Tobias U Schulli
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Explore the profile of Tobias U Schulli including associated specialties, affiliations and a list of published articles.
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Articles
37
Citations
189
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Recent Articles
1.
Corley-Wiciak C, Zoellner M, Corley-Wiciak A, Rovaris F, Zatterin E, Zaitsev I, et al.
Small Methods
. 2024 Jul;
8(12):e2400598.
PMID: 39075823
Lattice strain in crystals can be exploited to effectively tune their physical properties. In microscopic structures, experimental access to the full strain tensor with spatial resolution at the (sub-)micrometer scale...
2.
Grimes M, Atlan C, Chatelier C, Bellec E, Olson K, Simonne D, et al.
ACS Nano
. 2024 Jul;
PMID: 39009584
Understanding the strain dynamic behavior of catalysts is crucial for the development of cost-effective, efficient, stable, and long-lasting catalysts. Using time-resolved Bragg coherent diffraction imaging at the fourth generation Extremely...
3.
Chatelier C, Atlan C, Dupraz M, Leake S, Li N, Schulli T, et al.
ACS Nano
. 2024 May;
18(21):13517-13527.
PMID: 38753950
Solid-state reactions play a key role in materials science. The evolution of the structure of a single 350 nm NiFe nanoparticle, , its morphology (facets) as well as its deformation...
4.
High-Voltage Spinel Cathode Materials: Navigating the Structural Evolution for Lithium-Ion Batteries
Zhu X, Huang A, Martens I, Vostrov N, Sun Y, Richard M, et al.
Adv Mater
. 2024 May;
36(30):e2403482.
PMID: 38722691
High-voltage LiNiMnO (LNMO) spinel oxides are highly promising cobalt-free cathode materials to cater to the surging demand for lithium-ion batteries (LIBs). However, commercial application of LNMOs is still challenging despite...
5.
Martens I, Vostrov N, Mirolo M, Leake S, Zatterin E, Zhu X, et al.
Nat Commun
. 2023 Nov;
14(1):6975.
PMID: 37914690
Lithiation dynamics and phase transition mechanisms in most battery cathode materials remain poorly understood, because of the challenge in differentiating inter- and intra-particle heterogeneity. In this work, the structural evolution...
6.
Grimes M, Pauwels K, Schulli T, Martin T, Fajardo P, Douissard P, et al.
J Appl Crystallogr
. 2023 Aug;
56(Pt 4):1032-1037.
PMID: 37555222
The CITIUS detector is a next-generation high-speed X-ray imaging detector. It has integrating-type pixels and is designed to show a consistent linear response at a frame rate of 17.4 kHz,...
7.
Atlan C, Chatelier C, Martens I, Dupraz M, Viola A, Li N, et al.
Nat Mater
. 2023 Apr;
22(6):754-761.
PMID: 37095227
Surface strain is widely employed in gas phase catalysis and electrocatalysis to control the binding energies of adsorbates on active sites. However, in situ or operando strain measurements are experimentally...
8.
Corley-Wiciak C, Richter C, Zoellner M, Zaitsev I, Manganelli C, Zatterin E, et al.
ACS Appl Mater Interfaces
. 2023 Jan;
15(2):3119-3130.
PMID: 36598897
A strained Ge quantum well, grown on a SiGe/Si virtual substrate and hosting two electrostatically defined hole spin qubits, is nondestructively investigated by synchrotron-based scanning X-ray diffraction microscopy to determine...
9.
Lauraux F, Labat S, Richard M, Leake S, Zhou T, Kovalenko O, et al.
Materials (Basel)
. 2022 Sep;
15(18).
PMID: 36143513
The microstructure of a sub-micrometric gold crystal during nanoindentation is visualized by in situ multi-wavelength Bragg coherent X-ray diffraction imaging. The gold crystal is indented using a custom-built atomic force...
10.
Zhu X, Schulli T, Yang X, Lin T, Hu Y, Cheng N, et al.
Nat Commun
. 2022 Sep;
13(1):5450.
PMID: 36114191
No abstract available.