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Xinfang Jia

University of Science and Technology Beijing

30 Xueyuan Road, Haidian District

beijing, 100083

China

SCHOLARLY PAPERS

3

DOWNLOADS

94

TOTAL CITATIONS

0

Scholarly Papers (3)

1.

Temperature Effects on Radiation Damage in Hcp-Zirconium: A Molecular Dynamics Study Using a Fine-Tuned Machine-Learned Potential

Number of pages: 12 Posted: 22 Apr 2025
Xinfang Jia, Yu Bao, Shuo Cao, Ye Su and Ping Qian
University of Science and Technology Beijing, University of Science and Technology Beijing, University of Science and Technology Beijing, University of Science and Technology Beijing and University of Science and Technology Beijing
Downloads 52 (1,041,696)

Abstract:

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Molecular dynamics, Temperature effect, PKA, Irradiation damage

2.

Insight into ultra-low lattice thermal conductivity and native defect behavior in lead-free perovskite Cs3Sb2I9

Number of pages: 14 Posted: 14 Mar 2026
University of Science and Technology Beijing, University of Science and Technology Beijing, University of Science and Technology Beijing, University of Science and Technology Beijing, University of Science and Technology Beijing, Bohai University, University of Science and Technology Beijing and University of Science and Technology Beijing - Beijing Advanced Innovation Center for Materials Genome Engineering
Downloads 29 (1,345,526)

Abstract:

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perovskites, Machine Learning, Thermal conductivity, Native defect

3.

General-purposemachine-learnedinteratomicpotentialsfor18transitionmetaldichalcogenides:comprehensiveinvestigationsintomechanicalresponses,phasestability,andthermalproperties

Number of pages: 16 Posted: 16 Jun 2026
University of Science and Technology Beijing, University of Science and Technology Beijing, University of Science and Technology Beijing, University of Science and Technology Beijing, University of Science and Technology Beijing, affiliation not provided to SSRN, Bohai University and University of Science and Technology Beijing
Downloads 13

Abstract:

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Machine learning, Phase stability, Mechanical behavior, Thermal conductivity