TU Delft

Postdoktorand nové luminiscenční materiály pro udržitelnou energetickou technologii: směrem k fotovoltaickému oknu

Připojte se k TU Delft v Nizozemsku jako postdoktorand a vyvíjejte luminescenční povlaky s Yb³⁺ pro fotovoltaická okna. Používejte magnetronové naprašování k tvorbě inovativních materiálů přeměňujících sluneční světlo na elektřinu. Nabízíme flexibilní pracovní dobu, výborný důchodový systém a podporu při stěhování.
TU Delft
TU Delft
Delft, Nizozemsko Flexibilní Plný úvazek UTC+02:00

TU Delft

Přehled společnosti

TU Delft (Technická univerzita Delft)

Delft, Nizozemsko

1842

Asi 19 000 studentů a více než 3 300 vědců (zdroj: linkedin.com).

Co dělají

TU Delft je největší a nejstarší veřejná technická univerzita v Nizozemsku, která se zaměřuje na vzdělávání a výzkum v různých technologických oblastech. Univerzita má silný důraz na výzkum v oblasti energie, zejména v oblasti obnovitelné energie. Laboratoř Electrical Sustainable Power (ESP) funguje jako centrum pro multidisciplinární výzkum budoucích digitálních energetických systémů s vysokým podílem obnovitelné energie (zdroj: tudelft.nl). Mezi výzkumné oblasti patří mimo jiné integrace obnovitelných zdrojů energie do elektrické sítě, skladování energie a vývoj inovativních technologií, jako je konverze vodíku a geotermální systémy.

Projekty a historie

TU Delft má řadu výzkumných iniciativ a projektů, které jsou relevantní pro obnovitelnou energii. Příklady zahrnují projekt RELEASE, který se zaměřuje na velkokapacitní skladování energie prostřednictvím elektrochemické konverze, a projekt TradeRES, který zkoumá tržní návrhy pro 100% obnovitelné energetické systémy (zdroj: tudelft.nl). Dále koordinuje Wind Energy Institute (DUWIND) výzkum větrné energie napříč šesti fakultami, s důrazem na aerodynamiku, materiály a optimalizaci turbín.

Recentní vývoj

V poslední době TU Delft spustila několik iniciativ, včetně 24/7 Energy Lab, které zkoumá místní bezuhlíkové energetické systémy pro budovanou infrastrukturu, a Floating Renewables Lab, které se zaměřuje na využití obnovitelné energie na moři (zdroj: tudelft.nl). Tyto laboratoře jsou součástí širších snah univerzity přispět k energetické transformaci a udržitelnému rozvoji.

Práce na TU Delft

Na TU Delft existuje řada rolí a oddělení, od vědeckého personálu po administrativní pracovníky. Univerzita nabízí stimulující pracovní prostředí se silným zaměřením na výzkum a inovace. Zaměstnanci profitují z kultury, která podporuje spolupráci a interdisciplinární výzkum, stejně jako z možností profesního rozvoje prostřednictvím jejich platformy Learning for Life, která nabízí kurzy o integrovaných energetických systémech a technologiích obnovitelné energie (zdroj: tudelft.nl).


Poslední aktualizace: úno 23, 2026 | Nahlásit problém

Imagine windows that generate electricity. You will use reactive magnetron sputtering to develop Yb³⁺-doped narrow-bandgap sulfide luminescent coatings that turn glass into solar power.

Job Description

In this postdoc research project you will develop luminescent materials for building-integrated photovoltaic (BIPV) technology. You will make and study new types of strongly absorbing sulphide luminescent solar absorber materials, just a few hundred nm thick, that can convert the UV and visible part of the solar spectrum into infra-red luminescence. When applied as a coating to windows, these materials can enable a cost-effective electricity-generating PV-window following the principle of a Luminescent Solar Concentrator (LSC). An LSC harvests sunlight by absorbing, re-emitting, and subsequently guiding light, like in an optical fibre, to solar cells integrated in the window pane that convert the light into electrical power.

In this project you use reactive DC, RF or pulsed magnetron sputtering, the workhorse technology of the glass coating industry, to make the luminescent materials. Targeted materials are Yb³⁺-doped inorganic semiconducting sulphide materials, emitting in the infra-red spectral range, where silicon solar cells have high conversion efficiency.

To successfully develop new luminescent absorber materials, it is crucial that you gain a fundamental understanding of the physical processes underlying their luminescence mechanism. To give you an idea, one of the scientific challenges is to understand how generated electron-hole pairs can transfer their energy to the luminescence centres. The strongest possible absorptions in an inorganic material are so-called bandgap absorptions, in which an electron is excited from the valence band (VB) to the conduction band (CB), leaving behind a hole in the VB. Although there are many materials (hosts) with a small bandgap that absorb the entire visible part of the solar spectrum (black materials), very few show efficient luminescence of doping ions. Such host-to-doping-ion transfer is often described as a resonant process between (self-trapped) exciton emission and doping-ion absorption. The materials in this project are selected to have a small exciton binding energy, making exciton-mediated transfer inefficient. Instead, sequential transfer of first the electron and then the hole is the anticipated transfer process to the Yb³⁺ luminescence centres.

