刘盛遨，男，博士，教授，博士研究生导师

教育经历：
2006/09-2011/07，中国科学技术大学，地球和空间科学学院，地球化学，硕-博连读
2009/08-2010/09，美国阿肯色大学，地球科学系，博士生
2002/09-2006/07，中国科学技术大学，地球和空间科学学院，地球化学，本科/学士
工作经历：
2016.12–至今，中国地质大学（北京），科学研究院，教授
2013.11–2016.11，中国地质大学（北京），科学研究院，副教授
2011.10–2013.10，中国地质大学（北京），地球科学与资源学院，博士后

主要从事金属稳定同位素（Cu，Zn，Mg，Cd，Cr等）地球化学研究，重点关注金属同位素在地球早期环境与生命演化、地球深部碳循环及其气候响应两方面的示踪研究，对Cu-Zn同位素在矿床学中的应用也感兴趣。近年来，系统查明了高温岩浆过程、大陆风化、吸附、大洋蚀变等高-中-低温过程中Cu-Zn同位素的分馏行为，重新厘定了硅酸盐地球(BSE)的Cu-Zn同位素组成，参与建立了现代海洋的Cu-Zn同位素循环模型；率先将Zn同位素应用到生物灭绝机制研究，为二叠纪末全球生物大灭绝前的大规模火山作用和灭绝后海洋初级生产力的快速恢复提供了重要的Zn同位素证据，为F-F生物灭绝时期海平面下降提供了独立的证据；首次将Zn同位素应用到深部碳循环研究，发现中国东部新生代玄武岩大尺度Zn同位素正异常，与Mg同位素一起为中国东部上地幔存在大尺度再循环碳酸盐（菱镁矿）提供了关键证据，提出中国东部玄武岩成分转变的机制是碳酸盐化熔体-岩石圈的相互作用；率先将Cu同位素应用到高温岩浆矿床，为巨型斑岩矿床源区存在初始的Cu富集提供了关键证据，提出Cu同位素能够示踪岩浆Ni-Cu矿床形成过程中氧化还原变化；详细论述了中国中东部含矿与不含矿埃达克岩成因差异，提出长江中下游大规模Cu-Au成矿与俯冲洋壳熔融有关。

2016年获得国家优秀青年基金资助。以第一作者或通讯作者在Geology，EarthandPlanetaryScienceLetters，GeochimicaetCosmochimicaActa，JournalofAnalyticalAtomicSpectrometry，ChemicalGeology等国际主流地学刊物发表SCI论文27篇，SCI他引500余次，其中一篇论文入选ESI数据库Top1%高引用率论文名录。共计发表论文60余篇，SCI引用1900余次，H因子=22。

联系方式：，lsa@cugb.edu.cn；逸夫楼703室

ResearchGate:http://www.researcherid.com/rid/F-8259-2015
GoogleScholar:https://scholar.google.com/citations?user=gGK4OnoAAAAJ&hl=en\

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Peer-reviewed Publications Since 2010 (*corresponding author)

