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★1. Shaojie Li, Xuan-Ce Wang*, Zhu-Yin Chu, Simon A Wilde, Chao-Feng Li. Revisit of applying rhenium-osmium isotope geochemistry for petroleum system analysis (accepted).
★2. Wu, J., Fang, P., Wang, X.-C., Li, B., Liu, K., Ma, X., Li, S., Li, M., 2020. The potential occurrence modes of hydrocarbons in asphaltene matrix and its geochemical implications. Fuel 278, 118233.
★3. Wang Xuan-Ce*, Wilde A. Simon, Li Zheng-Xiang, Li Shaojie, Li Linlin. Do supercontinent-superplume cycles control the growth and evolution of continental crust? Journal of Earth Sciences, accepted, 2020
★4. Wang Xuan-Ce*, Li Qiu-Li, Wilde A. Simon, Li Zheng-Xiang, Li Chao-Feng, Li Shaojie, Li Linlin, Pandit K. Manoj. Decoupling between oxygen and radiogenic isotopes ─ evidence for generation of juvenile continental crust by partial melting of subducted oceanic crust. Journal of Earth Sciences, accepted, 2020.
★5. *Wang, X.-C., Wilde, S.A., Xu, B., Pang, C.-J., 2016. Origin of arc-like continental basalts: Implications for deep-Earth fluid cycling and tectonic discrimination. Lithos 261, 5-45.
★6. *Wang X-C, Wilde SA, Li Q-L, Yang Y-N., 2015. Continental flood basalts derived from the hydrous mantle transition zone. Nature communications 6.
★7. *Wang, X.-C., Li, Z.-X., Li, J., Pisarevsky, S. A. & Wingate, M. T. D., 2014. Genesis of the 1.21 Ga Marnda Moorn large igneous province by plume–lithosphere interaction. Precambrian Research 241, 85-103 (IF = 5.664, 23 citations).
★8. *Wang, X.C., Li, Z.X., Li, X.H., Li, J., Xu, Y.G., Li, X.H., 2013. Identification of an ancient mantle reservoir and young recycled materials in the source region of a young mantle plume: Implications for potential linkages between plume and plate tectonics. Earth and Planetary Science Letters 377–378, 248–259 (IF = 4.734, 37 citations).
★9. *Wang, X.C., Li, Z.X., Li, X.H., 2013. Early differentiation of the bulk silicate Earth as recorded by the oldest mantle reservoir. Precambrian Research 238, 52–60 (IF = 5.664, 7 citations).
★10. *Wang, X.C., Li, Z.-X., Li, X.-H., Li, J., Liu, Y., Long, W.-G., Zhou, J.-B., Wang, F., 2012. Temperature, Pressure, and Composition of the Mantle Source Region of Late Cenozoic Basalts in Hainan Island, SE Asia: a Consequence of a Young Thermal Mantle Plume close to Subduction Zones? Journal of Petrology 53, 177-233 (IF = 4.424, 78 citations).
★11. Wang, X.C., Li, X.-h., Li, Z.-X., Li, Q.-L., Tang, G.-Q., Gao, Y.-Y., Zhang, Q.-R., Liu, Y., 2012. Episodic Precambrian crust growth: Evidence from U–Pb ages and Hf–O isotopes of zircon in the Nanhua Basin, central South China. Precambrian Research 222–223, 386-403 (IF = 5.664, 94 citations).
★12. *Wang, X.C., Li, Z.X., Li, X.H., Li, Q.L., Tang, G.Q., Zhang, Q.R., Liu, Y., 2011. Non-glacial origin for low- d18O Neoproterozoic magmas in South China: Evidence from new in-situ oxygen isotope analyses using SIMS. Geology 39, 735-738. (IF = 4.884, 34 citations).
★13. Wang, X.-C., Li, Z.-X., Li, X.-H., Li, Q.-L., Zhang, Q.-R., 2011. Geochemical and Hf-Nd isotope data of Nanhua rift sedimentary and volcaniclastic rocks indicate a Neoproterozoic continental flood basalt provenance. Lithos 127, 427-440 (IF = 4.482, 44 citations).
★14. *Wang X.C., Li X-H, Li Z-X, Liu Y, Yang Y-H, 2010. The Willouran basic province of South Australia: Its relation to the Guibei large igneous province in South China and the breakup of Rodinia. Lithos 119, 569-584. (IF = 4.482, 50 citations).
