黄瑞芳 博士

研究员，博士研究生导师

办公电话：

办公室：南沙园区1号楼307

电子邮箱: rfhuang@scsio.ac.cn

手机号码：15989052572

研究方向：

（1）高温高压实验；（2）超基性岩蛇纹石化反应机制，天然氢形成机理；（3）海底热液区无机成因氢气和烷烃形成机制。

个人简介：

黄瑞芳，研究员，博士生导师。2008年在中国科学技术大学获得本科学位，2012年在德国拜罗伊特大学拜仁地质研究所获得硕士学位，2014年在中国科学院广州地球化学研究所获得博士学位， 2014-2018年在中国科学院南海海洋研究所从事博士后研究，2018-2022年在南方科学技术大学前沿与交叉科学研究院工作，2023年6月以人才引进方式到南海海洋研究所工作。

主要从事超基性岩蛇纹石化反应机制实验研究，聚焦蛇纹石化速率以及氢气和烷烃的成因机制。蛇纹石化是地球上最重要的水岩相互作用之一，是宜居地球形成和生命起源的关键过程。蛇纹石化速率是制约俯冲带中蛇纹石比例和水含量的基本参数。蛇纹石化产生氢气和烷烃，氢气为海底热液区生命活动提供了物质和能量来源。在高影响力期刊Science Bulletin, GCA, American Mineralogist, JGR: Solid Earth, Geoscience Frontiers发表论文27篇，第一/通讯作者SCI论文20篇，SCI总引用1035次。

在研课题：

1. 中国科学院人才引进计划青年项目，2023/12-2026/12，项目负责人

2. 广州市南沙区重点科技计划，2023/12-2026/12, 项目负责人

论文及专著（*代表通讯作者）：

期刊论文

1. Huang, R. F., Sun, W. D., Ding, X., Zhao, Y. S., Li, Y. B. and Shang, X. Q. (2024) The influence of silica on reaction rates and molecular hydrogen (H₂) generation during olivine hydrothermal alteration at 300-500 °C and 3.0 kbar. Science China: Earth Sciences, 67: 222-233.

2. Shang, X.Q., Huang, R. F., Sun, W. D. (2023) Formation of ammonia through serpentinization in the Hadean Eon. Science Bulletin, 68(11): 1109-1112 (共同第一作者).

3. Huang, R. F., Shang, X. Q., Zhao, Y. S., Sun, W. D. and Liu, X. (2023) Effect of fluid salinity on reaction rate and molecular hydrogen (H₂) formation during peridotite serpentinization at 300 °C. Journal of Geophysical Research: Solid Earth, https:doi.org/10.1029/2022JB025218.

4. Shang, X.Q., Huang, R. F., Sun, W. D. (2023) An ammonia-methane dominated atmosphere in the Hadean Eon. Solid Earth Sciences, 8: 191-194 (共同第一作者).

5. Huang, R. F., Ding, X., Sun, W. D. and Shang, X. Q. (2021) Contrasted effect of spinel and pyroxene on molecular hydrogen (H₂) production during serpentinization of olivine. Minerals, 11, 794, https://doi.org/10.3390/min11080794

6. Huang, R. F., Sun, W. D., Ding, X., Zhao, Y. S. and Song, M. S (2020) Influence of pressure on the kinetics of peridotite serpentinization. Physics and Chemistry of Minerals, doi: 10.1007/s00269-020-01101-x

7. Huang, R. F., Sun, W. D., Song, M. S and Ding X. (2019) Influence of pH on molecular hydrogen (H₂) generation and reaction rates during serpentinization of peridotite and olivine. Minerals, 9, 661, doi:10.3390/min9110661 

8. Huang, R. F., Ding X., Lin, C. T., Zhan, W. H. and Ling, M. X. (2018) Effect of saline fluids on chlorine incorporation in serpentine. Solid Earth Sciences, 3: 61-66.

9. Huang, R. F., Song, M. S., Ding, X., Zhu, S. Y., Zhan, W. H., and Sun, W. D. (2017) Influence of pyroxene and spinel on the kinetics of peridotite serpentinization. Journal of Geophysical Research: Solid Earth, 122, doi:10.1002/2017JB014231

10. Huang, R. F., Lin, Q. T., Sun, W. D., Ding, X., Zhan, W. H., and Zhu, J. H. (2017) The production of iron oxide during peridotite serpentinization: Influence of pyroxene. Geoscience Frontiers, 8(6): 1311-1321.

11. Huang, R. F., Sun, W. D., Zhan, W. H., Ding X., Zhu, J. H. and Liu, J. Q. (2017) Influence of temperature, pressure, and fluid salinity on the distribution of chlorine into serpentine minerals. Journal of Asian Earth Sciences, 145: 101-110.

12. Huang, R. F., Sun, W. D., Liu, J. Z., Ding, X., Peng, S. B., and Zhan, W. H. (2016) The H₂/CH₄ ratio during serpentinization cannot reliably identify biological signatures. Scientific Reports, 6, 33821,doi:10.1038/srep33821

13. Huang, R. F. and Keppler, H. (2015) Anhydrite stability and the effect of Ca on the behavior of sulfur in felsic magmas. American Mineralogist, 100: 257-266.

14. Huang, R. F., Sun, W. D., Ding, X., Liu, J. Z., and Peng, S. B. (2015) Olivine versus peridotite during serpentinization: Gas formation. Science China: Earth Sciences, 58(12): 2165-2174.

15. Huang, R. F. and Audétat, A. (2012) The titanium-in-quartz (TitaniQ) thermobarometer: A critical examination and re-calibration. Geochimica et Cosmochimica Acta, 84: 75-89.

会议摘要/报告

[1] Huang, R. F., Sun, W. D. and Shang, X. Q. (2023) The effect of fluid salinity on the reaction rates and molecular hydrogen (H₂) formation during peridotite serpentinization, Goldschmidt 2023 Abstract,  https://doi.org/10.7185/gold2023.14124