第一作者/通讯作者论文：
32. Yang, C., Liu, S.-A.*, 2019. Zinc isotope constraints on recycled oceanic crust in the mantle sources of the Emeishan large igneous province. Journal of Geophysical Research: Solid Earth, in press
31. Wang, Z.-Z., Liu, S.-A.*, Liu, Z.-C., Zheng, Y.-C., Wu, F.-Y., 2019. Extreme Mg and Zn isotope fractionation recorded in the Himalayan leucogranites. Geochimica et Cosmochimica Acta, https://doi.org/10.1016/j.gca.2019.09.026
30. Li, M.-L., Liu, S-A.*, Xue, C.-J., Li, D.-D., 2019. Zinc, cadmium and sulfur isotope fractionation in a supergiant MVT deposit with bacteria. Geochimica et Cosmochimica Acta, 265: 1–18.
29. Liu, S-A.*, Liu, P-P., Lv, Y., Wang, Z-Z., Dai, J-G., 2019. Cu and Zn Isotope Fractionation during Oceanic Alteration: Implications for Oceanic Cu and Zn Cycles. Geochimica et Cosmochimica Acta, 257: 191-205.
28. Liu S.-A.* & Li, S.-G., 2019. Tracing the Deep Carbon Cycle Using Metal Stable Isotopes: Opportunities and Challenges. Engineering, 5: 448-457.
27. Zhao, Y., Xue, C*., Liu, S.-A*., R, Mathur., Zhao, X.B., Yang, Y.Q., J, Dai, R, Man, X, Liu., 2019. Redox reactions control Cu and Fe isotope fractionation in a magmatic Ni-Cu mineralization system. Geochimica et Cosmochimica Acta, 249: 42-58.
26. Zheng, Y.C*., Liu, S.-A*., Wu, C.D., William Griffin., Xu, B., Li, Z.Q., Yang, Z.M., Hou, Z.Q., Suzanne O'Reilly., 2019. Cu isotopes reveal initial Cu enrichment in sources of giant porphyry deposits in collision setting. Geology, 47: 135-138.
25. Xu, L.J*., Liu, S.-A*., Wang, Z.Z., Liu, C.Y., Li, S.G., 2019. Zinc isotopic compositions of migmatites and granitoids from the Dabie Orogen, central China: Implications for zinc isotopic fractionation during differentiation of the continental crust. Lithos, 324-325: 454-465.
24. Li, D.-D., Li, M.-L., Liu, W.-R., Qin, Z.-Z., Liu, S.-A*., 2018. Cadmium Isotopic Composition of Solution Standards and Geological Reference Materials measured by MC-ICP-MS. Geostandards and Geoanalytical Research, 42: 593-605.
23. Lv, Y.-W., Liu, S.-A*., Wu, H.-C., Hohl, Simon V., Chen, S.-M., Li, S.-G., 2018. Zn-Sr isotope records of the Ediacaran Doushantuo Formation in South China: diagenesis assessment and implications. Geochimica et Cosmochimica Acta, 239: 330-345.
22. Wang, Z.-Z., Liu, S.-A*., Chen, L.-H., Li, S.G., Zeng, G., 2018. Compositional transition in natural alkaline lavas through silica-undersaturated melt-lithosphere interaction. Geology, 46: 771-774.
21. Wang X., Liu, S.-A*., Wang, Z.R., Chen, D.Z., Zhang, L.Y., 2018. Zinc and strontium isotope evidence for climate cooling and constraints on the Frasnian-Famennian (~372 Ma) mass extinction. Palaeogeography, Palaeoclimatology, Palaeoecology. 498, 68–82
20. Zhao, Y., Xue, C*., Liu, S.-A*., Symonsb, David,, Zhao, X.B., Yang, Y.Q., Ke, J., 2017. Copper isotope fractionation during sulfide-magma differentiation in the Tulaergen magmatic Ni-Cu deposit, NW China. Lithos, 286–287: 206–215
19. Liu, S.-A*., Wu, H.C*., Shen, S.Z., Jiang, G.Q., Zhang, S.H., Lv, Y.W., Zhang, H., Li, S.G., 2017. Zinc isotope evidence for intensive magmatism immediately before the end-Permian mass extinction. Geology, 45: 9-12.
18. Wang, Z.-Z., Liu, S.-A*., Liu, J.-G., Huang, J., Xiao, Y., Chu. Z.Y., Zhao, XM., Tang, L.M., 2017. Zinc isotope fractionation during mantle melting and constraints on the Zn isotope composition of Earth’s upper mantle. Geochimica et Cosmochimica Acta, 198: 151-167
