Edvin Lundgren
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Explore the profile of Edvin Lundgren including associated specialties, affiliations and a list of published articles.
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55
Citations
172
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Recent Articles
1.
Zetterberg J, Zetterberg J, Larsson A, Larsson A, Grespi A, Grespi A, et al.
J Phys Condens Matter
. 2025 Jan;
37(13).
PMID: 39874656
In recent years, studies of surfaces at more realistic conditions has advanced significantly, leading to an increased understanding of surface dynamics under reaction conditions. The development has mainly been due...
2.
Gajdek D, Wallander H, Abbondanza G, Harlow G, Gustafson J, Blomberg S, et al.
Chemphyschem
. 2024 Oct;
26(2):e202400835.
PMID: 39403857
We have used grazing incidence X-ray absorption near edge spectroscopy (XANES) to investigate the behavior of monolayer FeO films on Pt(111) under near ambient pressure CO oxidation conditions with a...
3.
Structure of an Ultrathin Oxide on PtSn(111) Solved by Machine Learning Enhanced Global Optimization
Merte L, Bisbo M, Sokolovic I, Setvin M, Hagman B, Shipilin M, et al.
Angew Chem Weinheim Bergstr Ger
. 2024 Mar;
134(25):e202204244.
PMID: 38505419
Determination of the atomic structure of solid surfaces typically depends on comparison of measured properties with simulations based on hypothesized structural models. For simple structures, the models may be guessed,...
4.
Pfaff S, Larsson A, Orlov D, Ramisch L, Gericke S, Lundgren E, et al.
ACS Appl Mater Interfaces
. 2023 Dec;
16(1):444-453.
PMID: 38109219
Industrial catalysts are complex materials systems operating in harsh environments. The active parts of the catalysts are nanoparticles that expose different facets with different surface orientations at which the catalytic...
5.
Mehar V, Edstrom H, Shipilin M, Hejral U, Wu C, Kadiri A, et al.
J Phys Chem Lett
. 2023 Sep;
14(38):8493-8499.
PMID: 37721973
The catalytic oxidation of CO and CH can be strongly influenced by the structures of oxide phases that form on metallic catalysts during reaction. Here, we show that an epitaxial...
6.
Gericke S, Kauppinen M, Wagner M, Riva M, Franceschi G, Posada-Borbon A, et al.
ACS Appl Mater Interfaces
. 2023 Sep;
15(38):45367-45377.
PMID: 37704018
InO-based catalysts have shown high activity and selectivity for CO hydrogenation to methanol; however, the origin of the high performance of InO is still unclear. To elucidate the initial steps...
7.
Abbondanza G, Grespi A, Larsson A, Dzhigaev D, Glatthaar L, Weber T, et al.
Nanotechnology
. 2023 Sep;
34(50).
PMID: 37666238
We investigated the structural evolution of electrochemically fabricated Pd nanowiresby means of grazing-incidence transmission small- and wide-angle x-ray scattering (GTSAXS and GTWAXS), x-ray fluorescence (XRF) and two-dimensional surface optical reflectance...
8.
Larsson A, Grespi A, Abbondanza G, Eidhagen J, Gajdek D, Simonov K, et al.
Adv Mater
. 2023 Jul;
35(39):e2304621.
PMID: 37437599
Corrosion is the main factor limiting the lifetime of metallic materials, and a fundamental understanding of the governing mechanism and surface processes is difficult to achieve since the thin oxide...
9.
Harlow G, Pfaff S, Abbondanza G, Hegedus Z, Lienert U, Lundgren E
J Appl Crystallogr
. 2023 Feb;
56(Pt 1):312-321.
PMID: 36777142
This work introduces the high-energy surface X-ray diffraction analysis toolkit (), an open-source cross-platform software package written in Python to allow the extraction and processing of high-energy surface X-ray diffraction...
10.
Abbondanza G, Larsson A, Linpe W, Hetherington C, Carla F, Lundgren E, et al.
Nanoscale Adv
. 2022 Sep;
4(11):2452-2467.
PMID: 36134135
A high-throughput method for the fabrication of ordered arrays of Au nanoparticles is presented. It is based on pulsed electrodeposition into porous anodic alumina templates. In contrast to many synthesis...