61. Achieving high strength and large ductility in a Cr30Co30Ni30Al5Ti5 alloy through intergradular precipitation
Jiawei Zou, Siyu Chen, Pengming Cheng, Jun Ding, Chongle Zhang, et al. Lin Gu, Ze Zhang, Gang Sha, Qian Yu*
Journal of Materials Science & Technology 215, 167-179 (2025)
60. Near-theoretical strength and deformation stabilization achieved via grain boundary segregation and nano-clustering of solutes
Chang Liu*, Jing Rao, Zhongji Sun, Wenjun Lu, James Best, Xuehan Li, WEnzhen Xia, Yilun Gong, Ye Wei, Bozhao Zhang, Jun Ding*, Ge Wu*, En Ma*
Nature Communications 15:9283 (2024)
59. Uniting ultrahigh plasticity with near-theoretical strength in submicron-scale Si via surface healing
Wei Xu, Jinhua Yu, Jun Ding, Yunna Guo, Lei Deng, Liqiang Zhang, Xiaoxuan Wan, Shaochuan Zheng, Yuecun Wang*, Zhiwei Shan*
Advanced Functional Materials 2404694 (2024)
58. Trade-off between local chemical order and lattice distortion in affecting dislocation motion in NbTiZr multi-principal element alloys
Bing Chen, Suzhi Li*, Jun Ding, Xiangdong Ding, Jun Sun, En Ma
Acta Materialia 272, 119910 (2024)
57. Inward motion of diamond nanoparticles inside an iron crystal
Yuecun Wang, Xudong Wang, Jun Ding, Beiming Liang, Lingling Zuo... Wei Zhang, Ju Li, En Ma*, Zhiwei Shan*
Nature Communications 15:4659(2024)
56. The origin of exceptionally large ductility in molybdenum alloys dispersed with irregular-shaped La2O3 nano-particles
Yujie Chen, Yan Fang, Pengming Cheng, Xiaoxing Ke, Manchen Zhang, Jiawei Zou, Jun Ding*, Bozhao Zhang, Lin Gu*, Qinghua Zhang, Gang Liu*, Qian Yu*
Nature Communications 15:4105 (2024)
55. Rejuventation as the origin of planar defects in the CrCoNi medium entropy alloy
Yang Yang, Sheng Yin, QIn Yu, Yingxin Zhu, Jun Ding, Ruopeng Zhang, Colin Ophus, Mark Asta, Robert Ritchie, Andrew Minor
Nature Communications 15:1402 (2024)
54. Minimizing the diffusivity difference between vacancies and interstitials in multi-principal element alloys
Bozhao Zhang, Zhen Zhang, Kaihui Xun, Mark Asta, Jun Ding*, Evan Ma*
Proceedings of the National Academy of Sciences (PNAS) 121, e2314248121 (2024)
53. Recovery faciliated by interphase boundary motion circumvents recrystallization in superalloy single crystals
Hongfei Zhang, Kai Chen, Sicong Lin, Rui Fu, Bozhao Zhang, Jun Ding, Zongqiang Feng, Xiaoxu Huang, Evan Ma
Materials Research Letters 13:3 (2024)
52. Origin of the high propensity for nanoscale deformation twins in CrCoNi medium-entropy alloys
Nanjun Liu, Zhangjie Wang, Jun Ding*, Mark Asta, Robert Ritchie, Bin Gan, Evan Ma, Zhiwei Shan*
Journal of Materials Science & Technology 183, 63-71 (2024)
51. Three-dimensional atomic structure and local chemical order of medium- and high-entropy nanoalloys
Saman Moniri#, Yao Yang#, Jun Ding#, Yakun Yuan, Jihan Zhou et al. Liangbing Hu, Peter Ercius, Jianwei Miao*
Nature 564, 624 (2023)
50. Chemical inhomogeneity-induced profuse nanotwinning and phase transformation in AuCu nanowires
Chengpeng Yang, Bozhao Zhang, Libo Fu, Zhanxin Wang, Jiao Teng, Ruiwen Shao, Ziqi Wu, Xiaoxue Chang, Jun Ding*, Lihua Wang*, Xiaodong Han*
Nature Communications 14, 5705 (2023)
49. Aging elevates chemical short-range order and twinning stress in a CrCoNi medium-entropy alloy
Nanjun Liu, Xintao Tian, Qiaojun Liu, Bin Gan, Jun Ding, En Ma*, Zhangjie Wang*
