Surface Chemistry
Our research aims at obtaining mechanistic insight into atomic-scale chemical processes occurring at surfaces. Current research topics span from the synthesis and imaging of two-dimensional covalent organic frameworks for energy conversion, to single-atom catalysts for hydrocarbon polymerization. Special attention is given to the development of novel imaging approaches based on scanning probe microscopy, aiming at resolving photoexcited states at the atomic scale. Sub-molecular characterization of atomic-scale structures is provided by scanning tunneling and atomic force microscopy (STM-AFM) and complemented by X-ray photoemission spectroscopy (XPS), which adds chemical sensitivity.
News
17.07.2024
New Publication in ACS Nano
We are proud to announce that our latest paper, "Emergence of Band Structure in a Two-Dimensional Metal–Organic Framework upon Hierarchical Self-Assembly," has been published in ACS Nano on July 17, 2024.
This study, a result of a collaboration with the Jülich Research Center, the University of Graz, and the Elettra Synchrotron, showcases the on-surface synthesis of a 2D metal-organic framework (2D-MOF) with significant π-conjugation. Our findings demonstrate how the band structure in 2D-MOFs emerges through the coupling of electronic states in the building blocks.
Read the full open-access article here.
Congratulations to our entire international team for this outstanding achievement!
01.07.2024
New PhD student - Jinhui Guo
Jinhui Guo joins our group as a PhD student. In her research she will investigate photoactive molecules with a STM/AFM microscope.
23.04.2024 - 29.04.2024
XPS beamtime at ALBA
Members of our group in collaboration with Prof. Dr. Zhiyu Zou (Harbin university, China) participated to a beamtime at the NAPP endstation of the ALBA synchrotron. We exploited near-ambient pressure X-ray Photoelectron Spectroscopy (NAP-XPS) to study the growth of two-dimensional organic crystals.
03.04.2024
New master student - Benjamin Achatz
Benjamin Achatz joins our group as a master's student. He will investigate photoactive molecules on surfaces, exploiting our new LT-STM/AFM system.
18.03.2024-22.03.2024
DPG Conference
Marco, Matthias, and Laerte attended the 87th Annual Meeting of the DPG in Berlin. The conference featured 5634 contributions, with the largest participation from the field of surface physics. Marco and Matthias each contributed a poster presentation to the conference. Laerte gave a talk on the formation of 2D covalent organic frameworks.
Link to the conference: DPG Spring Meetings 2024
15.02.2024
New microscope
Our group just received a new LT-STM/AFM system. The microscope has been purchased thanks to the ERC funding and will allow us to study photoexcited states at the single-molecule level!
10.01.2024
Job opening: PhD position on Exciton Imaging in Two-Dimensional Photoactive Materials
Join our group as a Ph.D. candidate and contribute to groundbreaking research funded by the ERC Starting Grant "WEPOF." We focus on unraveling the mysteries of excitonic phenomena within covalent organic frameworks, with the ultimate goal of advancing photoenergy conversion efficiency in these materials. More info here: Phd position
13.11.2023 - 17.11.2023
801. WE-Heraeus-Seminar “Plenty of Room at the Bottom – New Developments in Scanning Probe Tools”
Marco and Laerte attended the 801. WEH Workshop in Bad Honnef at the Physikzentrum Bad Honnef, which took place from November 13th to 17th.
The workshop was organized by Laerte, Philip Willke (KIT, Germany) and DJ Choi (CFM/MPC, Spain) and kindly supported by the Wilhelm and Else Heraeus Foundation. Marco presented a poster on his recent results on the atomic-scale characterization of the boron nitride/Pt(110) interface.
Link to the conference: 801. WE-Heraeus-Seminar
01.05.2023
New PhD Student - Matthias Zeilerbauer
Matthias Zeilerbauer joins the reasearch group of Laerte Patera as a new PhD student.
10.01.2022
ERC grant
Laerte has been awarded an ERC Starting Grant. The WEPOF project aims at resolving excited states in photoactive covalent organic frameworks.
If you are looking a Bachelor's, master's or PhD thesis, please contact us!
Contact
Institute of Physical Chemistry
Josef-Möller-Haus
Innrain 52c
A - 6020 Innsbruck
Österreich