Position title
Advanced micro- and nano-mechanical data analysis in battery materials
Description

DigiCell is a European large collaborative research project that aims to revolutionise the battery value chain by transforming the manufacturing and testing processes of battery cells and packs. By using advanced modelling and machine learning techniques, combined with high-resolution charcaterisation, the project DigiCell seeks to make battery manufacturing processes more efficient, reliable, and sustainable.

In this context, the team from University of Rome Tre (RM3) is responsible for developing and implementing a nanomechanical testing system to assess the properties of battery materials, apply high-speed nanoindentation mapping protocols, and develop advanced data analysis algorithms. This work includes evaluating nanomechanical changes to charge-discharge cycles and integrating nanomechanical data with electrochemical data into FEM models, in collaboration with other project partners.

Responsibilities

The post-doctoral researcher will be responsible for developing and implementing a test setup and the data analysis protocols for assessing the nano-mechanical properties in battery electrodes, as a function of their state of charge. The main tasks will consist of

  1. Developing an environmentally controlled high-speed nanoindentation protocols, basing on the already existing experience of the group
  2. Developing novel data analysis tools, using k-means-based clustering algorithms
  3. Evaluating nano-Mechanical Changes
Education

PhD in Materials Science, Mechanical Engineering, Experimental Physics, or a related field.

Lenguage Skills

Fluent in written and spoken English (at least C1)

Qualifications
  • Proficient in data analysis and machine learning, particularly mechanical data analysis.
  • Advanced skills in Python and Matlab programming (knowledge focused on NumPy).
  • Knowledgeable in structural mechanics, with experience in Abaqus software (or other Finite Element Modelling software).
  • Competency in computer vision and broader computer science principles.

Desirable Skills:

  • Familiarity with advanced characterization techniques such as electron microscopies and nanoindentation. 
  • Familiarity with materials science data analysis, particularly in modeling contact mechanics and big data analysis for mechanical characterization. 
Employment Type
Full-time
Duration of employment
36 months
Job Location
Via Vito Volterra, 62, Rome, Latium, 00146, Italy
Base Salary
€27511.68 Per year
Date posted
4 Giugno 2024
Valid through
30 Settembre 2024
PDF Export
Close modal window

Thank you for submitting your application. We will contact you shortly!