黄建,男,1984年1月出生于安徽省阜阳市颍上县。2007年获淮北师范大学(原淮北煤炭师范学院)化学学士学位,2013年获中国科学技术大学地球化学博士学位,2010-2011年在德国哥廷根大学联合培养。2012-至今在中国科学技术大学历任博士后、特任副研究员、副教授、特任教授。主要从事金属稳定同位素(例如Mg、Fe、 Cu、Zn)和壳幔物质循环研究。在Geology、GCA、EPSL、JGR、CG、CMP、Lithos、JMG、NSR、《岩石学报》、《科学通报》和《地球科学》等国内外主流期刊上发表学术论文39篇,其中第一/通讯作者论文20篇(1篇论文入选ESI高被引论文)。作为项目负责人和科研骨干主持和参与多项国家自然科学基金。2019年入选中国科学院青年创新促进会;2019年荣获中国科学技术大学本科招生“先进个人”奖;2022年获得国家自然科学基金委优秀青年基金。
6. 国家自然科学基金委优秀青年基金:“金属稳定同位素示踪壳幔物质循环”(2023-2025),负责人
5. 国家重点研发项目“深部碳、氧循环的金属稳定同位素示踪技术”第二课题“深部碳循环的金属同位素示踪技 术”第三专题“金属同位素示踪太平洋俯冲带深部碳循环的检验”(2020-2025),负责人
4. 国家自然科学基金委面上基金项目:“原始地幔的Zn同位素组成和不同类型地幔交代过程中Zn同位素的分馏行 为”(2018-2021),负责人
3. 国家自然科学基金委面上基金项目:'华北克拉通东部新生代碱性玄武岩Mg-Ca-Sr同位素组成:制约深部循环碳 酸盐组成和玄武岩成因' (2016-2019),负责人
2. 国家自然科学基金委青年基金项目:'俯冲带变质流体中Ti-Nb-Ta迁移和分异的机制:大别-苏鲁超高压榴辉岩和 变质脉研究' (2014-2016),负责人
1. 中国博士后科学基金:'华南新生代大陆玄武岩Mg同位素研究及其地质意义'(2014-2016)(已结题),负责人
2007/7 – 2013/1, 中国科学技术大学, 地球化学, 博士
2010/11 – 2011/11, 德国哥廷根(Göttingen)大学, 地球化学系, 联合培养
2003/9 – 2007/7月, 淮北煤炭师范学院(现淮北师范大学), 化学专业,学士
2022/11– 现在, 中国科学技术大学, 特任教授
2020/4– 2022/11, 中国科学技术大学, 地球化学, 副教授
2015/2– 2020/4, 中国科学技术大学, 地球化学, 副研究员
2012/11 – 2015/1, 中国科学技术大学, 地球化学, 博士后
第一/通讯作者论文(*通讯作者)
20. Fang, S.-B., Huang,J*., Zhang, X.-C., Ionov, D., Zhao, Z.-F. and Huang, F. (2022) Zinc isotope fractionation in mantle rocks and minerals, and a revised δ66Zn value for theBulk Silicate Earth. Geochim. Cosmochim. Acta. 338, 79-92.
19. Huang, J*., Huang,J.-X., Griffin, W.L. and Huang, F. (2022) Zn-, Mg- and O-isotope evidence forthe origin of mantle eclogites from Roberts Victor kimberlite (Kaapvaal Craton,South Africa). Geology 50, 593-597.
18. Liang, W., Huang, J*., Zhang, G.and Huang, F. (2022) Iron isotopic fractionation during eclogite anatexis andadakitic melt evolution: insights into garnet effect on Fe isotopic variationsin high-silica igneous rocks. Contrib. Mineral. Petrol. 177, 33.
17. Zhang, X., Huang, J*., Gong, Y.,Zhang, L. and Huang, F. (2022) Climate influence on zinc isotope variations ina loess–paleosol sequence of the Chinese Loess Plateau. Geochim. Cosmochim.Acta. 321, 115-132.
16. Huang, J*., Guo, S., Jin, Q.-Z. and Huang, F. (2020) Iron and magnesium isotopic compositions of subduction-zone fluids and implications for arc volcanism. Geochim. Cosmochim. Acta. 278, 376-391.
15. Jin, Q.-Z., Huang, J*., Liu, S.-C. and Huang, F. (2020) Magnesium and zinc isotope evidence for recycled sediments and oceanic crust in the mantle sources of continental basalts from eastern China. Lithos, 105627.
14. 黄建*,肖益林,黄方. (2019),蚀变洋壳和俯冲带变质流体的Fe-Mg同位素组成. 地球科学,44(12:),1-7.