Science China Materials (2023)
48. Dynamic homogenization of internal strain in multi-principal element alloy via high-concentration doping of oxygen with large mobility
Yajing Song, Bozhao Zhang, Tianxin Li, Xiaoqian Fu, Jiawei Zou, Yujie Chen,... Jun Ding*, Qian Yu*
Small Methods 2300871 (2023)
47. Tailoring planar slip to achieve pure metal-like ductility in body-cnetred-cubic multi-principal element alloys
Liang Wang#, Jun Ding#, Songshen Chen, Ke Jin, Qiuhong Zhang... Yunfei Xue*, En Ma*
Nature Materials 22, 950-957 (2023)
46. Effect of local chemical order on the irradiation-induced defect evolution in CrCoNi medium-entropy alloy
Zhen Zhang#, Zhengxiong Su#, Bozhao Zhang#, Qin Yu, Jun Ding*, Tan Shi, Chenyang Lu*, Robert Ritchie, Evan Ma*
Proceedings of the National Academy of Sciences (PNAS) 120, e2218673120 (2023)
45. Enhancing the radiation tolerance of high-entropy alloys via solute-promoted chemical heterogeneities
Zhengxiong Su#, Jun Ding#, Miao Song, Li Jiang, Tan Shi, Zhiming Li, Sheng Wang*, Fei Gao, Di Yun, En Ma*, Chenyang Lu*
Acta Materialia 245, 118662 (2023)
44. Direct observation of oxygen atoms taking tetrahedral interstitial sites in medium-entropy body-centered-cubic solutions
Chang Liu, Jizhe Cui, Zhiying Cheng, Bozhao Zhang, Siyuan Zhang, Jun Ding, Rong Yu*, En Ma*
Advanced Materials 2209941 (2023)
43. On the reliability of using reverse Monte Carlo simulations to construct the atomic structure model of metallic glasses
Chang Liu, Zhen Zhang*, Jun Ding*, En Ma
Scripta Materialia 225, 115159 (2023)
42. Correlating dislocation mobility with local lattice distortion in refractory multi-principal element alloys
Bing Chen, Suzhi Li*, Jun Ding*, Xiangdong Ding, Jun Sun, En Ma*
Scripta Materialia 222, 115048 (2023)
41. Local chemical inhomogeneities in TiZrNb-based refractory high-entropy alloy
Kaihui Xun, Bozhao Zhang, Qi ZWang, Zhen Zhang, Jun Ding*, En Ma*
Journal of Materials Science & Technology, 135, 221-230 (2023)
40. Multi-objective optimization for high-performance Fe-based metallic glasses via machine learning approach
Yu-Xing Zhang, She-Juan Xie, Wei Guo, Jun Ding, Leong Hien Poh, Zhen-Dong Sha
Journal of Alloys and Compounds, 170793 (2023)
39. Shear transformations in metallic glasses without excessive and predefinable defects
Zhen Zhang, Jun Ding*, En Ma*
Proceedings of the National Academy of Sciences (PNAS) 119, 48 (2022)
38. Anomalous size effect on yield strength enabled by compositional heterogeneity in high-entropy alloy nanoparticles
Jingyuan Yan, Sheng Yin, Mark Asta, Robert O Ritchie, Jun Ding*, Qian Yu*
Nature Communications, 13, 2789 (2022)
37. Grain size and heterophase effects on mechanical properties of Mg-Cu nanoglasses
Yu Chen, Jun Ding*, Zhendong Sha*
Frontier in Materials, 9, 908952 (2022)
36. Tuning the near room temperature oxidation behavior of highentropy alloy nanoparticles
Jing Gao, Jun Ding*, Yin Zhang, Ting Zhu, Qian Yu*
Nano Research (2021)
35. Chemical short-range order in bodycentered-cubic TiZrHfNb high-entropy alloys
Bozhao Zhang, Jun Ding*, En Ma*
Applied Physics Letters 119, 201908 (2021)
34. Tension-compression asymmetry in amoprhous silicon
Yuecun Wang#, Jun Ding#, Zhao Fan#, Lin Tian#, Meng Li, Huanhuan Lu, Yongqiang Zhang, En Ma*, Ju Li*, Zhiwei Shan*