17. Huang, J*., Liu, S.-A*., Gao, Y.J., Xiao, Y.L., Chen, S., 2016. Copper and zinc isotope systematics of altered oceanic crust at IODP Site 1256 in the eastern equatorial Pacific. Journal of Geophysical Research: Solid Earth, 121: 7086-7100
16. Huang, J*., Liu, S.-A*., G. Worner, Yu, H., Xiao, Y., 2016. Cu isotope behavior during extreme magma differentiation nd degassing: a case study on Laacher See phonolite tephra East Eifel, Germany). Contributions to Mineralogy and Petrology, 171: 76-90
15. Wang, Z.-Z., Liu, S.-A*., Ke, S., liu, YC., Li, S.-G., 2016. Magnesium isotopic heterogeneity across the cratonic lithosphere in eastern China and its origins. Earth and Planetary Science Letters, 451, 77-88.
14. Liu, S.-A*., Wang, Z.-Z., Li, S.G., Huang, J., Yang, W., 2016. Zinc isotope evidence for a large-scale carbonated mantle beneath eastern China. Earth and Planetary Science Letters, 444: 169-178.
13. Lv, Y.-W., Liu, S.-A*., Zhu, J.M., Li, S.G., 2016. Copper and zinc isotope fractionation during deposition and weathering of highly metalliferous black shales in central China. Chemical Geology, 445: 24-35.
12. Liu, S.-A*., Huang, J., Liu, J.-G., G. Worner, Yang, W., Tang, Y.-J., Tang, L.-M., Li, S.-G., 2015. Copper isotopic composition of the silicate Earth. Earth and Planetary Science Letters, 427: 95-103.
11. Li, D.-D., Liu, S.-A*., Li, S.-G., 2015. Copper isotope fractionation during adsorption onto kaolinite: Experiment approach and applications. Chemical Geology, 396, 74-82.
10. 张力钰，刘盛遨*，赵盼捞，汪方跃，宁镇地区成矿斑岩与铁镁质包体铜同位素对比研究及其意义. 岩石学报，31(7): 1908-1916
9. 王泽洲，刘盛遨*，李丹丹，吕逸文，吴松, 赵云, 铜同位素地球化学进展. 地学前缘，22(5): 072-083.
8. Liu, S.-A*., Teng, F.-Z., Li, S.-G., Wei, G.-J., Ma, J.-L., Li, D-.D., 2014. Copper and iron isotope fractionation during weathering and pedogenesis: Insights from saprolite profiles. Geochimica et Cosmochimica Acta, 146: 59-75.
7. Liu, S.-A*., Li, D.-D., Li, S.-G., Teng, F.-Z., Ke, S., He, Y.-S., Lu, Y.-H., 2014. High-precision copper and iron isotope analysis of igneous rock standards by MC-ICP-MS. Journal of Analytical Atomic Spectrometry, 29, 122-133.
6. Wang, F.-Y*., Liu, S.-A*., Li, S.-G., He, Y.-S., 2014. Zircon U-Pb ages, H-O isotopes and trace elements of Mesozoic high Sr/Y porphyries from Ningzhen, eastern China: Constraints on their petrogenesis, tectonic implications and Cu mineralization. Lithos, 200-201: 299-316.
5. Wang. F.-Y*., Liu, S.-A*., Li, S.-G., He, Y.-S., 2013. Contrasting zircon Hf-O isotopes and trace elements between ore-bearing and ore-barren adakites in central-eastern China: Implications for genetic relation to Cu-Au mineralization. Lithos, 156-159: 97-111.
4. Liu, S.-A*., Li, S.-G., Guo, S.-S., Hou, Z.-H., He, Y.-S., 2012. The Cretaceous adakitic–basaltic– granitic magma sequence in south-eastern margin of the North China Craton: Implications for lithospheric thinning mechanism. Lithos, 134-145: 163-178.
3. Liu, S.-A*., Teng, F.-Z., Yang, Wei., Wu, F.-Y., 2011. High-temperature inter-mineral magnesium isotope fractionation on mantle xenoliths from the North China craton. Earth and Planetary Science Letters, 308(1-2), 131-140.
2. Liu, S.-A*., Li, S.-G., He, Y.-S., Huang, F., 2010. Geochemical contrasts between early Cretaceous ore-bearing and ore-barren high-Mg adakites in central-eastern China: Implications for petrogenesis and Cu-Au mineralization. Geochimica et Cosmochimica Acta, 74(24): 7160-7178.
1. Liu, S.-A*., Teng, F.-Z., He, Y.-S., Ke, S., Li, S.-G., 2010. Investigation of magnesium isotope fractionation during granite differentiation: Implication for Mg isotopic composition of the continental crust. Earth and Planetary Science Letters, 297(3-4), 646-654.

