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PhD position in Physics, Chemistry, Engineering – Groningen University, Netherlands, 2022

The Netherlands

PhD position in Multiscale Modeling of Supramolecular Materials in the micromechanics group of the Zernike Institute for Advanced Materials, at the interface between physics, chemistry, biology, and engineering at University of Groningen, in the Netherlands, 2022

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General Info

Position: PhD position
No. of Positions: 1
Research Field: , ,
Deadline to Apply: Expired
Joining Date: Sep 2022
Contract Period: 4 Years
Salary: 2,443 to 3,122 Euro/Month

Workplace:
Micromechanics group of the Zernike Institute for Advanced Materials

University of Groningen (RUG), the Netherlands

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Qualification Details

You are a highly motivated candidate with:

  • a MSc degree in physics, chemistry, engineering, or other relevant subjects
  • strong interest in computational research and material science
  • demonstrable affinity with programming and/or computer simulations. Knowledge of Python and/or LAMMPS is a plus, but it is not required
  • strong communication skills (in English).

Responsibilities/Job Description

Supramolecular and hybrid nanomaterials are attracting much interest in view of their potential applications in various branches of science and engineering. New experimental techniques are offering unprecedented opportunities in the design of new materials at the molecular scale, vastly outperforming materials currently in use. Yet, the exploration of the huge design space is a severe bottleneck, and computational models are needed to provide quantitative, predictive guidelines for material design. Multiscale modeling is required to bridge the spatiotemporal gap between computer simulations and engineering applications and to capture emergent behavior across spatiotemporal scales.

Polymeric materials in particular offer great flexibility in their molecular design. Complex new materials made of branched polymers or polymer nanocomposites have been recently emerging for novel medical and industrial applications thanks to their tunable properties, but the prediction of their macroscopic behaviour remains vastly unexplored from a computational point of view, particularly in out-of-equilibrium conditions of interest for experimental applications. The aim of this project is to use molecular dynamics simulations to link polymer architecture and functionality at the molecular scale to the material’s macroscopic properties like self-organisation, dynamics, and mechanical response. Our goal is to develop predictive models at multiple scales to bridge the gap between simulations and experiments. The project is highly interdisciplinary, with possible collaborations with several experimental groups in the Faculty of Science and Engineering. The aim outlined is rather broad, and the specific goals can be tuned based on the candidate interests, strengths and fit within the group.

As a PhD candidate, you are committed to conduct independent and original scientific research, to report on this research in international publications and presentations, and to present the results of the research in a PhD dissertation, to be completed within 4 years. You are expected to contribute 10% of the overall workload to teaching.

How to Apply?

Application Method: Online Application
Ref. No.: -

Application Procedure

Do you meet our qualification criteria? If yes, your application should include (please merge all documents into one PDF file):

  • a cover letter with background and motivation to apply for this position (max 1 page)
  • a curriculum vitae, including details of bachelor and master degrees, list of work experience as well as other skills and a publication list, if applicable
  • a detailed (max 1 page) description of previous research experience, such as bachelor/master research projects. Indicate exactly your contribution
  • contact details of 2 academic references who can provide information on your suitability for the position.

About the Department/Section/Group

This position is embedded in the micromechanics group of the Zernike Institute for Advanced Materials, at the interface between physics, chemistry, biology, and engineering. The mission of the micromechanics group is to develop new models and computational tools for the micromechanics of (bio)materials, and to employ these to develop relationships between the internal structure of a material and its mechanical and functional properties. More information on the Institute’s activities can be found at http://www.rug.nl/research/zernike/

About the Employer:

Note or Other details

We offer in accordance with the Collective Labour Agreement for Dutch Universities:

  • a salary of € 2,443 in the first year to a maximum of € 3,122 gross per month in the final year (PhD salary scale), based on a full-time position
  • a full-time position (1.0 FTE)
  • a holiday allowance of 8% gross annual income
  • an 8.3% year-end bonus.

The position is for four years. First you will be offered a temporary position of one year with the option of renewal for another three years. Prolongation of the contract is contingent on sufficient progress in the first year to indicate whether a successful completion of the PhD thesis within the contract period is to be expected. A PhD training programme is part of the agreement and the successful candidate will be enrolled in the Graduate School of Science and Engineering of the Faculty.

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Contact details

Dr Andrea Giuntoli, [email protected]

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