★15. *Wang, X.C., Li, X.H., Li, W.X., Li, Z.X, 2009. Variable involvements of mantle plumes in the genesis of mid-Neoproterozoic basaltic rocks in South China: A review. Gondwana Research 15:381-395. (IF = 8.235, 92 citations).
★16. *Wang, X.C., Li, X.H., Li, W.X., Li, Z.X., Liu, Y., Yang, Y.H., Liang, X., R. and Tu, X.L., 2008. The Bikou basalts in northwestern Yangtze Block, South China: Remains of 820-810 Ma continental flood basalts? Geological Society of America Bulletin 120: 1478-1492 (IF = 3.870, 127 citations).
★17. *Wang X.C., Li, X.H., Li, W.X, Li, Z.X., 2007. Ca. 825 Ma komatiitic basalts in South China: First evidence for >1500°C mantle melts by a Rodinia mantle plume. Geology 35: 1103–1106 (IF = 4.884, 142 citations).
★18. Li, S.; Wang, X.-C.; Li, C.-F.; Liu, K.; Wilde, S. A.; Hu, S.-Y.; Gui, L.; Liu, J.; Wu, L., First Direct Dating of Alteration of Paleo-Oil Pools Using Rubidium-Strontium Pyrite Geochronology. Minerals 2020, 10, (7), 606.
★19. Wu, T., Wang, X. C., Li, W. X., Wilde, S. A. & Tian, L. (2019). Petrogenesis of the ca. 820–810 Ma felsic volcanic rocks in the Bikou Group: Implications for the tectonic setting of the western margin of the Yangtze Block. Precambrian Research 331, 105370. (Corresponding author)
★20. Pang, C. J., Wang, X. -C.*, Li, C.-F., Wilde, S. A., & Tian, L. (2019). Pyroxenite-derived Cenozoic basaltic magmatism in central Inner Mongolia, eastern China: Potential contributions from the subduction of the Paleo-Pacific and Paleo-Asian oceanic slabs in the Mantle Transition Zone. Lithos, 332, 39-54. (Corresponding author).
★21. Li, S., Wang, X.-C., Li, C.-F., Wilde, S.A., Zhang, Y., Golding, S.D., Liu, K., Zhang, Y., 2019. Direct Rubidium-Strontium Dating of Hydrocarbon Charge Using Small Authigenic Illitic Clay Aliquots from the Silurian Bituminous Sandstone in the Tarim Basin, NW China. Scientific reports 9, 1-13. (Corresponding author).
★22. Shi, G., Wang, X.-C.*, Li, Y., Trengove, R., Hu, Z., Mi, M., Li, X., Yu, J., Hunter, B., and He, T., 2019, Organic tracers from biomass burning in snow from the coast to the ice sheet summit of East Antarctica: Atmospheric Environment, v. 201, p. 231-241. (Corresponding author).
★23. Wu, T., Wang, X.-C., Li, W.-X., Wilde, S. A., Tian, L., Pang, C.-J., and Li, J., 2018, The 825 Ma Yiyang high–MgO basalts of central South China: Insights from Os–Hf–Nd data: Chemical Geology, v. 502, p. 107-121. (Corresponding author).
★24. Li, Z., Wang, X.-C., Wilde, S. A., Liu, L., Li, W.-X., and Yang, X., 2018, Role of deep-Earth water cycling in the growth and evolution of continental crust: Constraints from Cretaceous magmatism in southeast China: Lithos, v. 302-303, p. 126-141. (Corresponding author).
★25. Li, C.-F., Wang, X.-C., Wilde, S. A., Li, X.-H., Wang, Y.-F., and Li, Z., 2017, Differentiation of the early silicate Earth as recorded by 142Nd-143Nd in 3.8–3.0Ga rocks from the Anshan Complex, North China Craton: Precambrian Research, v. 301, p. 86-101. (corresponding author)
★26. Pang, C.-J., Wang, X.-C., Xu, B., Zhao, J.-X., Feng, Y.-X., Wang, Y.-Y., Luo, Z.-W., Liao, W., 2016. Late Carboniferous N-MORB-type basalts in central Inner Mongolia, China: Products of hydrous melting in an intraplate setting? Lithos 261, 55-71. (corresponding author)
★27. Lyu, P.-L., Li, W.-X.,Wang, X.-C., Pang, C.-J., Cheng, J.-X., and Li, X.-H., 2017, Initial breakup of supercontinent Rodinia as recorded by ca 860–840 Ma bimodal volcanism along the southeastern margin of the Yangtze Block, South China: Precambrian Research, v. 296, p. 148-167. (IF = 5.664; 2 citations)
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