导师信息
熊发挥
熊发挥 男,研究员
研究方向:火成岩岩石学和矿物学
Add:北京市西城区阜外百万庄大街26号地质研究所,100037
Tel: 010-68990674 E-mail:xiongfahui@126.com
个人经历:
教育经历:
2010/6-2013/6,中国地质科学院,专业:矿物学、岩石学、矿床学,博士
2007/9-2010/6,成都理工大学,地球科学学院地质系保送研究生,专业:矿物学、岩石学、矿床学,硕士
2003/9-2007/6,成都理工大学,地球科学学院地质系,专业:地质学,学士
科研与学术工作经历:
2023/12-至今,中国地质学会-岩石专业委员会秘书长
2025/09-至今,中国地质学会-矿物专业委员会委员
2021/12-至今,中国地质学会-纳米地质专业委员会委员
2025/04-至今,中国矿物岩石地球化学学会-矿物物理矿物结构专业委员会委员
2025/04-至今,中国矿物岩石地球化学学会-地幔矿物岩石地球化学专业委员会委员
2021/12-至今,中国矿物岩石地球化学学会-新矿物及矿物命名专业委员会委员
2025/12 -至今,山东科技大学兼职教授
2025/04 -至今,成都理工大学兼职教授
2020/10/20 -至今,中国地质科学院地质研究所,破格研究员
2017/1/1-2020/10/19,中国地质科学院地质研究所,副研究员
2013/7-2016/12,中国地质科学院地质研究所,助理研究员
承担项目:
1\.国家自然基金重点项目,西藏豆荚状铬铁矿成矿条件与地幔新矿物成因研究,2024/1-2027/12,主持
2\.国家重点研究发计划课题,蛇绿岩中Cr-PGE-Ni聚集与成矿,2023/12-2028/11,主持
3\.国家自然基金重点项目,内蒙古中部蛇绿岩成因及其铬铁矿富集机制,2026/1-2029/12,骨干
4\.国家深地专项研究发计划,专题,西藏班怒带东段和雅江带西段蛇绿岩岩体成氢研究与评价,2025/05-2029/06,主持
5\.西藏自治区科学技术厅,专题,罗布莎-康金拉矿集区铬铁矿深部勘查技术创新及增储示范,2024/10-2027/12,主持
6\.国家自然基金面上项目,阿尔巴尼亚布尔齐泽铬铁矿中不同类型矿物包裹体的氧逸度特征及指示意义,2022/1-2025/12,主持
7\.中国地质调查项目,专题,北山地区铬铁矿战略性矿产调查评价,2024/1-2026/12,主持
8\.科技部青藏高原第二次科学考察专项,子课题,豆荚状铬铁矿中包裹体的成因研究,2019/1-2024/12,主持
9\.国家自然科学基金青年项目,西藏普兰蛇绿岩中不同类型铬铁矿的铂族矿物特征及成因,2016/1-2018/12,主持
10\.中国地质调查项目,子项目,青藏高原铬铁矿综合调查与普兰岩体调查,2017/1-2018/12 ,主持
11\.国家重点研究计划,青藏高原深部过程与碰撞造山成矿作用, 子课题, 大陆碰撞带深地幔过程与铬铁矿成因, 2016/1-2020/12,主持
12\.中国地质调查项目,二级项目,西藏雅江与班怒成矿带铬铁矿综合调查,2015/1-2018/12,副负责
研究领域:
1\.蛇绿岩与铬铁矿的成因
2\.超基性岩及相关矿产
3\.地幔矿物学和实验岩石学
获奖及荣誉:
1\.侯德封矿物岩石地球化学青年科学家奖 (2024)
2\.国家级高层次青年人才(2022)
3\.自然资源部科技领军人才(2024)
4\.自然资源系统青年突击标兵(2024)
5\.自然资源部青年科技人才(2021)
6\.中国地质调查局-中国地质科学院 2019年度地质科技十大进展奖(2020)
7\.第五届中国科协优秀科技论文奖(2020)
8\.中国地质调查局优秀地质人才计划(2019)
代表性论著:
**代表性矿物:**
发现并命名10种新矿物:经绥矿 TiB2,志琴矿 TiSi2,巴登珠矿 TiP,康金拉矿 Ti11Si10,沃德贡杰石 KCa3(Al7Si9)O32,波尔-罗宾逊矿 Ti8Fe4O2和王希斌矿 TiFe等。
**代表性论文**:
1\.**Xiong, F.H.**, Wirth, R., Zoheir, B., Dilek, Y., Xu, X.Z., Qiu, T., Gui, W.B., Xie, H.D., 2026. Melt infiltration and redox heterogeneity in the upper mantle: Evidence from Fe–FeO–Fe3C assemblages in Luobusa chromitite (Southern Tibet). **American Mineralogist**, https://doi.org/1010.2138/am-2025-9860