13. Huang, J*., Ackerman, L., Ackerman,Zhang X.-C., Huang, Fang (2019), Mantle Zn isotopic heterogeneity caused by melt-rock reaction: Evidence from Fe-rich peridotites and pyroxenites from the Bohemian Massif, Central Europe. J. Geophys. Res.Solid Earth, 124, 3588-3604.
12. Huang, J*.,S. Chen, X. C. Zhang, and F. Huang* (2018), Effects of Melt Percolation on ZnIsotope Heterogeneity in the Mantle: Constraints From Peridotite Massifs inIvrea‐Verbano Zone, Italian Alps, J. Geophys. Res. Solid Earth, 123, 2706-2722.
11. Huang, J*.,X.-C. Zhang, S. Chen, L. Tang, G. Wörner, H. Yu, and F. Huang* (2018), Zincisotopic systematics of Kamchatka-Aleutian arc magmas controlled by mantlemelting, Geochim. Cosmochim. Acta, 238,85-101.
10.Huang, J*., F. Huang*, Z. Wang,X. Zhang, and H. Yu (2017), Copper isotope fractionation during partial meltingand melt percolation in the upper mantle: Evidence from massif peridotites inIvrea-Verbano Zone, Italian Alps, Geochim. Cosmochim. Acta., 211,48-63.
9. Huang, J*., S.-A. Liu*, Y. Gao, Y. Xiao, and S. Chen(2016), Copper and zinc isotope systematics of altered oceanic crust at IODPSite 1256 in the eastern equatorial Pacific, J. Geophys. Res.-Solid Earth, 121, 7086-7100.
8. Huang, J*., S.-A. Liu*, G. Wörner, H. Yu, and Y.Xiao (2016), Copper isotope behavior during extreme magma differentiation anddegassing: a case study on Laacher See phonolite tephra (East Eifel, Germany), Contrib.Mineral. Petrol., 171, 1-16.
7. Huang, J*., and Y. Xiao (2016), Mg-Sr isotopes oflow-δ26Mg basalts tracing recycled carbonate species: Implicationfor the initial melting depth of the carbonated mantle in Eastern China, Int.Geol. Rev., 58, 1350-1362.
6. Huang, J., S.-G. Li*, Y. Xiao*, S. Ke, W.-Y. Li,and Y. Tian (2015), Origin of low δ26Mg Cenozoic basalts from SouthChina Block and their geodynamic implications, Geochim. Cosmochim. Acta., 164,298-317.
5. Huang, J*., S. Ke*, Y. Gao, Y. Xiao, and S. Li (2015),Magnesium isotopic compositions of altered oceanic basalts and gabbros fromIODP Site 1256 at the East Pacific Rise, Lithos, 231, 53-61.
4. Huang, J*., and Y. Xiao* (2015), Element mobility inmafic and felsic ultrahigh-pressure metamorphic rocks from the Dabie UHPOrogen, China: insights into supercritical liquids in continental subductionzones, Int. Geol. Rev., 57, 1103-1129.
3. Tian, Y., Huang, J*., Hui, Y. and Xiao, Y. (2015) Veins in ultrahigh-pressureeclogites from Chizhuang in the Sulu orogen, eastern China: Evidence forsupercritical fluids in continental subduction zones. Acta Petrol. Sinica 31,1818-1840.
2. Huang, J., Y. L. Xiao*, Y. J. Gao, Z. H. Hou, andW. P. Wu (2012), Nb–Ta fractionation induced by fluid-rock interaction insubduction-zones: constraints from UHP eclogite- and vein-hosted rutile fromthe Dabie orogen, Central-Eastern China, J. Metamorph. Geol., 30,821-842.
1. 黄建, 和 肖益林* (2013), 大陆俯冲带流体活动和元素迁移: 大别-苏鲁超高压变质岩和变质脉的研究, 科学通报,58,2180-2185.
合作者论文(*通讯作者)
19. Deng, G., Jiang,D., Zhang, R., Huang, J., Zhang, X. and Huang, F. (2022) Barium isotopes revealthe role of deep magmatic fluids in magmatic-hydrothermal evolution and tinenrichment in granites. Earth Planet. Sci. Lett. 594, 117724.
18. Yao, J., Huang, J. and Zhang, G.(2022) Zinc isotope constraints on carbonated mantle sources forrejuvenated-stage lavas from Kauaʻi, Hawaiʻi. Chem. Geol. 605, 120967.
17. Cai, R., Xu, S., A. Ionov, D., Huang, J., Liu, S.-A., Li, S. and Liu, J. (2022) Carbonated Big Mantle WedgeExtending
to the NE Edge of the Stagnant Pacific Slab: Constraints from Late.Journal of Earth Science 31, 121-132.
