郝记华

邮箱:
hao@ustc.edu.cn
个人简介
郝记华,男,1991年生于山东省莘县。中国科学技术大学地球和空间科学学院特任研究员。研究方向包括地球早期表生化学循环,生命起源和演化,高温高压水-岩反应,地球和行星条件下光化学,太阳系冰卫星海水化学等。
学习经历
2012年8月-2016年11月 约翰霍普金斯大学(JHU),地球与行星科学系,地球化学,硕士及博士。
2008年8月-2012年七月 中国科学技术大学,地球与空间科学学院,环境科学,学士。
工作经历

2021年1月-今,中国科学技术大学,地球与空间科学学院,特任研究员

2019年9月-2020年12月,美国罗格斯大学,海洋与近海科学系,博士后

2016年12月-2019年8月,法国里昂一大,地质系,博士后

发表文章

Hao*, J., Knoll, A.H., Fang, H., Schieber, J., Hazen, R.M., Daniel, I. (2020) Cycling of phosphorus on the Archean Earth: Part II. Phosphorus Limitation on Primary Production in Archean Ecosystems. Geochimica et Cosmochimica Acta, 280, 360-377.

Hao*, J., Knoll, A.H., Fang, H., Hazen, R.M., Daniel, I. (2020) Cycling of phosphorus on the Archean Earth: Part I. Continental weathering and riverine transport of phosphorus. Geochimica et Cosmochimica Acta, 273, 70-84.

Moore#, E.K., Hao#, J., Spielman, S.J., Yee, N. (2020) The Evolving Redox Chemistry and Bioavailability of Vanadium in Deep Time (*co-first author). Geobiology 18(2), 127-138. #共同第一作者)

Hao*, J., Sverjensky, D.A., and Hazen, R.M. (2019) Redox states of Archean surficial environments: the importance of H2,g instead of O2,g for weathering reactions. Chemical Geology, 521, 49-58.

Hao*, J., Mokhtari, M., Pedreira-Segade, U., Michot, L.M., and Daniel#, I. (2019) Transition metals enhance the adsorption of nucleotides onto clay: implications for the origin of life. ACS Earth and Space Chemistry, 3(1), 109-119.

Hao*, J., Giovenco, E., Pedreira-Segade, U., Montagnac, G., Daniel, I. (2018) Compatibility of amino acids in ice Ih: implications for the origin of life. Astrobiology, 18, 381-392. Featured and cover article

Hao*, J., Sverjensky, D.A., and Hazen, R.M. (2017) Mobility of nutrients and trace elements during weathering on the Archean. Earth and Planetary Science Letters, 478, 148-159.

Hao*, J., Sverjensky, D.A. and Hazen, R.M. (2017) A model for late Archean chemical weathering and world average river water. Earth and Planetary Science Letters, 457, 191-203.

Tang, M., Chu, X., Hao, J., Shen, B. Orogenic quiescence in Earth’s middle age. Science (in press)

Montagnac, G., Hao, J., Pedreira-Segade, U., Daniel, I. (2021) Detection of nucleotides absorbed onto clay by UV Resonant Raman Spectroscopy: a step towards the search for biosignatures on Mars. Applied Clay Science, 200, 105824.

Huang, F., Barbier, S., Tao, R., Hao, J., and others. (2020) Dataset for H2, CH4 and organic compounds formation during experimental serpentinization. Geoscience Data Journal.

Liu, W., Hao, J., Yee, N., Elzinga, E.J., Piotrowiak, P., Nanda, V., Falkowski, P. (2020) Anoxic photogeochemical oxidation of manganese carbonate yields manganese oxide. Proceedings of National Academy of Sciences. USA 117(37).

周强,姜允斌,郝记华,季峻峰,李伟# (2020) 磷的生物地球化学循环研究进展, 高校地质学报 (已接收)

Huang#, F., Barbier, S., Tao, R., Hao, J., et al. (2020) A review of H2, CH4 and hydrocarbon formation in experimental serpentinization using network analysis, Frontiers in Earth Science 8

Mignon#, P., Corbin, G., Le Crom, S., Marry, V., Hao, J., Daniel, I. (2020) Adsorption of Nucleotides on Clay Surfaces. Effects of mineral composition, pH and solution salts. Applied Clay Science, 190, 105544.

Huang#, J., Hao, J., Huang, F., Sverjensky, D. (2019) Mobility of chromium in high-temperature crustal and upper mantle fluids. Geochemical Perspectives Letters 12, 1-6.

Pedreira-Segade#, U., Hao, J., Montagnac, G., Cardon, H., Daniel, I. (2019) Spontaneous polymerization of glycine under hydrothermal conditions. ACS Earth and Space Chemistry, 3(8), 1669-1677.

Pedreira-Segade, U., Hao, J., Razafitianamaharavo, A., Pelletier, M., Marry, V., Le Crom, S., Michot, L., Daniel#, I. (2018) How do nucleotides adsorb onto clays? Life, 8(4), 59.

Moore#, E.K., Hao, J., Prabhu, A., Zhong, H., Jelen, B.I., Meyer, M., Hazen, R.M., Falkowski, P.G. (2018) Geological and chemical factors that impacted the biological utilization of cobalt in the Archean era. Journal of Geophysical Research: Biogeosciences, 123, 743-759.

Estrada#, C.F., Mamajov, I., Hao, J., Sverjensky, D.A., Cody, G.D., Hazen, R.M. (2017) Aspartate transformation at 200 °C with brucite [Mg(OH)2], NH3, and H2: implications for prebiotic molecules in hydrothermal systems. Chemical Geology, 457, 162-172. Invited research article