张爱铖
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资料介绍
个人简历
1978年生,教授,博士研究生导师。2001年和2005年分别获得南京大学地球科学系理学学士和博士学位。2005-2010年为中科院紫金山天文台创新副研究员,期间曾在美国田纳西大学访学半年。2010年入职南京大学教授,2011-2013年为日本学术振兴会外国人特别研究员(博士后),2014年获聘博士生导师资格。2012年中国矿物岩石地球化学学会侯徳封青年科学家奖。2017年获得江苏省杰出青年基金资助和入选南京大学登峰人才支持计划,2020年获得国家杰出青年基金项目资助。目前,主要从事陨石和深空探测返回样品的矿物学和地球化学研究,探索太阳星云和行星演化的过程与历史。教育经历2001.9-2005.6南京大学地球科学系矿物学博士研究生(导师:王汝成教授)1997.9-2001.6南京大学地球科学系地质学本科生工作经历2019.01-2020.12中科院比较行星学卓越创新中心 高级研究员(兼)日本Hayabusa2计划返回样品分析团队成员2011.7-2013.6日本北海道大学理学研究院博士后研究员(合作导师:Hisayoshi Yurimoto教授)2010.5至今南京大学地球科学与工程学院教授(2014年获得博导资格)2008.11-2009.5美国田纳西大学地球与行星科学系访问学者(合作导师:Lawrence A. Taylor教授)2005.6-2010.4中科院紫金山天文台创新副研究员(徐伟彪研究员课题组)主持科研项目-国家自然科学基金杰出青年基金:行星矿物学与地球化学(2021.1-2025.12)-国家自然科学基金面上项目:苏长质Diogenite陨石成因研究(2020.1-2023.12)-江苏省自然科学基金杰出青年基金:小行星空间风化的类型、机制及其空间探测意义(2017.7-2020.6)-国家自然科学基金面上项目:HED陨石高强度冲击变质的矿物学与年代学制约(2017.1-2020.12)-国家自然科学基金面上项目:3型碳质球粒陨石DaG 978中粗粒磷灰石的矿物学-地球化学特征及对早期太阳系蚀变流体的限定(2014.1-2017.12)-国家自然科学基金面上项目:CM群球粒陨石中含磷含氧硫化物相的成因及天体化学意义(2011.1-2013.12)-国家自然科学基金青年基金项目:CH群碳质球粒陨石中难熔包体和富铝球粒的成因及对早期太阳系过程对揭示(2008.1-2010.12)主要学术成果 -在月球角砾岩中发现了Tissintite和刚玉,限定了月壤撞击成岩的压力特征(Zhang et al., 2021)-在灶神星陨石中发现刚玉捕虏晶,为灶神星复杂内部演化历史提供了重要证据(Li et al., 2020)-首次获得月球Loveringite晶体结构信息,解决了自阿波罗样品返回以来的矿物鉴定难题(Zhang et al., 2020)-在原始球粒陨石中发现了一种类似Angrite陨石(分异型陨石)的星子新类型(Zhang et al., 2020)-提出了高温熔体中矿物粘附生长机制(Zhang et al., 2019)-发现了新矿物Vestaite(灶神星矿),这是在灶神星陨石中发现的首个新矿物(Pang et al., 2018) -提出了富磷橄榄石的交代成因机制(Li et al., 2017) -发现了小行星较晚流体活动的年龄学证据,提出了流体活动的天体撞击诱导成因机制(Zhang et al., 2016) -发现了太阳系成因的Ti3O5矿物相,成为支持太阳星云高温平衡冷凝模型的又一重要证据(Zhang et al., 2015) -从矿物学、微量元素和氧同位素三个角度证实了富铝球粒的混合成因,为认识难熔包体和球粒物质的相互作用以及球粒-星云气体同位素交换提供了重要证据(Zhang et al., 2014) -发现了灶神星陨石中多种类型的硫化物交代结构,揭示了其对灶神星演化的重要价值(Zhang et al., 2013, 2018, 2020; Wang et al., 2019) -重新厘定了阿波罗12号着陆区KREEP岩石的结晶年龄,提出了月球42亿年前曾存在大规模撞击事件(Zhang et al., 2012) -首次在月球样品中观察到锆石的冲击熔融重结晶和分解现象,成为解决其寄主岩石成因分类国际争论的独立证据(Zhang et al., 2011) 开授课程《结晶学与矿物学》 《陨石学概论》 《矿物物理与化学》(张爱铖,谢志东) 《现代矿物学理论及应用》(王汝成,陆现彩,张爱铖) 《地质学研究方法》之“电子背散射衍射与二次离子质谱仪” 《现代地球科学前沿》之“太阳星云尘埃的形成与演化” 《现代地球科学前沿》之“天体撞击与行星演化”《矿物学进展》(王汝成,蔡元峰,张爱铖)科研项目-国家自然科学基金杰出青年基金:行星矿物学与地球化学(2021.1-2025.12)-国家自然科学基金面上项目:苏长质Diogenite陨石成因研究(2020.1-2023.12)-江苏省自然科学基金杰出青年基金:小行星空间风化的类型、机制及其空间探测意义(2017.7-2020.6)-国家自然科学基金面上项目:HED陨石高强度冲击变质的矿物学与年代学制约(2017.1-2020.12)-国家自然科学基金面上项目:3型碳质球粒陨石DaG 978中粗粒磷灰石的矿物学-地球化学特征及对早期太阳系蚀变流体的限定(2014.1-2017.12)-国家自然科学基金面上项目:CM群球粒陨石中含磷含氧硫化物相的成因及天体化学意义(2011.1-2013.12)-国家自然科学基金青年基金项目:CH群碳质球粒陨石中难熔包体和富铝球粒的成因及对早期太阳系过程对揭示(2008.1-2010.12)荣誉奖励-2017年-南京大学登峰人才支持计划-2012年-中国矿物岩石地球化学学会侯德封青年科学家奖 -2011年-日本学术振兴会JSPS特别研究员 -2011年-教育部自然科学一等奖(排名第二) -2010年-南京大学青年骨干教师研究领域
陨石与深空探测返回样品-微纳米矿物相的原位表征和同位素分析-太阳星云中固体物质的形成与演化-月球及小行星的演化过程与历史""近期论文