16. Wang,Y., He, Y*., Wu, H., Zhu, C., Huang, S. and Huang, J. (2019) Calcium isotope fractionation duringcrustal melting and magma differentiation: Granitoid and mineral-pairperspectives. Geochimica etCosmochimica Acta259, 37-52.
15. He, Y*.,Meng, X., Ke, S., Wu, H., Zhu, C., Teng, F.-Z., Hoefs, J., Huang, J., Yang, W., Xu, L., Hou, Z., Ren, Z.-Y. and Li, S.(2019) A nephelinitic component with unusual δ56Fe in Cenozoicbasalts from eastern China and its implications for deep oxygen cycle. Earth and Planetary Science Letters 512, 175-183.
14. Guo, H., Y. Xiao*, L. Xu, H. Sun, J. Huang, and Z. Hou (2017),Origin of allanite in gneiss and granite from central East China, JAsian Earth Sci., 135, 243-256.
13. Li, S.-G*., W.Yang*, S. Ke, X. Meng, H. Tian, L. Xu, Y. He, J. Huang, X.-C. Wang, Q. Xia, W. Sun, X. Yang, Z.-Y. Ren, H. Wei,Y. Liu, F. Meng, and J. Yan (2017),Deep carbon cycles constrained by a large-scale mantle Mg isotope anomaly ineastern China, National Sci. Rev., 4, 111-120.
12. Li, W.-Y*., F.-Z. Teng*, Y. Xiao, H.-O. Gu, X.-P. Zha,and J. Huang (2016), Empirical calibration of the clinopyroxene–garnet magnesiumisotope geothermometer and implications, Contrib. Mineral. Petrol., 171,1-14.
11. Li, W.-Y*., F.-Z. Teng*, Y. Xiao, and J. Huang (2011), High-temperature inter-mineral magnesium isotopefractionation in eclogite from the Dabie orogen, China, Earth Planet. Sci. Lett., 304,224-230.
10. Liu, S.-A*., Huang, J., Liu, J.G. Wörner, W. Yang, Y.-J. Tang, Y. Chen, L. Tang, J. Zheng,and S. Li (2015), Copper isotopiccomposition of the silicate Earth, Earth Planet. Sci. Lett., 427,95-103.
9. Liu, S.-A*., Z.-Z. Wang, S.-G. Li, J. Huang, and W. Yang (2016),Zinc isotope evidence for a large-scale carbonated mantle beneath easternChina, Earth Planet. Sci. Lett., 444, 169-178.
8. Wang, Z.-Z., S.-A. Liu*, J. Liu, J. Huang, Y. Xiao, Z.-Y. Chu, X.-M. Zhao, and L. Tang (2017), Zinc isotope fractionationduring mantle melting and constraints on the Zn isotope composition of Earth’supper mantle, Geochim. Cosmochim. Acta., 198, 151-167.
7. Wu, F., Y. Xiao*, L. Xu, M. Santosh, S. Li, J. Huang, Z. Hou, and F. Huang (2015), Geochronology and geochemistryof felsic xenoliths in lamprophyre dikes from the southeastern margin of theNorth China Craton: implications for the interleaving of the Dabie–Suluorogenic crust, Int. Geol. Rev., 57, 1305-1325.
6.Yu, H.-M., Y.-H. Li, Y.-J. Gao, J. Huang, and F. Huang (2018), Silicon isotopic compositions of altered oceanic crust:Implications for Si isotope heterogeneity in the mantle, Chem. Geol., 479,1-9.
5. Xiao, Y*., H. Sun, H. Gu, J. Huang, W. Li, and L. Liu (2015),Fluid/melt in continental deep subduction zones: Compositions and relatedgeochemical fractionations, Sci.China Earth Sci., 58,1457-1476.
4. Xiao, Y*., Huang, J., Liu, L. and Li, D. (2011)Rutile: An important reservoir for geochemical information. ActaPetrologica Sinica 27, 398-416.
3. 郭海浩, 肖益林*, 谷湘平, 黄建, 侯振辉, 和 刘海洋 (2014), 广东新丰稀土花岗岩中褐帘石LA-ICP-MS的U-Th-Pb定年研究, 地质学报, 88, 1025-1037.
2. 肖益林, 孙贺, 顾海欧, 黄建, 李王晔, 和 刘磊 (2015), 大陆深俯冲过程中的熔/流体成分与地球化学分异, 中国科学地球科学, 45, 1063-1087.
1. 黄方*, 陈福坤, 杨晓勇, 闫峻, 肖益林, 秦礼萍, 谢建成, 黄建, 汪方跃, 沈骥, 邓江洪,和杨一增 (2017), 古太平洋构造域的岩浆作用与成矿. 矿物岩石地球化学通报 36, 551-556.