University of Twente, Netherlands 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 University of Twente, Netherlands.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: PhD Position on Process Systems Engineering for Flexible CO2 Utilisation under Renewable Energy Variability
Are you excited about applying mathematical modelling, optimization and control to accelerate the energy transition? In this PhD project, you will develop advanced Process Systems Engineering methodologies for the design and operation of flexible CO2 utilisation processes powered by intermittent renewable energy. You will work at the interface of chemical engineering, optimization, sustainability assessment and industrial implementation.
The transition towards a sustainable chemical industry requires new process concepts that can efficiently convert captured CO2 into valuable products while operating under fluctuating renewable energy supply. Such systems must be able to cope with variations in electricity availability and price while maintaining economic viability and environmental performance.
In this PhD project, you will develop advanced Process Systems Engineering (PSE) methodologies to support decision-making in the design and operation of electrified CO2 utilisation processes. Central to the research is the development of superstructure-based models that represent alternative process configurations and conversion pathways. These models will be integrated across multiple scales, ranging from reactor-level phenomena to complete process systems.
Deadline : 19 Jul 2026
(02) PhD Degree – Fully Funded
PhD position summary/title: PhD position in the Department of Molecules and Materials on the Development of In-situ Optical Sensing for Polymer-based Optoelectronics
You are a highly motivated researcher with a Master’s degree in Physical Chemistry or Physics, with skills in optics and spectroscopies. You have strong communication skills and enjoy collaborating with partners across different disciplines of physics, chemistry, materials, and computer science. Join us in developing optical sensing techniques to reveal how charge, structure, and chemistry evolve in conductive and functional polymer materials during operation, with the goal of enabling energy-efficient organic-based optoelectronics. Polymers are emerging materials for optoelectronics, molecular memory, neuromorphic devices, and chemical sensing, but many of the key chemical and physical processes that control their stability and performance remain difficult to observe during operation, hindering their high-value high-tech applications. Join a cutting-edge research project at the University of Twente and help revolutionize polymers for multifunctional optoelectronics!
As a PhD student, you will work on the project focused on developing in-situ optical sensing for polymer-based electronics: using light to non-invasively inspect, understand, and improve their stability and performance, with the aim to develop energy-efficient optoelectronic devices. You’ll select and design conductive polymers, fabricate electronics devices, then build in-situ UV-Vis/Raman/surface enhanced Raman spectroscopies platform to reveal hidden processes such as interfacial charge transfer, redox switching, doping and dedoping, morphology dynamics, and local electric field effects. You’ll model electrical and optical inputs and responses for energy-efficient computing as a proof of concept.
Deadline : 5 Jul 2026
View All Fully Funded PhD Positions Click Here
(03) PhD Degree – Fully Funded
PhD position summary/title: PhD position in multi-material additive manufacturing for advanced chip cooling
Are you passionate about advanced manufacturing, materials science, and semiconductor cooling technologies? We are looking for an ambitious PhD candidate to work on a cutting-edge project focused on multi-material additive manufacturing and thermal management for next-generation chip packaging. You will develop novel metal–silicon interfaces and integrated cooling solutions using Laser Powder Bed Fusion (LPBF), contributing to future high-performance computing and AI hardware.
Deadline : 5 Jul 2026
(04) PhD Degree – Fully Funded
PhD position summary/title: PhD position on: “Advanced polymeric membranes and dialyzers for developing a miniaturized biohybrid kidney system”
Patients with end stage kidney disease (ESKD) need kidney replacement therapy (KRT) to survive, but current solutions (dialysis, kidney transplantation) are insufficient. The majority of ESKD patients is dependent on dialysis which places a heavy burden on their life. Removal of uremic toxins there is inadequate. This project aims to develop a miniaturized extracorporeal device that combines artificial and biohybrid kidney functionalities and would pave the way for developing of an implantable artificial kidney device. For achieving this, new types of artificial membranes and membrane dialyzers would be developed and novel cell cultures protocols there would be investigated. Studies of uremic solutes removal from human blood as well as blood compatibility studies should be performed. The project is part of a larger consortium program, entitled Biohybrid Kidney XB, Health Holland
As part of the PhD program, you would have the opportunity to receive further education within the Twente Graduate School and within various graduate education programmes in the Netherlands. Furthermore, you are expected to actively contribute to the teaching program, e.g. by supervising BSc and MSc assignments and by acting as teaching assistant in courses taught by AOT staff members.