2.Gui, W.B., Liu, J.**\***, Hu, J., **Xiong, F.H.#\***, Shen, K.W., Tian, Y.J., 2025.Conductivity-elevated by Brucite Amorphization and Implication for Electrical Anomalies in Shallow Subduction Zones. **Communications Earth \& Environment,** 6, 970
3\.**Xiong, F.H.**, Mugnaioli, E., Xu, X.Z., Yang, J.S., Wirth, R., Grew, E.S.\*, Yates, M., 2025. Maurogemmiite, Ti10Fe3O3 and paulrobinsonite, Ti8Fe4O2: new minerals in a coesite-bearing fragment from the Luobusa ophiolite, Tibet, China. **Mineralogical Magazine**, 1-17, https://doi.org/10.1180/mgm.2025.10169
4\.**Xiong, F.H.**, Meng, Y.K., Xu, X.Z., Qiu, T., Gui, W.B., Xie, H.D., Yang, J.S. 2025. Geochronological framework and tectonic evolution of the Luobusa ophiolite, southern Tibet. **Geological Society of America Bulletin**, https://doi.org/10.1130/B38324.1
5\.**Xiong, F.H.**, Zoheir, B., Meert, J., Qiu, T., Xu, X.Z., Ma, X.X., Muilushi, I., Yang, J.S., 2025. Multistage melt–rock interaction and redox evolution during chromitite formation in the Bulqiza ophiolite (Albania): Constraints from M?ssbauer spectroscopy, Fe–Mg isotope systematics and chromitite geochemistry. **Chemical Geology**, 692, 122948
6\.**Xiong, F.H.**, Zoheir, B., Xu, X.Z., Qiu, T., Gui, W.B., Xie, H.D., Yang, J.S., 2025. Role of mantle dynamics and geochemical diversity in chromitite formation: New perspectives from the Luobusa ophiolite, SW Tibet. **Mineralium Deposita**, 60, 1689-1712
7\.**Xiong, F.H.**, Zoheir, B., Xu, X.Z., Liu, Z., Qiu, T., Yang, J.S., 2025.Tracing mantle metasomatism: Geochemical and isotopic clues from Neo-Tethyan supra-subduction zone ophiolite. **Geological Society of America Bulletin**, 137: 4629-4648.
8.Gui, W.B., Liu, J.**\***, Deng, A., Hu, J., Sun, P.H., Fan, C.Z., **Xiong, F.H.#\***, 2025. Disorder and Fe-Mg Substitution in Brucite: Implication for the Subduction-Zone Water Cycle. **American Mineralogist**, 110: 1667-1676
9\.**Xiong, F.H.**, Zoheir, B., Qiu, T., Xu, X.Z., Gui, W.B., Yang, J.S., 2025. Unveiling solid-phase transfer in subduction zones: Evidence from Ti-oxides in Luobusa ophiolitic chromitite. **Lithos**, 494-495, 107892.
