Gender:Male
E-Mail:
Contact Information:gxzhuan@cug.edu.cn
Discipline:Mineralogy, Petrology, and Economic Geology tectonic geology

郭新转

Associate professor

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Degree:博士学位
Education Level:Doctoral Degree in Education
Alma Mater:冈山大学
Professional Title:Associate professor
School/Department:地质过程与矿产资源国家重点实验室

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简介郭新转博士,男,汉族,中共党员,中国地质大学(武汉)地质过程与矿产资源国重点实验室副教授,博士生导师。2003年在吉林大学本科毕业,2012年在日本冈山大学行星物质科学研究所获博士学位。2012-2014年在日本冈山大学受地球流体学会资助,担任特别研究员(博士后); 2014年至今在中国地质大学(武汉)任副研究员。2015年获评湖北省楚天学子。目前致力于壳幔物质在高温高压下的物性、相变、流变实验研究。主持国家自然科学基金面上项目1项、参于国家自然科学基金重大项目等多项。已在Geology、EPSL、GRL、Am. Miner.、PEPI、CMP等SCI杂志发表论文30余篇。个人信息地址:湖北省武汉市洪山区鲁磨路388号中国地质大学(武汉)邮箱:gxzhuan@cug.edu.cn电话:18062560550教育经历2008/10-2012/3,日本冈山大学,惑星物质研究所,博士,导师:芳野极2006/10-2008/9,日本岛根大学,地球科学系,硕士,导师:高须晃2003/10-2006/7,吉林大学,地球科学学院,硕士,导师:刘永江1999/9-2003/7,吉林大学,地球科学学院,学士,导师:刘永江工作经历1. 2014/04-至今,中国地质大学(武汉),地质过程与矿产资源国家重点实验室,副研究员2. 2012/4-2014/4,日本冈山大学,惑星物质研究所,博士后,合作导师:芳野极科研及人才项目1. 国家重大科研仪器研制项目,41827802,基于同步辐射X射线谱学的水热大腔体高温高压装置,2019/01/-2023/12,675万,在研,参加(排名第二)2. 国家自然科学基金面上项目,41472040, 高温高压下含盐水岩石的电导率实验研究:对地壳中的高电导率异常的启示, 2015/01-2018/12, 98万元,在研,主持3. 国家重点研发计划,2016YFC0600309, 青藏高原碰撞造山成矿系统深部结构与成矿过程,2016/07-2020/12, 768万元,在研,参加4. 国家自然科学基金重大项目,41590623, 水对壳幔矿物和岩石流变性质的影响与俯冲带地震成因, 2016/01-2020/12,422.5万元,在研,参加5. 湖北省“楚天学者”(“楚天学子”),2015年,地质学发表论文(1) Chen S., Guo* X., Yoshino T., Jin Z., Li P., 2018. Dehydration of phengite inferred by electrical conductivity measurements: Implication for the high conductivity anomalies relevant to the subduction zones. Geology, 46 (1): 11-14.(2) Li P., Guo* X., Chen S., Wang C., Yang J., Zhou X., 2018. Electrical conductivity of the plagioclase-NaCl-water system and its implication for the high conductivity anomalies in the mid-lower crust of Tibet Plateau. Contributions to Mineralogy and Petrology, 173:16. https://doi.org/10.1007/s00410-018-1442-9(3) Guo* X., 2016. Experimental study of the electrical conductivity of hydrous minerals in the crust and the mantle under high pressure and high temperature. Science China: Earth Sciences, 59:696-706.(4) Chen S., Guo* X., Zhou C., Jin Z., 2016. Negative pressure effect on the electrical conductivity of San Carlos olivine and its implication to the electrical structure in the upper mantle. Science China: Earth Sciences, 59: 2078-2088.(5) Guo X*., Yoshino T., Shimojuku A., 2015. Electrical conductivity of albite-(quartz)-water and albite-water-NaCl systems and its implication to the high conductivity anomalies in the continental crust. Earth and Planetary Science Letters, 412:1-9.(6) Guo* X., 2015. Reply to comments on “Electrical conductivity of albite–(quartz)–water and albite–water–NaCl systems and its implication to the high conductivity anomalies in the continental crust” by Guo, X., Yoshino, T. & Shimojuku, A. Earth and Planetary Science Letters 423, 246-247.(7) Guo* X., Yoshino T., 2014. Pressure-induced enhancement of proton conduction in brucite. Geophysical Research Letters, 41:813-819.(8) Guo* X., Takasu A., Liu Y., Li W., 2014. Zn-rich spinel in association with quartz in the Al-rich metapelites from the Mashan khondalite series, NE China. Journal of Earth Science, 25(2):207-223.(9) Guo* X., Yoshino T., 2013. Electrical conductivity of dense hydrous magnesium silicates with implication for conductivity in the stagnant slab. Earth and Planetary Science Letters, 369-370: 239-247.(10) Guo* X., Yoshino T., Okuchi T., Tomioka N., 2013. H-D interdiffusion in brucite at pressures up to 15 GPa. American Mineralogist, 98: 1919-1929.(11) Guo* X., Yoshino T., Katayama I., 2011. Electrical conductivity anisotropy of deformed talc rocks and serpentinites at 3 GPa. P...

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