The fundamental insights are obtained first by time- and temperature-resolved optical and luminescence spectroscopy, combined with a variety of techniques to analyse the structure, (defect) composition and morphology of the films. Secondly, fundamental understanding involves data interpretation and model development using knowledge of solid-state physics, optics and quantum mechanics. Ideally, the obtained insights will be used to select other materials with improved properties during your project.

The Energy Materials group at Delft University of Technology has more than 30 years of experience in luminescent materials research and collaborates with a start-up company and the glass coating industry to facilitate a route to large-scale application of the coatings as windows. You will work in a team, led by your supervisor, alongside Phd's, technicians, a start-up company and the glass coating industry.

Job Requirements

You are a skilful experimentalist with perseverance and patience, motivated to make new materials. Please show in your application that you have:

  • a PhD in physics, inorganic (physical) chemistry or a similar field
  • experience with magnetron sputtering
  • a proven interest in, and experience with, experimental (materials) research

Experience with any of the topics mentioned in the job description is beneficial but not mandatory.

Working at TU Delft means contributing to solutions that really make a difference.

For over 180 years, we have been training engineers who make an impact worldwide in companies, government bodies, or as entrepreneurs. Our alumni turn knowledge into concrete solutions for the challenges of today and tomorrow.

These challenges are changing rapidly. That is why we focus on themes such as energy, climate, digitalisation, artificial intelligence (AI), and smart mobility every day. Our education and research are directly aligned with what society needs now and in the future.

At TU Delft, our people make the difference. With their knowledge and curiosity, our staff provide a high-quality education and conduct pioneering research that extends beyond the campus. You will have the opportunity to take the initiative, work with others, and grow as a professional.

Working at TU Delft means join an international community of professionals and students. Together, we create knowledge, innovations, and solutions that help move the world forward.

Faculty Applied Sciences

With more than 1,100 employees, including 150 pioneering principal investigators, as well as a population of about 3,600 passionate students, the Faculty of Applied Sciences is an inspiring scientific ecosystem. Focusing on key enabling technologies, such as quantum- and nanotechnology, photonics, biotechnology, synthetic biology and materials for energy storage and conversion, our faculty aims to provide solutions to important problems of the 21st century. To that end, we educate innovative students in broad Bachelor's and specialist Master's programmes with a strong research component. Our scientists conduct ground-breaking fundamental and applied research in the fields of Life and Health Science & Technology, Nanoscience, Chemical Engineering, Radiation Science & Technology, and Engineering Physics. We are also training the next generation of high school teachers.

Click here to go to the website of the Faculty of Applied Sciences.

Conditions of Employment

  • Duration of contract is 27 months. Temporary.
  • A job of 40 hours per week.
  • Salary and benefits are in accordance with the Collective Labour Agreement for Dutch Universities.
  • An excellent pension scheme via the ABP.
  • The possibility to compile an individual employment package every year.
  • Discount with health insurers on supplemental packages.
  • Flexible working week.
  • Every year, 232 leave hours (at 38 hours). You can also sell or buy additional leave hours via the individual choice budget.
  • Plenty of opportunities for education, training and courses.
  • Partially paid parental leave
  • Attention for working healthy and energetically with the vitality program.

Will you need to relocate to the Netherlands for this job? TU Delft is committed to make your move as smooth as possible! The HR unit, Coming to Delft Service, offers information on their website to help you prepare your relocation. In addition, Coming to Delft Service organises events to help you settle in the Netherlands, and expand your (social) network in Delft. A Dual Career Programme is available, to support your accompanying partner with their job search in the Netherlands.

Additional Information

For more information about this vacancy, please contact Trudy Beentjes [email protected].

Are you interested in this vacancy? Please apply no later than 20 July 2026 via the application button and upload the following documents:

  • a CV
  • a motivation letter describing your experience with magnetron sputtering and your experimental skills in general
  • a short description of your PhD research work

You can address your application to Erik van der Kolk.

Please note:

  • You can apply online. We will not process applications sent by email and/or post.
  • As part of knowledge security, TU Delft conducts a risk assessment during the recruitment of personnel. We do this, among other things, to prevent the unwanted transfer of sensitive knowledge and technology. The assessment is based on information provided by the candidates themselves, such as their motivation letter and CV, and takes place at the final stages of the selection process. When the outcome of the assessment is negative, the candidate will be informed. The processing of personal data in the context of the risk assessment is carried out on the legal basis of the GDPR: performing a public task in the public interest. You can find more information about this assessment on our website about knowledge security.
  • Please do not contact us for unsolicited services.

Ano, mám zájem!

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O této roli

2. července 2026

3. července 2026

Plný úvazek

Flexibilní

Škola

Solární energie

TU Delft

tudelft.nl

  •  Delft, Nizozemsko

Postdoctoral level, requiring a PhD

UTC+02:00