45-Zhang AC, Jiang QT(本科生), Tomioka N, Guo YJ, Chen JN, Li Y, Sakamoto N, and Yurimoto H. 2021. Widespread tissintite in strongly shock-lithified lunar regolith breccias. Geophysical Research Letters, 48, e2020GL091554. doi: 10.1029/2020GL091554.44-Xiong Y(硕士生), Zhang AC, Kawasaki N, Ma C, Sakamoto N, Chen JN, Gu LX, and Yurimoto H. 2020. Mineralogical and oxygen isotopic study of a new ultrarefractory inclusion in the Northwest Africa 3118 CV3 chondrite. Meteoritics & Planetary Science, 55, 2184-2205.43-Li JY(硕士生), Zhang AC, Sakamoto N, Yurimoto H, Gu LX. 2020. A new occurrence of corundum in eucrite and its significance. American Mineralogist, 105, 1656-1661.42-Zhang AC, Kawasaki N, Kuroda M, Li Y(硕士生), Wang HP, Bai XN, Sakamoto N, Yin QZ, Yurimoto H. 2020. Unique angrite-like fragments in a CH3 chondrite reveal a new basaltic planetesimal. Geochimica et Cosmochimica Acta, 275, 48-63.41-Zhang AC, Kawasaki N, Bao H, Liu J, Qin L, Kuroda M, Gao JF, Chen LH, He Y, Sakamoto N, Yurimoto H. 2020. Evidence of metasomatism in the interior of Vesta. Nature Communications, 11, 1289. DOI: 10.1038/s41467-020-15049-7.40-Zhang AC, Pang RL(博士生), Sakamoto N, Yurimoto H. 2020. Cr-Zr-Ca armalcolite in lunar rocks is loveringite: Constraints from electron backscatter diffraction. American Mineralogist, 105, 1021-1029.39-Pang RL(博士生), Harries D, Pollok K, Zhang AC, Langenhorst F. 2019. Unique mineral assemblages of shock-induced titanium-rich melt pockets in eucrite Northwest Africa 8003. Geochemistry(formerly Chemie der Erde), 79, 125541.38-Chen DL(硕士生), Zhang AC, Pang RL(博士生), Chen JN, Li Y. 2019. Shock-induced phase transformation of anorthitic plagioclase in the eucrite meteorite Northwest Africa 2650. Meteoritics & Planetary Science, 54, 1548-1562.37-Wang SZ(硕士生), Zhang AC, Pang RL(博士生), Li Y, Chen JN. 2019. Possible records of space weathering on Vesta: Case study in a brecciated eucrite Northwest Africa 1109. Meteoritics & Planetary Science, 54, 836-849.36-Zhang AC, Wang SZ(硕士生), Tomioka N, Lu XC, Ding ZY, Ma C, Wang P, Chen JN, Xu S, Gu LX, Bai YQ, Li Y, Sakamoto N, Wang RC. 2019. An example of high-T, high-symmetry crystallization: Spherical (Mg,Fe)-oxides formed by particle attachment in the shocked Martian meteorite Northwest Africa 7755. American Mineralogist, 104, 150-157. 35-Pang RL(博士生), Harries D, Pollok K, Zhang AC, Langenhorst F. 2018. Vestaite, (Ti4+Fe2+)Ti4+3O9, a new mineral in the shocked eucrite Northwest Africa 8003. American Mineralogist, 103, 1502-1511. 34-Zhang AC, Bu YF(本科生), Pang RL(博士生), Sakamoto N, Yurimoto H, Chen LH, Gao JF, Du DH, Wang XL, Wang RC. 2018. Origin and implications of troilite-orthopyroxene intergrowths in the brecciated diogenite Northwest Africa 7183. Geochimica et Cosmochimica Acta, 220, 125-145. 