External funding
Internal funding
- [Active]
Title: Exploring large language models for the inverse design of materials
Source of Support: Data Institute for Societal Challenges, University of Oklahoma
Period of Performance: 10/2024--10/2025
Location of Project: University of Oklahoma
Amount: $10,000 (Xu's share: $2,203)
Leadership: PI: Shuozhi Xu; co-PI: Kun Lu
- [Active]
Title: Harnessing data science to design advanced metallic materials for extreme environments
Source of Support: Junior Faculty Fellowship Program, University of Oklahoma
Period of Performance: 04/2024--03/2025
Location of Project: University of Oklahoma
Amount: $9,366 (Xu's share: $9,366)
Leadership: PI: Shuozhi Xu
- [Completed]
Title: High-fidelity prediction of nickel agglomeration in nickel-yttria stabilized zirconia anode in solid oxide fuel cells
Source of Support: Faculty Investment Program, University of Oklahoma
Period of Performance: 10/2023--10/2024
Location of Project: University of Oklahoma
Amount: $14,944 (Xu's share: $11,940)
Leadership: PI: Shuozhi Xu; co-PIs: Hanping Ding, Iman Ghamarian
- [Completed]
Title: Efficient computational approaches for rapid evaluation and prediction of processing-microstructure relation in metal additive manufacturing
Source of Support: Data Institute for Societal Challenges, University of Oklahoma
Period of Performance: 09/2023--09/2024
Location of Project: University of Oklahoma
Amount: $10,000 (Xu's share: $5,000)
Leadership: PI: Shuozhi Xu; co-PI: Cesar Ruiz
Computational/experimental resources
- [Completed]
Title: Dislocation/precipitate interactions in multi-principal element alloys
Source of Support: NSF ACCESS
Award Number: #MAT230058
Period of Performance: 10/2023--10/2024
Location of Project: University of Oklahoma
Amount: 1,500,000 core hours
Leadership: PI: Shuozhi Xu
- [Completed]
Title: Acquisition of an advanced nanoindentation system enabling high-temperature, fast-speed, and multiscale material characterization
Source of Support: Strategic Equipment Investment Program, University of Oklahoma
Period of Performance: 03/2024--05/2024
Location of Project: University of Oklahoma
Amount: $72,000
Leadership: PI: Yijie Jiang; co-PI: Shuozhi Xu
- [Completed]
Title: Enhancing low-temperature ion conductivity in protonic ceramic fuel cells by the rational design of the electrode-electrolyte interface
Source of Support: DOE Molecular Foundry
Award Number: #8207
Period of Performance: 01/2023--01/2024
Location of Project: Lawrence Berkeley National Laboratory
Amount: Use of the high-resolution scanning transmission electron microscopy
Leadership: PI: Iman Ghamarian; co-Researchers: Julian Sabisch, Chuancheng Duan, Shuozhi Xu
- [Completed]
Title: Atomistic simulations of nanotubes in body-centered cubic metals
Source of Support: NSF XSEDE
Award Number: #MSS170028
Period of Performance: 10/2017--09/2018
Location of Project: UC Santa Barbara
Amount: 150,000 core hours + 1,600 node hours
Leadership: PI: Shuozhi Xu; co-PI: Travis Trusty
- [Completed]
Title: Concurrent atomistic-continuum simulations of extended scale defect interactions in heterogeneous microstructures
Source of Support: NSF XSEDE
Award Number: #MSS150010
Period of Performance: 07/2016--09/2017
Location of Project: Georgia Tech
Amount: 2,357,858 core hours
Leadership: PI: David McDowell; co-PI: Shuozhi Xu
Open Access Publishing Fund
- [Active]
Title: Characterizing pearlite transformation in an API X60 pipeline steel through phase field modeling and experimental approaches [DOI]
Source of Support: University of Oklahoma Libraries' Open Access Fund
Period of Performance: 05/2024
Location of Project: University of Oklahoma
Amount: $1,647.5 (Xu's share: $1,647.5)
Leadership: Senior Author: Shuozhi Xu
- [Completed]
Title: An atomistic study of the tensile deformation of carbon nanotube-polymethylmethacrylate composites [DOI]
Source of Support: University of Oklahoma Libraries' Open Access Fund
Period of Performance: 07/2023
Location of Project: University of Oklahoma
Amount: $1,500 (Xu's share: $1,500)
Leadership: Senior Author: Shuozhi Xu