Alberto Leonardi
Materials Science · Indiana University
Publications
60
Citations
805
Est. group size
—
Recurring co-author estimate
Active years
34
Publishing since 1993
Alberto Leonardi works in materials science, using X-ray techniques such as synchrotron diffraction and tomography to observe how materials form and change in real time. Research includes studying metal solidification, corrosion and cracking in steel, and the shapes and strain of nanoparticles, often combining imaging with computer simulation and machine learning. The work connects experimental measurements with modeling of crystal structures and their deformation.
Publication activity has grown sharply in recent years, rising from a few papers annually in the late 2010s to a peak of around eleven in 2025.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- Operando Study of the Evolution of Peritectic Structures in Metal Solidification by Quasi-Simultaneous Synchrotron X-Ray Diffraction and Tomography
SSRN Electronic Journal · 2026
- Operando study of the evolution of peritectic structures in metal solidification by quasi-simultaneous synchrotron X-ray diffraction and tomography
Acta Materialia · 2026
- Crystal Shape and Lattice Deformation in Powder Diffraction
arXiv (Cornell University) · 2026
- Crystal Shape and Lattice Deformation in Powder Diffraction
arXiv (Cornell University) · 2026
- A Programmable Nanoparticle Conversion Pathway to Monodisperse Polyelemental High Entropy Alloy, Intermetallic, and Multiphase Nanoparticles
Angewandte Chemie · 2025
- Coupled X-ray imaging/diffraction reveals soil mechanics during analogous root growth
npj Biological Physics and Mechanics. · 2025
- Three-dimensional, multimodal synchrotron data for machine learning applications
Scientific Data · 2025
- X-ray simulations with gVXR in education, digital twining, experiment planning, and data analysis
Nuclear Instruments and Methods in Physics Research Section B Beam Interactions with Materials and Atoms · 2025
- A Programmable Nanoparticle Conversion Pathway to Monodisperse Polyelemental High Entropy Alloy, Intermetallic, and Multiphase Nanoparticles
Angewandte Chemie International Edition · 2025
- Operando time-lapse X-ray diffraction tomography of dentine tubule occlusion by bioactive glasses
Dental Materials · 2025
- Real-Time Tomography of Stress Corrosion Cracking on Stainless Steel by an In-Situ Corrosion Tensile Test
SSRN Electronic Journal · 2025
- The Moving Beam Diffraction Geometry: the DIAD Application of a Diffraction Scanning-Probe
arXiv (Cornell University) · 2025
- The moving-beam diffraction geometry: the DIAD application of a diffraction scanning probe
Journal of Applied Crystallography · 2025
- Operando study of the evolution of peritectic structures in metal solidification by quasi-simultaneous synchrotron X-ray diffraction and tomography
arXiv (Cornell University) · 2025
- Operando study of the evolution of peritectic structures in metal solidification by quasi-simultaneous synchrotron X-ray diffraction and tomography
ArXiv.org · 2025
- arXiv (Cornell University)×7
- ACS Nano×3
- Acta Materialia×3
- Journal of Applied Crystallography×3
- Acta Crystallographica Section A Foundations and Advances×2
This profile was generated automatically from public scholarly data (OpenAlex). Group size and activity levels are estimates derived from co-authorship patterns.
Last updated Jul 11, 2026.
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