Nature Materials (2021)
33. Atomistic simulations of dislocation mobility in refractory high-entropy alloys and the effect of chemical short-range order
Sheng Yin, Yunxing Zuo, Anas Abu-Odeh, Hui Zhang, Xiang-Guo Li, Jun Ding, Shyue Ping Ong*, Mark Asta*, Robert Ritchie*
Nature Communications 12, 4873 (2021)
32. Local chemical fluctuation mediated ductility in body-centered-cubic high-entropy alloys
Yeqiang Bu#, Yuan Wu#, Zhifeng Lei, Xiaoyuan Yuan, Honghui Wu, Xiaobin Feng, Jiabin Liu*, Jun Ding, Yang Lu*, Hongtao Wang*, Zhaoping Lu*, Wei Yang
Materials Today 46, 28-34 (2021)
31. Universal nature of the saddle states of structural excitations in metallic glasses
Jun Ding*, Lin Li*, Neng Wang, Liang Tian, Mark Asta, Robert Ritchie, Takeshi Egami*
Materials Today Physics 17, 100359 (2021)
30. Predicting the propensity for thermally activated β events in metallic glasses via interpretable machine learning
Qi Wang*, Jun Ding*, Longfei Zhang, Evgeny Podryabinkin, Alexander Shapeev, Evan Ma
npj Computational Materials 6,194 (2020)
29. Machine learning bridges local static structure with multiple properties in metallic glasses
Zhao Fan*, Jun Ding, Evan Ma*
Materials Today 49, 48-62 (2020)
28. Short-range order and its impact on the CrCoNi medium-entropy alloy
Ruopeng Zhang#, Shiteng Zhao#, Jun Ding, Yan Chong, Tao Jia, Colin Ophus, Mark Asta, Robert Ritchie, Andrew Minor*
Nature 581, 283-287 (2020)
27. Ab initio modeling of the role of short-range order in the Peierls potential of screw dislocations in body-centered cubic high-entropy alloys
Sheng Yin, Jun Ding, Mark Asta*, Robert Ritchie*
npj Computational Materials 6, 110 (2020)
26. Direct measurement of nanostructural change during in situ deformation of a bulk metallic glass
Thomas Pekin*, Jun Ding, Christoph Gammer, Burak Ozdol, Colin Ophus, Mark Asta, Robert Ritchie, Andrew Minor*
Nature Communications 10, 2445 (2019)
25. ART_data_analyzer: Automating parallelized computations to study the evolution of materials
Liang Tian*, Lin Li, Jun Ding, Normand Mousseau
SoftwareX 9, 238-243 (2019)
24. Tunable stacking fault energies by tailoring local chemical order in CrCoNi medium-entropy alloys
Jun Ding, Qin Yu, Mark Asta*, Robert Ritchie*
Proceedings of the National Academy of Sciences (PNAS) 115, 8919-8924 (2018)
23. Melts of CrCoNi-based high-entropy alloys: Atomic diffusion and electronic/atomic structure from ab initio simulation
Jun Ding, Mark Asta*, Robert Ritchie*
Applied Physics Letters 113, 111902 (2018)
22. Chemical variation induced nanoscale spatial heterogeneity in metallic glasses
Neng Wang#, Jun Ding#, Peng Luo, Yanhui Liu, Lin Li*, Fan Yan*
Materials Research Letters 6, 655-661 (2018)
21. Making glassy solids ductile at room temperature by imparting flexibility into their amorphous structure
Zhao Fan, Jun Ding, Evan Ma*
Materials Research Letters 6, 570-583 (2018)
20. Spatial correlation of elastic heterogeneity tunes the deformation behavior of metallic glasses
Neng Wang, Jun Ding*, Fan Yan, Mark Asta, Robert Ritchie, Lin Li*
npj Computational Materials 4, 19 (2018)
19. On the question of fractal packing structure in metallic glasses
Jun Ding, Mark Asta*, Robert Ritchie*
Proceedings of the National Academy of Sciences (PNAS) 114, 8458-8463 (2017)
18. Correlating the properties of amorphous silicon with its flexibility volume
