王煜，内蒙古呼伦贝尔人，研究员，博士生导师，中共党员。2008年6月及2011年6月于中国地质大学（北京）分别获学士及硕士学位。2016年9月于澳大利亚Macquarie University取得博士学位，博士期间于2011年9月至2013年11月在德国University of Mainz 联合培养。长期从事高温高压实验模拟深地过程的相关研究。2017年至今在中国科学院广州地球化学研究所工作，入选中国科学院青年创新促进会并历任广州分会秘书长、会长，现任基金委重大研究计划“地球宜居性的深部驱动机制”秘书组组长、中国矿物岩石地球化学学会实验矿物岩石地球化学专业委员会副主任、中国灾害防御协会火山专业委员会副主任。入选《National Science Review》学科编辑工作组（地球科学）。

指导学生情况：

博士研究生：管世东、刘颖卓、吴国济（联合培养）

硕士研究生：郭朝阳、张盼盼、王倩、高佳虎、雷清喜、蒋雨霏（联合培养）

• 俯冲板片在地球深部的熔融及俯冲过程中的物质再循环
• 壳幔相互作用及关键元素的地球化学行为
• 深部地幔组成及幔源岩浆成因
• 跨圈层挥发分循环过程
• 早期地球等行星形成及演化

长期招收对上述研究领域感兴趣且具备地学背景的科研助理、研究生、博士后，英语及数理好、动手能力强者尤佳。鼓励探索性原创研究，可天马行空，亦当脚踏实地，但求勿忘初心。有意者请邮件联系，并随信附上个人简历和研究兴趣陈述，博士后请另附简要research proposal。

1) Liu, Y., Wang, Y*., Chen, C., Gao, M., Xu, Y.-G., 2026. Phengite-mediated F and Cl fluxes from subduction zones to the deep mantle. Science Advances, in press.

2) Gao, M., Wang, Y*., Xu, Y.-G., 2026. Progressive sub-arc mantle oxidation modulated by sediment melt. Science Advances, in press.

3) Huang, Y., Wu, G., Liang, X., Tao, K., Wang, Y., Nakamura, M., Li, Y., 2026. Upper mantle low-velocity layer tied to volatile-charged carbonate melts. Science Advances 12, eaec1018.

4) Yu, Y., Huang, X.-L., Payot, B.D., Liu, H.-Q., Jiang, Y.-D., Wang, Y., Dimalanta, C.B., Ou, X.-F., Valera, G.T.V., Yang, F., Yumul, G.P., Xu, Y.-G., Tang, X.-H., 2026. Ba isotope unmasks recycling processes of fluid mobile elements in subduction zones. Geochimica et Cosmochimica Acta, in press.

5) 王煜*, 刘星成, 黄永胜, 王锦团, 高名迪, 2025. 挥发分驱动的地球深部过程:实验岩石学的约束与启示. 岩石学报 41, 4060–4091.

6) Guan, S.-D., Luo, H.-Y., Du, Z.-X., Deng, J., Wang, Y*., 2025. Ab initio simulations on metal-silicate partitioning of phosphorus during Earth’s core formation. Geochimica et Cosmochimica Acta 411, 39–49.

7) Zou, Z., Xu, Y.-G., Wang, Z., Wang, Y., Li, M., Wang, M., Lei, Y., 2025. Melting of eclogitic oceanic crust for the low-velocity zone within Earth’s upper asthenosphere. Geology 53, 951–955.

8) Liu, Z., Chou, I.M., Ta, K., Li, Z., Wang, Y., Klemme, S., 2025. Kimberlite Magma Evolution during Ascent: An Experimental Study under Different Redox Conditions. Journal of Petrology 66, egaf082.

9) Yu, Y., Huang, X.-L., Yang, F., Wang, Y., Xu, Y.-G., Setiawan, I., Chung, S.-L., Zhang, L., Zhu, G.-H., 2025. Mg-Fe isotopic constraint on the role of the lithosphere mantle in arc magmatism. Lithos 512-513, 108166.

10) Yu, Y., Huang, X.-L., Jiang, Y.-D., Hua, Y., Xu, Y.-G., Yang, F., Wang, Y., Setiawan, I., Chung, S.-L., 2025. Slab structure controls arc magmatism diversity in subduction zones. GSA Bulletin 137(11-12), 4649-4658.

11) Gao, M., Wang, Y*., Foley, S.F., Xu, Y.-G., 2025. Variable mantle redox states driven by deeply subducted carbon. Science Advances 11, eadu4985.

12) Wei, Z., Li, H.-Y., Ma, L., Hou, Y.-S., Wang, Y., Xu, Y.-G., 2024. Geochemistry of Olivine Melt Inclusion Reveals Interactions between Deeply Derived Carbonated Melts from the Big Mantle Wedge and Pyroxenite in the Lithospheric Mantle Beneath Eastern Asia. Geophysical Research Letters 51, e2024GL108234.