合作论文：
31. Zhang, L.-X., Wang, Q., Zhu, D.-C., Li, S.-M., Zhao, Z.-D., Zhang, L.-L., Chen, Y., Liu, S.-A., Zheng, Y.-C., Wang, R., Liao, Z.-L., 2019. Generation of leucogranites via fractional crystallization: A case from the Late Triassic Luoza batholith in the Lhasa Terrane, southern Tibet. Gondwana Research, 66: 63-76.
30. Liu, Z., Zhu, D.-C., Wang, Q., Eyuboglu, Y.,Zhao, Z.-D., Liu, S.-A., & Xu, L.-J. (2018). Transition from low-K to high-K calc-alkaline magmatism at approximately 84 Ma in the eastern Pontides (NE Turkey): Magmatic response to slab rollback of the Black Sea. Journal of Geophysical Research: Solid Earth, 123. https://doi.org/10.1029/ 2018JB016026.
29. Jin Li, Suo-han Tang, Xiang-kun Zhu, Zhi-hong Li, Shi-Zhen Li, Bin Yan, Yue Wang, Jian Sun, Yao Shi, Aiguo Dong, N.S. Belshaw, Xingchao Zhang, Sheng-Ao Liu, Ji-hua Liu, Deli Wang, Shao-yong Jiang, Hou KeJun Anthony S. Cohen., 2018. Basaltic and Solution Reference Materials for Iron, Copper and Zinc Isotope Measurements. Geostandards and Geoanalytical Research, in press
28. Yuhan Yang, Xingchao Zhang, Sheng-Ao Liu, Ting Zhou, Haifeng Fan,m Huimin Yu, Wenhan Chenga and Fang Huang, 2018. Calibrating NIST SRM 683 as a new international reference standard for Zn isotopes. Journal of Analytical Atomic Spectrometry, DOI: 10.1039/c8ja00249e.
27. Zhang, H., Jiang, X.-W., Wan, L., Ke, S., Liu, S.-A., Han, G., Guo, H., Dong, A., 2018. Fractionation of Mg isotopes by clay formation and calcite precipitation in groundwater with long residence times in a sandstone aquifer, Ordos Basin, China. Geochimica et Cosmochimica Acta, 237: 261-274.
26. Yi, J.-K., Wang, Q., Zhu, D.-C., Li, S.-M., Liu, S.-A., Wang, R., Zhang, L.-L., Zhao, Z.-D., 2018. Westward-younging high-Mg adakitic magmatism in central Tibet: Record of a westward-migrating lithospheric foundering beneath the Lhasa–Qiangtang collision zone during the Late Cretaceous. Lithos, 316-317: 92-103.
25. Liu, A.-L., Wang, Q., Zhu, D.-C., Zhao, Z.-D., Liu, S.-A., Wang, R., Dai, J.-G., Zheng, Y.-C., Zhang, L.-L., 2018. Origin of the ca. 50Ma Linzizong shoshonitic volcanic rocks in the eastern Gangdese arc, southern Tibet. Lithos, 304-307: 374-387。
24. Wang, Q., Zhu, D.-C., Liu, A.-L., Cawood, P.A., Liu, S.-A., Xia, Y., Chen, Y., Wang, H., Zhang, L.-L., Zhao, Z.-D., 2018. Survival of the Lhasa Terrane during its collision with Asia due to crust-mantle coupling revealed by ca. 114？Ma intrusive rocks in western Tibet. Lithos, 304-307: 200-210.
23. Wu, L.-Y., Hu, R.-Z., Li, X.-F., Liu, S.-A., Tang, Y.-W., Tang, Y.-Y., 2017. Copper isotopic compositions of the Zijinshan high-sulfidation epithermal Cu–Au deposit, South China: Implications for deposit origin. Ore Geology Review, 83: 191-199.
22. He Y., Wu H., Ke S., Liu S.-A. and Wang Q., 2017. Iron isotopic compositions of adakitic and non-adakitic granitic magmas: Magma compositional control and subtle residual garnet effect.Geochim. Cosmochim. Acta 203, 89–102.
21. Yuan, H., Yuan, W., Bao, Z., Chen, K., Huang, F., Liu,S-A., 2017. Development of two new copper isotope standard solutions and their copper isotopic compositions. Geostand. Geoanal. Res. 41, 77–84.
20. Dai, J.G., Wang, C.S., Liu, S-A., Qian, X.Y., Zhu, D., Ke, S., 2016. Deep carbon cycle recorded by calcium-silicate rocks (rodingites) in a subduction‐related ophiolite. Geophysical Research Letter, 43, 11,635-11,643.
19. Li, Y., He, J., Han, Z., Wang, C., Ma, P., Zhou, A., Liu, S.-A., Xu, M., 2016. Late Jurassic sodium-rich adakitic intrusive rocks in the southern Qiangtang terrane, central Tibet, and their implications for the Bangong–Nujiang Ocean subduction. Lithos, 245: 34-46.