Zhao Fan, Jun Ding*, Qingjie Li, Evan Ma*
Physical Review B 95, 144211 (2017)
17. Computational modelling sheds light on structural evolution in metallic glasses and supercooled liquids
Jun Ding*, Evan Ma*
npj Computational Materials 3, 9 (2017)
16. Universal structural parameter to quantitatively predict metallic glass properties
Jun Ding, Yongqiang Cheng, Howard Sheng, Mark Asta, Robert Ritchie, Evan Ma*
Nature Communications 7, 13733 (2016)
15. Tailoring structural inhomogeneities in metallic glasses to enable tensile ductility at room temperature
Evan Ma*, Jun Ding
Materials Today 19, 568-579 (2016)
14. Anomalous structure-property relationships in metallic glasses through pressure-mediated glass formation
Jun Ding, Mark Asta*, Robert Ritchie*
Physical Review B: Rapid Communications 93, 140204 (R) (2016)
13. Second-nearest-neighbor correlations from connection of atomic packing motifs in metallic glasses and liquids
Jun Ding, Evan Ma, Mark Asta*, Robert Ritchie*
Scientific Reports 5, 17429 (2015)
12. Soft spots and their structural signature in a metallic glass
Jun Ding, Sylvain Patinet, Michael Falk, Yongqiang Cheng, Evan Ma*
Proceedings of the National Academy of Sciences (PNAS) 111,14052-14056 (2014)
11. Full icosahedra dominate local order in Cu64Zr36 metallic glass and supercooled liquid
Jun Ding, Yongqiang Cheng, Evan Ma*
Acta Materialia 69, 343-354 (2014)
10. On the origin of elastic strain limit of bulk metallic glasses
Jun Ding*, Yongqiang Cheng, Evan Ma*
Applied Physics Letters 104, 011912 (2014)
9. Charge transfer and atomic-level pressure in metallic glasses
Jun Ding*, Yongqiang Cheng
Applied Physics Letters 104, 051903 (2014)
8. Temperature effects on atomic pair distribution functions of melts
Jun Ding*, Ming Xu, Pengfei Guan, Shengwei Deng, Yongqiang Cheng, Evan Ma
The Journal of Chemical Physics 140, 064501 (2014)
7. Charge-transfer-enhanced prism-type local order in amorphous Mg65Cu25Y10: Short-to-medium-range structural evolution underlying liquid fragility and heat capacity
Jun Ding*, Yongqiang Cheng, Evan Ma
Acta Materialia 61, 3130-3140 (2013)
6. Quantitative measure of local solidity/liquidity in metallic glasses
Jun Ding*, Yongqiang Cheng, Evan Ma
Acta Materialia 61, 4474-4480 (2013)
5. Local topology vs. atomic-level stresses as a measure of disorder: Correlating structural indicators for metallic glasses
Yongqiang Cheng, Jun Ding, Evan Ma*
Materials Research Letters 1, 3-12. (2013)
4. Short-range structural signature of excess specific heat and fragility of metallic-glass-forming supercooled liquids
Jun Ding, Yongqiang Cheng, Howard Sheng, Evan Ma*
Physical Review B: Rapid Communications 85, 060201(R) (2012)
3. Correlating local structure with inhomogeneous elastic deformation in a metallic glass
Jun Ding, Yongqiang Cheng, Evan Ma*
Applied Physics Letters 101, 121917 (2012)
2. One-dimensional stringlike cooperative migration of lithium ions in an ultrafast ionic conductor
Ming Xu, Jun Ding, Evan Ma*
Applied Physics Letters 101, 031901 (2012)
1. Sample size matters for Al88Fe7Gd5 metallic glass: Smaller is stronger
C.C Wang, J. Ding, Y.Q. Cheng, J.C. Wan, L. Tian, J. Sun, Z.W. Shan*, J. Li*, E. Ma*
Acta Materialia 60, 5370-5379 (2012)
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