33-Wang SZ(硕士生), Zhang AC, Pang RL(博士生), Chen JN, Gu LX, and Wang RC. 2017. Petrogenesis and shock metamorphism of the enriched lherzolitic shergottite Northwest Africa 7755. Meteoritics & Planetary Science, 52, 2437-2457. 32-Pang RL(博士生), Zhang AC, Wang RC. 2017. Complex origins of silicate veinlets in HED meteorites: A case study of Northwest Africa 1109. Meteoritics & Planetary Science, 52, 2113-2131. 31-Li Y(硕士生), Zhang AC, Chen JN, Gu LX, Wang RC. 2017. Formation of phosphorus-rich olivine in Dar al Gani 978 carbonaceous chondrite through fluid-assisted metamorphism. American Mineralogist, 102, 98-107. 30-Zhang AC, Li QL, Yurimoto H, Sakamoto N, Li XH, Hu S, Lin YT, Wang RC. 2016. Young asteroidal fluid activity revealed by absolute age from apatite in carbonaceous chondrite. Nature Communications, 7:12844. doi: 10.1038/ncomms12844. 29-Pang RL(博士生), Zhang AC, Wang SZ, Wang RC, Yurimoto H. 2016. High-pressure minerals in eucrite suggest a small source crater on Vesta. Scientific Reports, 6:26063. doi: 10.1038/srep26063. 28-Zhang AC, Itoh S, Yurimoto H, Hsu WB, Wang RC, Taylor LA. 2016. P-O-rich sulfide phase in CM chondrites: Constraints on its origin on the CM parent body. Meteoritics & Planetary Science, 51, 56-69. 27-Wu B, Wang RC, Yang JH, Wu FY, Zhang WL, Gu XP, Zhang AC. 2016. Zr and REE mineralization in sodic lujavrite from the Saima alkaline complex, northeastern China: A mineralogical study and comparison with potassic rocks. Lithos, 262, 232-246. 26-Zhang AC, Ma C, Sakamoto N, Wang RC, Hsu WB, Yurimoto H. 2015. Mineralogical anatomy and implications of a Ti-Sc-rich ultra-refractory inclusion from Sayh al Uhaymir 290 CH3 chondrite. Geochimica et Cosmochimica Acta, 163, 27-39. 25-Yin R, Wang RC, Zhang AC, Hu H, Zhu JC, Rao C, Zhang H. 2015. Chemical evolution and late-stage reequilibration of Zr-Hf-U-bearing columbite-group minerals in the Koktokay No.1 granitic pegmatite, Altai, Northwestern China. Canadian Mineralogist, 53, 461-478. 24-Wu B, Wang RC, Yang JH, Wu FY, Zhang WL, Gu XP, Zhang AC. 2015. Wadeite (K2ZrSi3O9), an alkali-zirconosilicate from the Saima agpaitic rocks in northeastern China: Its origin and response to multi-stage activities of alkaline fluids. Lithos, 224-225, 126-142. 23-Zhang AC, Itoh S, Sakamoto N, Wang RC, Yurimoto H. 2014. Origins of Al-rich chondrules: Clues from a compound Al-rich chondrule in the Dar al Gani 978 carbonaceous chondrite. Geochimica et Cosmochimica Acta, 130, 78-92. 22-Zhang AC and Yurimoto H. 2013. Petrography and mineralogy of the ungrouped type 3 carbonaceous chondrite Dar al Gani 978. Meteoritics & Planetary Science, 48, 1651-1677. 