13) Hou, Y.-S., Li, H.-Y., Wang, Y., Zhang, Y.-F., Li, Y., Xu, Y.-G., 2024. Experimental Insights into the Petrogenesis of Plume-Related Magmas: Tholeiite-Harzburgite Interaction at 2-3 GPa and 1,400-1,500°C. Journal of Geophysical Research: Solid Earth 129, e2023JB028467.

14) Prelević, D., Förster, M.W., Buhre, S., Gülmez, F., Grützner, T., Wang, Y., Foley, S.F., 2024. Recent advances made by reaction experiments on melting of heavily metasomatized hydrous mantle. Earth-Science Reviews 256, 104881.

15) Dai, F.-Q., Chen, Y.-X., Chen, R.-X., Zhao, Z.-F., Li, J., Wang, Y., 2024. Subducted serpentinite contributes to the formation of arc lavas with heavy Mo isotopic compositions. Geochimica et Cosmochimica Acta 369, 62-70.

16) Wang, Y*., Xu, Y.-G., 2024. Volatiles in the mantle transition zone and their effects on big mantle wedge systems. National Science Review 11, nwae136.

17) Gao, M., Foley, S.F., Xu, H*., Wang, Y*., 2023. Mantle metasomatism induced by water-fluxed melting of subducted continental crust at ultrahigh pressures. Geology., https://doi.org/10.1130/G51547.1.

18) Wang, C., Foley, S.F., Liu, Y*., Wang, Y*., Xu, Y.-G., 2023. Origin of carbonate melts in orogenic belts by anatexis of downthrust carbonate sediments. Earth and Planetary Science Letters 619, 118303.

19) 徐义刚, 黄小龙, 王强, 王煜, 李高军, 刘耘, 毛河光, 倪怀玮, 朱茂炎. 地球宜居性的深部驱动机制. 科学通报, 2023. https://doi.org/10.1360/TB-2023-0816.

20) Yin, R., Huang, X.-L., Wang, R.-C., Wei, G.-J., Xu, Y.-G., Wang, Y., Sun, X.-M., Zhang, L., Xia, X.-P., 2023. Magmatic–hydrothermal evolution of the Koktokay No. 3 pegmatite, Altai, northwestern China: Constraints from in situ boron isotope and chemical compositions of tourmaline. Lithos 462-463, 107398.

21) Shu, Z.-T., Liu, S.-A., Prelević, D., Wang, Y., Foley, S.F., Cvetković, V., Li, S., 2023. Recycled Carbonate-Bearing Silicate Sediments in the Sources of Circum-Mediterranean K-Rich Lavas: Evidence from Mg-Zn Isotopic Decoupling. Journal of Geophysical Research: Solid Earth 128, e2022JB025135.

22) Gao, M., Xu, H., Foley, S.F., Zhang, J., Wang, Y., 2023. Ultrahigh-pressure mantle metasomatism in continental collision zones recorded by post-collisional mafic rocks. GSA Bulletin., doi:10.1130/B36610.1.

23) Xie, Q., Zhang, Z., Foley, S.F., Chen, C., Cheng, Z., Wang, Y., Kong, W., Lv, Y., Santosh, M., Jin, Q. and Krmíček, L., 2023. Transition from tholeiitic to alkali basalts via interaction between decarbonated eclogite-derived melts and peridotite. Chemical Geology, p.121354.

24) 王煜*. (2023) 幔源岩浆成因的实验岩石学约束. 矿物岩石地球化学通报 [J/OL]. 1-16[2023-10-20]. https://doi.org/10.19658/j.issn.1007-2802.2023.42.104.

25) Wang, C., Alard, O., Lai, Y.-J., Foley, S.F., Liu, Y., Munnikhuis, J., Wang, Y., 2022. Advances in in-situ Rb-Sr dating using LA-ICP-MS/MS: applications to igneous rocks of all ages and to the identification of unrecognized metamorphic events. Chemical Geology 610, 121073.

26) Yin, R., Huang, X.-L., Wang, R.-C., Sun, X.-M., Tang, Y., Wang, Y., Xu, Y.-G., 2022. Rare-Metal Enrichment and Nb–Ta Fractionation during Magmatic–Hydrothermal Processes in Rare-Metal Granites: Evidence from Zoned Micas from the Yashan Pluton, South China. Journal of Petrology 63, egac093. https://doi.org/10.1093/petrology/egac093.

27) Ma, L., Xu, Y.-G., Li, J., Chen, L.-H., Liu, J.-Q., Li, H.-Y., Huang, X.-L., Ma, Q., Hong, L.-B., Wang, Y., 2022. Molybdenum isotopic constraints on the origin of EM1-type continental intraplate basalts. Geochimica et Cosmochimica Acta 317, 255-268., https://doi.org/10.1016/j.gca.2021.11.013.

