[9] J. Dong, Bulletin of Mineralogy, Petrology and Geochemistry, 2023: A data science approach to water storage capacity in rocky planet mantles: Earth, Mars, and exoplanets (a review article). [arXiv]

[8] J. Dong, R. A. Fischer, L. P. Stixrude, C. R. Lithgow-Bertelloni, Z. T. Eriksen, M. C. Brennan, Icarus, 2022: Water storage capacity of the Martian mantle through time. [Publisher's version] [arXiv]

[7] J. Dong, R. A. Fischer, L. P. Stixrude, C. Lithgow-Bertelloni, AGU Advances, 2021: Constraining the volume of Earth's early oceans with a temperature-dependent mantle water storage capacity model. [Publisher's version] [News article from Science] [News article from Harvard Gazette] [Editor's highlight from Eos]

[6] K. Daviau, R. A. Fischer, M. C. Brennan, J. Dong, T.-A. Suer, S. Couper, Y. Meng, V. B. Prakapenka, Journal of Geophysical Research: Solid Earth, 2020: Equation of state of TiN at high pressures and temperatures: A possible host for nitrogen in planetary mantles. [Publisher's version]

[5] J. Li, F. Zhu, J. Liu, J. Dong, Carbon in Earth's Interior (AGU Geophysical Monograph 249, Chapter 15), 2020: Reactive preservation of carbonate in Earth's mantle transition zone. [Publisher's version]

[4] D. Zhou, J. Dong, Y. Si, F. Zhu, J. Li, Minerals, 2020: Melting curve of potassium chloride from in situ ionic conduction measurements. [Publisher's version]

[3] F. Zhu, J. Li, J. Liu, J. Dong, Z. Liu, Proceedings of the National Academy of Sciences, 2019: Metallic iron limits silicate hydration of Earth's transition zone. [Publisher's version]

[2] J. Dong, J. Li, F. Zhu, Frontiers in Earth Science, 2019: Wetting behavior of iron-carbon melt in silicates at mid-mantle pressures with implications for the Earth's deep carbon cycle. [Publisher's version]

[1] J. Dong, J. Li, F. Zhu, Z. Li, R. Farawi, American Mineralogist, 2019: Melting curve minimum of barium carbonate BaCO3 near 5 GPa. [Publisher's version]