Unknown Cause (BDUC-iN)

Over half of individuals referred to a haemostasis expert for evaluation of their bleeding symptoms, receive a diagnosis of bleeding disorder of unknown cause (BDUC) when standard tests fail to identify a haemostatic disorder. These patients experience similar bleeding symptoms and risks as those with known coagulation disorders (like von Willebrands disease), affecting their quality of life. Lack of clear guidelines lead to uncertainties about follow-up, treatment and family planning in this patient group. In the BDUC-iN study we will evaluate healthcare, patient reported outcomes and quality of life (QoL) of BDUC patients and investigate the best diagnostic strategy and treatment options. Furthermore we will investigate the underlying mechanism of bleeding with innovative diagnostic tests, multi-omics and fundamental research. Main study endpoints are: results of questionnaires on healthcare, patient outcomes and patient experiences; number of persons diagnosed with a haemostatic defect detected with innovative laboratory tests; development of pathophysiological based treatment plans; identification of biomarkers and haemostatic modifiers of bleeding with a multi-omics (genetic, proteomics) approach; an artificial intelligence driven prediction model for bleeding and a cost-effective algorithm for bleeding evaluation. All BDUC patients registered or investigated in 6 Dutch Haemophilia Treatment Centres (HTCs) will be included.

Deadline : 9 Sep 2024

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About Maastricht University, Netherlands –Official Website

Maastricht University is a public university in Maastricht, Netherlands. Founded in 1976, it is the second youngest of the thirteen Dutch universities.

In 2019, 19,000 students studied at Maastricht University, 54% of whom were foreign students, with over 4,000 employees. About half of the bachelor’s programmes are fully offered in English, while the other half is taught wholly or partly in Dutch. Most of the master’s and doctoral programmes are in English. Besides traditional programmes, Maastricht University also has an honours liberal arts college: University College Maastricht and a Maastricht Science Programme in the same liberal arts tradition. The satellite University College Venlo opened in 2015.

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