10\.**Xiong, F.H.**, Zoheir, B., Xu, X.Z., Qiu, T., Yan, J.Y., Zhang, B.Y., Guo, G.L., Yang, J.S., 2024. Geochemical characteristics of mineral inclusions in the Luobusa chromitite (Southern Tibet): Implications for an intricate geological setting. **American Mineralogist**, 109, 2127-2141
11\.**Xiong, F.H.**, Zoheir, B., Xu, X.Z., Qiu, T., Yan, J.Y., Zhang, B.Y., Guo, G.L., 2023. Atypical chromitite deposit in the Gaositai mafic-ultramafic complex, North China Craton: Geochemical, geochronological, and isotopic systematics. **Lithos**, 107388
12\.**Xiong, F.H.**, Zoheir, B., Robinson, P.T., Wirth, R., Xu, X.Z., Qiu, T., Sun, Y. 2023. Microchemistry and magnesium isotope composition of the Purang ophiolitic chromitites (SW Tibet): New genetic inferences. **American Mineralogist**, 108, 1117-1131.
13.Zhang, B.Y., Zoheir, B., Zhang, C.J., Mu, X.P., Xu, X.Z., Qiu, T., **Xiong, F.H.#\***, 2023. Coexisting High-Al and High-Cr chromitites in the Dingqing ophiolite (SE Tibet): Inferences to Compositional Heterogeneity in the Tethyan upper mantle. **Minerals**, 13(9), 1234.
14.Xu, X.Z., **Xiong, F.H.#\***, Zoheir, B., Yan, J.Y., Zhang, B.Y., Zhang, R., Yang, J.S., 2023. Magmatic processes in the formation of the Yilashan chromitite, central Tibet: geochemical and geochronological constraints. **Ore Geology Reviews**, 105283
15.Xu, X.Z., Zoheir, B., Yang, J.S.**\***, **Xiong, F.H.#\***, Guo, G.L., Feng, GY., Li, Z.L., Li, T.F., 2023. Insights into an oceanic mantle-crust section: Results of the Luobusa ophiolite drilling, southeastern Tibet. **Lithos**, 106947.
16\.**Xiong, F.H.**, Xu, X.Z., Mugnaioli, E., Gemmi, M., Wirth, R., Yang, J.S., Grew, E.S., 2023. Wenjiite, Ti10(Si,P,?)7, and kangjinlaite, Ti11Si10, new minerals in the ternary Ti-P-Si system from the Luobusa ophiolite, Tibet, China. **American Mineralogist**, 108, 197-210.
17\.**Xiong, F.H.**, Xu, X.Z., Zoheir, B., Lenaz, D. Yang, J.S. 2022.Genesis and evolution of the K?ycegiz ophiolite (SW Turkey): Mineralogical and geochemical characteristics of associated podiform chromitite. **Ore Geology Reviews**, 145, 104912.
18\.**Xiong, F.H.**, Xu, X.Z., Mugnaioli, E., Gemmi, M., Wirth, R., Grew, E.S., Robinson, P.T., 2022. Jingsuiite, TiB2, a new mineral from the Cr-11 podiform chromitite orebody, Luobusa ophiolite, Tibet, China: Implications for recycling of boron. **American Mineralogist**, 107: 43-53.
19\.**Xiong, F.H.**, Zoheir, B., Wirth, R., Milushi, I., Qiu, T., Yang, J.S., 2021. Mineralogical and isotope peculiarities of high-Cr chromitites: Implications for a mantle convection genesis of the Bulqiza ophiolite. **Lithos**, 398-399, 106305
20\.**Xiong, F.H.**, Xu, X.Z., Mugnaioli, E., Gemmi, M., Wirth, R., Grew, E.S., Robinson, P.T., Yang, J.S., 2020. Two new minerals, badengzhuite, TiP, and zhiqinite, TiSi2, from the Cr-11 chromitite orebody, Luobusa ophiolite, Tibet, China: is this evidence for super-reduced mantle-derived fluids?**European Journal of Mineralogy**, 32, 557-574
21\.**Xiong, F.H.**, Zoheir, B., Robinson, P.T., Yang, J.S., Xu, X.Z., Meng, F.C., 2020. Genesis of the Ray-Iz chromitite, Polar Urals: Inferences to mantle conditions and recycling processes. **Lithos**, 396-397, 105699
22\.**Xiong, F.H.**, Yang, J.S., Schertl, H.P., Liu, Z., Xu, X.Z., 2020. Multi-stage origin of dunite in the Purang ophiolite, southern Tibet, documented by composition, exsolution and Li isotope characteristics of constituent minerals. **European Journal of Mineralogy**, 32, 187-207
23\.**Xiong, F.H.**, Dilek, Y., Xu, X.Z., Yang, J.S., 2020. Opx–Cpx exsolution textures in lherzolites of the Cretaceous Purang Ophiolite(S. Tibet, China), and the deep mantle origin of Neotethyan abyssal peridotites. **International Geology Review**, 62, 665-682.