28) 刘星成，许婷，熊小林，李立，王煜，邢长明. (2022) 含水硅酸盐熔体中铜溶解度的实验研究. 大地构造与成矿学. doi:10.16539/j.ddgzyckx.2022.02.014.

29) 杨晓志，李元，张莉，王煜，刘锦，张凯. (2022) 实验地球化学的发展历史和研究展望. 地球科学. (008), 047. 

30) Wang, Y*., S. F. Foley, S. Buhre, J. Soldner, and Yigang. Xu (2021), Origin of potassic postcollisional volcanic rocks in young, shallow, blueschist-rich lithosphere, Science Advances, 7(29), eabc0291, doi:10.1126/sciadv.abc0291.

31) Wang, Y*., and Yigang. Xu (2020a), Partial Melting of the Lower Oceanic Crust: Implications for Tracing the Slab Component in the Source of Mid-Ocean Ridge Basalts, Journal of Geophysical Research: Solid Earth, 125(10), e2020JB020673, doi:10.1029/2020JB020673.

32) Wang, Y*., and S. F. Foley (2020b), The Role of Blueschist Stored in Shallow Lithosphere in the Generation of Postcollisional Orogenic Magmas, Journal of Geophysical Research: Solid Earth, 125(10), e2020JB019910, doi:10.1029/2020JB019910.

33) Hong, L., Xu, Y.-G., Zhang, L., Wang, Y., Ma, L., 2020. Recycled carbonate-induced oxidization of the convective mantle beneath Jiaodong, Eastern China. Lithos 366-367, 105544. 105544, https://doi.org/10.1016/j.lithos.2020.105544.

34) Wang, Y*., D. Prelević, and S. F. Foley (2019), Geochemical characteristics of lawsonite blueschists in tectonic mélange from the Tavşanlı Zone, Turkey: Potential constraints on the origin of Mediterranean potassium-rich magmatism, American Mineralogist, 104(5), 724-743, doi:10.2138/am-2019-6818.

35) Wang, Y*., and S. F. Foley (2018), Hybridization Melting Between Continent-Derived Sediment and Depleted Peridotite in Subduction Zones, Journal of Geophysical Research: Solid Earth, 123(5), 3414-3429, doi:10.1029/2018JB015507.

36) Wang, Y*., S. F. Foley, and D. Prelević (2017a), Potassium-rich magmatism from a phlogopite-free source, Geology, 45(5), 467-470, doi:10.1130/G38691.1.

37) Wang, Y*., D. Prelević, S. Buhre, and S. F. Foley (2017b), Constraints on the sources of post-collisional K-rich magmatism: The roles of continental clastic sediments and terrigenous blueschists, Chemical Geology, 455, 192-207, http://dx.doi.org/10.1016/j.chemgeo.2016.10.006.

文章更新请访问 https://www.researchgate.net/profile/Yu_Wang145

在研项目

1. 中国科学院基础与交叉前沿科研先导专项（B类先导专项）项目“深地挥发份循环与成矿条件演化”，2024.06-2029.05，项目负责人；

2. 国家重点研发计划项目“太平洋-欧亚-印度多板块汇聚对地球宜居性的影响”课题3“澳大利亚-东南亚交汇区深部物质循环过程和岩浆响应”，2023.12-2028.11，课题负责人；

3. 国家重点研发计划项目“板块俯冲机制与大地幔楔形成”课题1“大地幔楔的形成、演化与存亡机制”，2022.12-2027.11，子课题负责人；

4. 广东省战略金属与绿色利用基础学科研究中心（地球科学）自主遴选项目：地幔交代体在REE与Nb富集中的关键作用：高温高压实验约束，2025.04-2029.04，项目负责人；

5. 广东省自然科学基金面上项目：地幔过渡带条件下俯冲板片碳酸质熔体-地幔橄榄岩相互作用的高温高压实验研究，2024.01-2026.12，项目负责人；

6. 广州市科技菁英“领航”项目，2025.01-2027.12，项目负责人。

结题项目

1. 国家自然科学基金委优秀青年科学基金项目：实验岩石学，2023.01-2025.12，项目负责人；

2. 国家自然科学基金委常规面上项目：再循环大陆地壳与地幔难熔橄榄岩相互作用实验研究，2018.01-2021.1，项目负责人；

3. 国家自然科学基金国际（地区）合作研究重点项目：裂谷区地幔柱及过碱性火山活动研究，2020.01-2024.12，子课题负责人；

4. 中国科学院“青年创新促进会”，2020.01-2023.12，项目负责人；

5. 广东省自然科学基金面上项目：探索超钾质岩浆成因：全新的“两阶段”熔融实验，2019.10-2022.09，项目负责人；

6. 中国科学院广州地球化学研究所“涂光炽优秀青年学者”计划A类，2019.07-2022.06，项目负责人。