Deadline : 30 Jun 2026
(05) PhD Degree – Fully Funded
PhD position summary/title: PhD position for NWO project ECHoFAIR: empowering collaborative human-AI teaming for failure analysis and intelligent risk assessment
Are you passionate about improving the design and development of complex high-tech systems through intelligent tools and collaboration? We offer a challenging PhD position in the Systems Engineering and Multidisciplinary Design (SEMD) group at the Department of Design, Production and Management.
Failure Analysis and Risk Assessment (FARA) play a critical role in ensuring the reliability, safety, and performance of complex systems. However, current industrial practices, such as Failure Modes and Effects Analysis (FMEA), are time-consuming, rely heavily on scarce expert knowledge, and struggle to cope with uncertainty, large data volumes, and increasing system complexity.
At the same time, recent advances in Artificial Intelligence (AI) offer opportunities to support engineers in failure analysis, risk assessment and decision-making. Yet, these technologies are not yet sufficiently reliable, integrated, or tailored for safety-critical engineering applications.
This project aims to bridge the gap between traditional engineering practices and AI-driven methods by developing human-AI collaborative approaches for failure analysis and risk assessment.
Deadline : 3 Jul 2026
Polite Follow-Up Email to Professor : When and How You should Write
Click here to know “How to write a Postdoc Job Application or Email”
(06) PhD Degree – Fully Funded
PhD position summary/title: PhD Position in Tire Tribology: Micro-Abrasion of Advanced Tire Tread Materials
The Surface Technology and Tribology group within the Department of Mechanics of Solids, Surfaces and Systems (MS3), part of the Faculty of Engineering Technology (ET), is seeking a highly motivated PhD candidate to investigate micro-abrasion and wear mechanisms in tire tread materials. The position is funded by the Dutch Research Council (NWO) through the Open Technology Programme (OTP) and is part of a larger project of 2 PhDs and 1 EngD.
Tire wear is a major environmental challenge, contributing to microplastic pollution due to the persistence of rubber particles. Addressing this requires a deeper understanding of tribological mechanisms, particularly at the tire–road interface. This is critical for developing tire materials that balance performance, durability, and reduced environmental impact.
This PhD project focuses on understanding and modelling micro-abrasion in tire tread materials. It will develop wear mode diagrams for rubber compounds and study how composition affects transitions between abrasive wear modes. The work includes the development of experimental setups, laboratory validation, and microscale analysis using a single asperity tribo-setup, combined with ploughing modelling. The outcomes are expected to contribute to the development of more durable and sustainable tire materials.
Deadline : 9 Jul 2026
(07) PhD Degree – Fully Funded
PhD position summary/title: PhD position in IC Design group
The University of Twente (UT) is located in the east of the Netherlands. It offers a dynamic campus, excellent facilities and the possibility to work in- and with- famous research groups.
Professor Bram Nauta’s Integrated Circuit Design (ICD) group focuses on various aspects of analog and Radio Frequency (RF) Integrated Circuits (IC). The group’s motto is “fundamental solutions for practical problems” and under this vision, it has contributed many fundamental new ideas in circuit design. The IC Design group has made high-impact inventions in analog filters, thermal noise cancelling amplifiers, ultra-low power analog to digital converters, software-defined radio, mixer-first receivers, N-path filters and sub-sampling phase locked loops. The group is a world leader and initiator of many new research directions which also find their application in industrial products. The group has a strong collaboration with the global semiconductor industry.
Deadline : 31 Dec 2026
About The University of Twente, Netherlands – Official Website
The University of Twente (Dutch: Universiteit Twente [ynivɛrsiˌtɛi(t) ˈtʋɛntə]; abbr. UT) is a public technical university located in Enschede, Netherlands. The university has been placed in the top 170 universities in the world by multiple central ranking tables. In addition, the UT was ranked the best technical university in the Netherlands by Keuzegids Universiteiten, the most significant national university ranking. The UT collaborates with Delft University of Technology, Eindhoven University of Technology and the Wageningen University and Research Centre under the umbrella of 4TU and is also a partner in the European Consortium of Innovative Universities (ECIU).
Disclaimer: We try to ensure that the information we post on VacancyEdu.com is accurate. However, despite our best efforts, some of the content may contain errors. You can trust us, but please conduct your own checks too.
Related Posts
