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At Radboud University, we aim to make an impact through our work. We achieve this by conducting groundbreaking research, providing high-quality education, offering excellent support, and fostering collaborations within and outside the university. In doing so, we contribute indispensably to a healthy, free world with equal opportunities for all. To accomplish this, we need even more colleagues who, based on their expertise, are willing to search for answers. We advocate for an inclusive community and welcome employees with diverse backgrounds, cultures, and perspectives. Will you also contribute to making the world a little better? You have a part to play.
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Faculty of Science
The Faculty of Science (FNWI), part of Radboud University, engages in groundbreaking research and excellent education. In doing so, we push the boundaries of scientific knowledge and pass that knowledge on to the next generation.
We seek solutions to major societal challenges, such as cybercrime and climate change and work on major scientific challenges, such as those in the quantum world. At the same time, we prepare our students for careers both within and outside the scientific field.
Currently, more than 1,300 colleagues contribute to research and education, some as researchers and lecturers, others as technical and administrative support officers. The faculty has a strong international character with staff from more than 70 countries. Together, we work in an informal, accessible and welcoming environment, with attention and space for personal and professional development for all.
The goal of this PhD project is to develop, build and operate a vacuum compatible exfoliation center for the creation of heterostructures constructed from reactive 2D materials.
Recently, two-dimensional (2D) materials, e.g. graphene, have gained much attention in research for their special physical properties compared to their three-dimensional counterparts. Halides or transition metal dichalcogenides in particular, but also many other material compounds, show great potential for future device applications because of their special superconducting, magnetic or transport properties. However, typically these materials are very reactive and deteriorate quickly under ambient conditions or even in the dry atmosphere of a glove box.
Your goal will be to establish a new synthesis method and subsequently investigate these materials using local probes at ultra-low temperatures, including scanning probe microscopy and magneto-transport. Using these newly developed material systems, you will investigate physical phenomena such as superconductivity, charge transport, and unconventional memory/computing. Your teaching load may be up to 10% of your working time.
Our Scanning Probe Microscopy (SPM) group has long-standing expertise in developing very specialised and world-class scientific instruments [1]. Furthermore, we have successfully explored the surface properties of bulk black phosphorus [2] and demonstrated its potential as a platform for orbital memory [3] and even brain-inspired computing [4]. The next natural step is to investigate materials mentioned above in their 2D limit [5].
Relevant references:
[1] Allwörden et al., RSI 89, 033902 (2018), Design and performance of an ultra-high vacuum spin-polarized scanning tunneling microscope operating at 30 mK and in a vector magnetic field..
[2] Kiraly et al., Nano Lett. 17(6), 3607 (2017), Probing Single Vacancies in Black Phosphorus at the Atomic Level.
[3] Kiraly et al., Nat. Commun. 9, 3904 (2018), An orbitally derived single-atom magnetic memory.
[4] Kiraly et al., Nat. Nanotechnol. 16, 414 (2021), An atomic Boltzmann machine capable of self-adaption.
[5] Kamlapure et al., Nat. Commun. 13, 4452 (2022), Tuning lower dimensional superconductivity with hybridization at a superconducting-semiconducting interface.
The SPM department has many international scientists and students. We host world-class SPM instruments and utilise SPM techniques beyond the state of the art to study numerous problems in fundamental physics and chemistry. Our expertise focuses on the development and use of high-precision magnetic and electronic imaging techniques involving single atoms, molecules and surfaces in cryogenic ultrahigh vacuum environments and magnetic fields, often related to single-atom manipulation.
You will join the Scanning Probe Microscopy (SPM) department and collaborate with the High Field Magnet Laboratory (HFML) at the Institute for Molecules and Materials (IMM), which is one of the major research institutes of the Faculty of Science at Radboud University. IMM is a research institute in chemistry and physics, which fosters interdisciplinary research. Its mission is to design and create functional molecules and materials to fundamentally understand their behaviour. The institute comprises 19 research groups in areas ranging from condensed matter science to organic chemistry and biochemistry. IMM focuses on fundamental research with an open eye for societal applications and educates the next generation of leaders in science and innovation. IMM distinguishes itself from similar institutes by close collaborations and rich interactions between chemists and physicists and/or experimentalists and theorists, and an excellent infrastructure including our Scanning Probe Laboratories, Laser Labs, Magnetic Resonance Research Centre, High Field Magnet Laboratory and Free Electron Laser Laboratory (HFML-FELIX).
You can apply no later than 15 August only via the button below. Address your letter of application to Alex Khajetoorians.
This vacancy has previously been available. We kindly request you not to leave a new application if you were rejected during the previous recruitment process.
Please add the following documents:
There will be interim selection procedures so it is possible that you will be assessed and invited to an interview or rejected before the closing date. If a suitable candidate is recruited before the closing date, we will close the vacancy and it will no longer be possible to apply.
You will preferably start your employment as soon as possible.
We can imagine you're curious about our application procedure. It describes what you can expect during the application procedure and how we handle your personal data and internal and external candidates. If you wish to apply for a non-scientific position with a non-EU nationality, please take notice of the following information.
Type of employment | Temporary position |
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Contract type | Full time |
First day of employment | 01-05-2024 |
Salary | Promovendus |
Salary |
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Number of positions | 1 |
Full-time equivalent | 1,0 |
City | Nijmegen |
County | Gelderland |
Country | Netherlands |
Reference number | 2024/119 |
Contact |
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Published | 25.Jun.2024 |
Last application date | 15.Aug.2024 11:59 PM CEST |