24\.**Xiong, F.H.**, Meng, Y.K., Yang, J.S., Liu, Z., Xu, X.Z., Eslami, A., Zhang, R., 2020. Geochronology and petrogenesis of the mafic dykes from the Purang ophiolite: Implications for evolution of the western Yarlung-Tsangpo suture zone, southwestern Tibet. **Geoscience Frontiers**, 11, 277-292.
25\.**Xiong, F.H.**, Liu, Z., Kapsiotis, A., Yang, J.S., Lenaz, D., Robinson, P.T., 2019. Petrogenesis of lherzolites from the Purang ophiolite, Yarlung-Zangbo Suture Zone, Tibet: origin and significance of ultra-high pressure and other “unusual” minerals in the Neo-Tethyan lithospheric mantle. **International Geology Review**,17, 2184-2210.
26\.**Xiong, F.H.**, Yang, J.S., Dilek, Y., Xu, X.Z., Zhang, Z.M., 2018. Origin and Significance of Diamonds and Other Exotic Minerals in the Dingqing Ophiolite Peridotites, Eastern Bangong-Nujiang Suture Zone, Tibet. **Lithosphere**, 10: 142-155.
27\.**Xiong, F.H.**, Yang, J.S., Dilek, Y., Wang, C.L., 2018. Petrology and geochemistry of the high-Cr podiform chromitites of the K?ycegiz ophiolite, southwest Turkey: Implications for the multi-stage evolution of the oceanic upper mantle. **Mineralogy and Petrology**, 112, 685-704
28\.**Xiong, F.H.**, Yang, J.S., Robinson, P.T., et al. 2017. High-Al and high-Cr podiform chromitites from the western Yarlung-Zangbo suture zone, Tibet: Implications from mineralogy and geochemistry of chromian spinel, and platinum-group elements. **Ore Geology Reviews**, 80: 1020-1041
29\.**Xiong, F.H.**, Yang, J.S., Robinson, P.T., Dilek, Y., Milushi, I., Xu, X.Z., Chen, Y.H., Zhou, W.D., Zhang, Z.M., Lai, S.M., Tian, Y.Z., Huang, Z., 2015. Petrology and geochemistry of high Cr podiform chromitites of Bulqiza, Eastern Mirdita Ophiolite (EMO), Albania. **Ore Geology Reviews**, 70: 188-207
30\.**Xiong, F.H.**, Yang, J.S., Robinson, P. T., Xu, X.Z., Liu, Z., Li, Y., Li, J.Y., Chen, S.Y., 2015. Origin of podiform chromitite, a new model based on the Luobusa ophiolite, Tibet. **Gondwana Research**, 27: 525-542
31\.**熊发挥**, 龚小晗,邱添,徐向珍,桂维彬,杨经绥. 2025. 豆荚状铬铁矿中不同类型矿物成因及其对成矿过程的制约.矿物岩石地球化学通报, 44: 992-1007,**侯奖论文**
社会兼职及学术机构任职:
中国矿物岩石地球化学学会-新矿物及矿物命名专业委员会委员;
中国地质学会-纳米地质专业委员会委员;中国地质学会-岩石专业委员会委员;
山东科技大学客座教授;
China Geology 青年编委
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