18. Yang, W., Teng, F.-Z., Li, W.-Y., Liu, S.-A., Ke, S., Liu, Y.-S., Zhang, H.-F., Gao, S., 2016. Magnesium isotopic composition of the deep continental crust. Am. Min-eral.101, 243–252.
17. Ke, S., Teng, F.Z., Li, S.G., Gao, T., Liu, S.A., He, Y.S., Mo, X.X., 2016. Mg, Sr, and O isotope geochemistry of syenites from northwest Xinjiang, China: Tracing carbonate recycling during Tethyan oceanic subduction. Chemical Geology, 437:109–119.
16. Li, S.-M., Zhu, D.-C., Wang, Q., Zhao, Z., Zhang, L.-L., Liu, S.-A., Chang, Q.-S., Lu, Y.-H., Dai, J.-G., Zheng, Y.-C., 2016. Slab-derived adakites and subslab asthenosphere-derived OIB-type rocks at 156±2Ma from the north of Gerze, central Tibet: Records of the Bangong–Nujiang oceanic ridge subduction during the Late Jurassic. Lithos, 262: 456-469.
15. Wang, Q., Zhu, D.-C., Cawood, P.A., Zhao, Z.-D., Liu, S.-A., Chung, S.-L., Zhang, L.-L., Liu, D., Zheng, Y.-C., Dai, J.-G., 2015. Eocene magmatic processes and crustal thickening in southern Tibet: Insights from strongly fractionated ca. 43Ma granites in the western Gangdese Batholith. Lithos, 239: 128-141.
14. Zhu, D.-C., Li, S.-M., Cawood, P. A., Wang, Q., Zhao, Z.-D., Liu, S.-A., Wang, L.-Q., Assembly of the Lhasa and Qiangtang terranes in central Tibet by divergent double subduction. Lithos, 245: 7-17.
13.Teng, F.-Z., Li, W.-Y., Ke, S., Yang, W., Liu, S.-A., Fatemeh Sedaghatpour, et al., 2015. Magnesium isotopic compositions of international geostandards, Geostandards and Geoanalytical Research, doi: 10.1111/j.1751-908X. 2014.00326.x.
12. Li, Y-J, Li, S., Santosh, M., Liu, S.-A., Zhang, L., Li, W.T., Song, Y.-X., Wang, B.-X.,, 2015, Zircon geochronology, geochemistry and stable isotopes of the Wang’ershan gold deposit, Jiaodong Peninsula, China. Journal of Asian Earth Sciences, 113: 695-710.
11. Zhu D-C., Liu, S.-A., et al., Scientific Reports, in press.
10. Li, S.-G., Wang, S.-J., Guo, S.-S., Xiao, Y.-L., Liu, Y.-C., Liu, S. -A., He, Y.-S., Liu, J.-L., 2014. Geochronology and geochemistry of leucogranites from the southeast margin of the North China Block: Origin and migration. Gondwana Research, 3-4, 1111-1128.
9. Wang, Q., Zhu, D.-C., Zhao, Z.-D., Liu, S. -A., Chung, S.-L., Li, S.-M., Liu, D., Dai, J.-G., Wang, L-Q., Mo, X.-X., 2014. Origin of the ca. 90 Ma magnesia-rich volcanic rocks in SE Nyima, central Tibet: Products of lithospheric delamination beneath the Lhasa-Qiangtang collision zone, Lithos, 198-199: 24-37.
8. Li, S.M., Zhu, D.-C., Wang, Q., Zhao, Z.-D., Sui, Q.-L., Liu, S. -A., Liu, D., Mo, X.-X., 2014. Northward subduction of Bangong–Nujiang Tethys: Insight from Late Jurassic intrusive rocks from Bangong Tso in western Tibet, Lithos, 205: 284-297.
7. Wu, S., Zheng, Y.-Y., Sun, X., Liu, S. -A., Geng, R., You, Z., Ouyang, H., Lei, D., Zhao, Z., 2014. Origin of the Miocene porphyries and their mafic microgranular enclaves from Dabu porphyry Cu-Mo deposit, southern Tibet: implications for magma mixing/mingling and mineralization. International Geology Review, 56(5): 571-595.
6. Wang, S.-J., Li, S.-G., Liu, S. -A., 2013. The origin and evolution of low-δ18O magma recorded by multi-growth zircons in granite. Earth and Planetary Science Letters, 373, 233-241.
5. 贾黎黎; 王青; 朱弟成; 陈越; 吴兴源; 刘盛遨; 郑建平; 赵天培，2013, 重新认识西藏林周盆地基性岩石的地球动力学含义 ，岩石学报, 29(11), pp 3671-3680
4. 刘栋; 赵志丹; 朱弟成; 牛耀龄; 刘盛遨; 王青; 刘勇胜; 胡兆初，2013, 青藏高原南部拉萨地块中新世超钾质岩石中的锆石记录 ，岩石学报, 29(11), pp 3703-3715
3. 张立雪; 王青; 朱弟成; 贾黎黎; 吴兴源; 刘盛遨; 胡兆初; 赵天培，2013, 拉萨地体锆石Hf同位素填图：对地壳性质和成矿潜力的约束 ，岩石学报, 29(11), pp 3681-3688
2. He, Y.-S., Li, S.-G., Hoefs, J., Huang, F., Liu, S.-A., Hou, Z.-H., 2011. Post-collisional granitoids from the Dabie orogen: new evidence for partial melting of a thickened continental crust. Geochimica et Cosmochimica Acta, 75(13): 3815-3838.
1. 柯珊; 刘盛遨; 李王晔; 杨蔚; 滕方振, 2011, 镁同位素地球化学研究新进展及其应用, 岩石学报, 02, pp 383-397

