PhD at AREA, Advanced Electron Microscopy of Functional Materials

PhD at AREA, Advanced Electron Microscopy of Functional Materials (TEM & In-Operando Studies) The European Synchrotron, the ESRF, is an international research centre based in Grenoble, France. Through its innovative engineering, pioneering scientific vision and a strong commitment from its 700 staff members, the ESRF is recognised as one of the top research facilities worldwide. Its particle accelerator produces intense X-ray beams that are used by thousands of scientists each year for experiments in diverse fields such as biology, medicine, environmental sciences, cultural heritage, materials science, and physics. Supported by 19 countries, the ESRF is an equal opportunity employer and encourages diversity. Thesis subject: Advanced Electron Microscopy of Functional Materials (TEM & In-Operando Studies) Complex functional materials‑such as oxides, catalysts and energy‑conversion systems‑display unique physical and chemical properties including superconductivity, magnetism, ferroelectricity, catalytic reactivity and electrochemical behaviour. Representative oxide systems include transition‑metal oxides (e.g. perovskite and spinel oxides), functional oxides for energy applications (such as materials for batteries and solid‑oxide fuel cells), and oxide‑based catalysts and electrocatalysts. These materials are relevant for applications in energy storage and conversion, hydrogen technologies, nanoelectronics, sensing, and sustainable catalysis. Understanding how their atomic‑scale structure evolves under real operating conditions (temperature, electric fields, reactive environments, liquids, etc.) is key for the design of next‑generation devices for energy, nanoelectronics, sustainable technologies and quantum applications. This PhD project aims at investigating the structure‑function relationships of advanced materials by means of state‑of‑the‑art Transmission Electron Microscopy (TEM) combined with spectroscopy, in‑situ/operando environments and correlative approaches with synchrotron‑based techniques. Particular attention will be paid to the role of defects, interfaces, strain mechanisms and environmental stimuli on physical and chemical functionalities. The work will involve: Atomic‑scale imaging and spectroscopy of complex oxides and nanostructured materials Application of in‑situ and operando TEM methodologies under different stimuli, such as electrical/thermal biasing and liquid/gas environments Correlative analysis combining TEM, synchrotron techniques and multimodal characterization Collaboration with synthesis, nanofabrication and spectroscopy groups within the Area Science Park Campus Previous experience with electron microscopy or spectroscopy is beneficial but not mandatory. Good communication skills and enthusiasm for experimental work in an international environment are expected. Experience in programming, data analysis or simulations will be positively considered. Degree allowing enrolment for a PhD (such as MSc, Master 2 de Recherche, Laurea or equivalent) in chemistry, materials science, physics or a closely related science. However minimum degree level may vary between universities. The candidate must have obtained and provide proof of a diploma at the time of application. Proficiency in English (A proof of upper‑intermediate B2 level must be included in the application. Applicants originating from native‑English‑speaking countries can apply without the need for proof of level. An official degree conducted in English will also be accepted as a proof). If the applicant is unable to provide proof, an English test (free of charge) will be requested. Compliance with the Marie Skłodowska‑Curie mobility rule: candidates may not have resided or carried out their main activity (work, studies, etc.) in the host institute's country for more than twelve months in the three years immediately before the application deadline (31/03/2026). All researchers recruited must be doctoral candidates, i.e. not already working towards or in possession of a doctoral degree at the date of the recruitment. Candidates must satisfy the conditions for enrolment in a doctoral programme. The successful candidate will be enrolled in the doctoral school at University of Trieste (Italy) and based full‑time at the Laboratory of Electron Microscopy (LAME) - Area Science Park (Trieste, Italy), other than at least two months of secondment at other institutions. Furthermore, a varied pedagogical training programme will be offered to the successful candidate throughout the 3‑year PhD project. The candidate will work in a modern technological environment, interacting with experts in electron microscopy, materials growth, and large‑scale research infrastructures. The project is highly interdisciplinary, with impact across materials science, physics, chemistry, catalysis, and energy applications. Access to external advanced microscopy facilities as well as to the other laboratories and infrastructures involved in the NEXTSTEP consortium will be encouraged and supported. Do you recognise yourself in this description? Apply now for your next professional adventure How we work We like to work with passion We like to build trust through innovative solutions We are reliable, courageous and sustainable Dedicating ourselves to people to motivate and inspire them is the basis of our workday What we offer Positive working environment, stimulating, open to confrontation and aimed at innovation and constant improvement You will be part of a young and dynamic team You will get to know our business and be an active part of it We will be by your side in your professional training If you know how to deserve it, you will have opportunities for "infinite" growth Honesty and transparency. Job details Title PhD at AREA, Advanced Electron Microscopy of Functional Materials (TEM & In‑Operando Studies) 2026-03-31 23:59 (Europe/Paris)2026-03-31 23:59 (CET) The ESRF is an X‑ray light source for Europe. It is located in Grenoble, France, and supported and shared by 20 countries. #J-18808-Ljbffr