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主持或参加科研项目：
1、国家自然科学基金委优秀青年基金项目，**，非传统稳定同位素地球化学，2017/01-2019/12，150万，在研，主持。
2、霍英东教育基金会青年教师基金，，埃迪卡拉-寒武纪时期古海洋环境和生命协同演化的Zn-Sr同位素研究，18万，2016/01-2017/12，在研，主持。
3、国家自然科学基金面上项目，**，高温岩浆过程中的Cu同位素分馏及其成矿作用示踪研究，2015/01-2018/12，95万元，在研，主持。
4、国家自然科学基金青年基金项目，**，华北东南缘徐-淮地区下地壳包体Pb-Nd-Hf-O-Mg同位素地球化学研究，2013/01-2015/12，已结题，主持。
5、国家973项目，2015CB452600，中国西南特提斯典型复合成矿系统及其深部驱动机制，2015/01-2019/12，在研，参加。
6、国家自然科学基金重点项目，**、深部碳循环的Ca-Mg 同位素示踪，2013/01-2017/12，在研，参加。

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主要获奖：
中国科协“青年人才托举工程”（2016）
国家优秀青年基金（2016）
第十五届霍英东教育基金会青年教师基金（2015）
全国百篇优秀博士论文提名奖（2013）
中科院优秀博士论文（2012）
中科院院长奖优秀奖（2011）

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主讲研究生课程《稳定同位素地球化学》，32学时，秋季学期；
主讲本科生课程《稳定同位素地球化学：理论与实践》，32学时，春季-秋季；
创新班课程：金属稳定同位素地球化学，春季；

硕士和博士研究生招生方向：地球化学、岩石学

在读研究生：
王泽洲，2014级硕士研究生，2016级博士研究生，地大基地班，硕博连读，主要从事深部碳循环的Zn-Mg同位素示踪研究，在Geology，EPSL，GCA发表3篇SCI论文；
李孟伦，2016级硕士研究生，2018级博士研究生，地大基地班，主要从事Zn-Cd同位素在生物成矿方面的示踪研究；
刘春阳，2016级硕士研究生，2018级博士研究生，地大地质班，主要从事Cr同位素方法及应用研究；
翟华烨，2016级硕士研究生，山东科技大学本科，主要从事火成碳酸岩Zn同位素地球化学研究；
刘 迪，2016级硕士研究生，地大地质班，主要从事华北克拉通中生代煌斑岩Mg-Zn同位素地球化学研究；
刘文然，2017级硕士研究生，2018级博士研究生，地质地质班，主要从事表生过程Cu-Zn同位素分馏的实验和应用研究；
杨 春，2017级硕士研究生，地大基地班，主要从事深部碳循环的Zn-Mg同位素示踪研究；
秦蓁蓁，2017级硕士研究生，地大本科，主要从事矿物吸附过程中的Zn-Cd同位素分馏实验研究；
马 蕾，2017级硕士研究生，安徽大学本科，主要从事青藏高原新生代幔源岩浆岩Zn-Mg同位素地球化学研究；
王照雪，2018级硕士研究生，中国石油大学（北京）本科，主要从事中国东部地幔包体Zn同位素地球化学研究；
马海波，2018级硕士研究生，东华理工大学本科，主要从事高温Cr同位素地球化学研究；
张子达，2015级本 科 生，地大创新班，已保研，主要从事Cr同位素在古环境方面的应用研究；
瞿瑗汝，2015级本 科 生，地大创新班，本-硕-博贯通，主要从事现代海洋的Cu-Zn同位素地球化学研究；
舒梓坦，2015级本 科 生，地大基地班，已保研，主要从事特提斯深部碳循环研究；
宋柯馨，2016级本 科 生，地大创新班，已保研，主要从事表生过程金属同位素分馏的实验研究；
吴天昊，2016级本 科 生，地大创新班，已保研，主要从事深部碳循环方面的研究工作；

已毕业研究生：
李丹丹，2012级博士研究生，2015年毕业，现中国地质大学（北京）科学研究院工作，助理研究员，主要从事Cd同位素地球化学研究，在CG和GGR发表2篇SCI论文；
吕逸文，2013级硕士研究生，2015级博士研究生，地大基地班，2017年3月-2018年1月在美国纽约城市大学学习，现在地大北京从事博士后研究，主要从事金属同位素在古环境方面的应用研究，在CG和GCA发表2篇SCI论文；
王 勋，2015级博士研究生，在读，2017年10月-2018年3月在美国纽约城市大学学习，现在中国地质科学院地质研究所从事博士后研究，主要从事Cu-Zn同位素古环境应用研究，在P3发表1篇国际SCI论文；

已毕业本科生：
张力钰，2014级本科毕业生，地大基地班，目前在中科院地质与地球物理所读博；以地大第一单位发表岩石学报一篇；
马 宁，2014级本 科 生，地大创新班，现在德国留学，主要从事高温高压实验岩石学研究；