21-Zhang AC, Wang RC, Hsu WB, and Bartoschewitz R. 2013. Record of S-rich vapors on asteroid 4 Vesta: Sulfurization in the Northwest Africa2339 eucrite. Geochimica et Cosmochimica Acta, 109, 1-13. 20-Yin R., Wang RC, Zhang AC, Hu H, Zhu JC, Rao C, and Zhang H. 2013. Extreme fractionation from zircon to hafnon in the Koktokay No.1 granitic pegmatite, Altai, northwestern China. American Mineralogist, 98, 1714-1724. 19-Zhang AC, Taylor LA, Wang RC, Li QL, Li XH, Patchen AD, and Liu Y. 2012. Thermal history of Apollo 12 granite and KREEP-rich rock: Clues from SIMS U-Pb ages of zircon in lunar breccia 12013. Geochimica et Cosmochimica Acta, 95, 1-14. 18-Rao C, Wang RC, Zhang AC, and Hu H. 2012. The corundum + tourmaline nodules related to hydrothermal alteration of spodumene in the Nanping No.31 pegmatite dyke, Fujian Province, southeastern China. Canadian Mineralogist, 50, 1623-1635. 17-Zhang AC, Hsu WB, Li XH, Ming HL, Li QL, Liu Y, and Tang GQ. 2011. Impact melting of Dhofar 458 lunar meteorite: Evidence from polycrystalline texture and decomposition of zircon. Meteoritics & Planetary Science, 46, 103-115. 16-Zhang AC, Hsu WB, Floss C, Li XH, Li QL, Liu Y, and Taylor LA. 2010. Petrogenesis of lunar meteorite Northwest Africa 2977: Constraints from in situ microprobe results. Meteoritics & Planetary Science, 45, 1929-1947. 15-Zhang AC, Guan YB, Hsu WB, Liu Y, and Taylor LA. 2010. Origin of a metamorphosed lithic clast in CM chondrite Grove Mountains 021536. Meteoritics & Planetary Science, 45, 238-245. 14-Zhang AC, Hsu WB, Li QL, Liu Y, Jiang Y, and Tang GQ. 2010. SIMS Pb/Pb dating of Zr-rich minerals in lunar meteorites Miller Range 05035and LaPaz Icefield 02224: Implications for the petrogenesis of mare basalt. Science China Earth Sciences, 53(3), 327-334. 13-Zhang AC and Hsu WB. 2009. Petrography, mineralogy, and trace element geochemistry of lunar meteorite Dhofar 1180. Meteoritics & Planetary Science, 44, 1265-1286. 12-Zhang AC and Hsu WB. 2009. Refractory inclusions and aluminum-rich chondrules in Sayh Al Uhaymir 290 CH chondrite: Petrography and Mineralogy. Meteoritics & Planetary Science, 44,787-804. 11-Wang RC, Che XD, Zhang WL, Zhang AC, and Zhang H. 2009. Geochemical evolution and late re-equilibration of Na-Cs-rich beryl from the Koktokay no.3 pegmatite (Altai, NW China). European Journal of Mineralogy, 21, 795-809. 10-Zhang AC, Wang RC, Jiang SY, Hu H, and Zhang H. 2008. Chemical and textural features of tourmaline from the spodumene-subtype Koktokay No.3 pegmatite, Altai, Northwestern China: a record of magmatic to hydrothermal evolution. Canadian Mineralogist, 46, 41-58. 9-Zhang AC, Wang RC, Li YL, Hu H, Lu XC, Ji JF, Zhang H. 2008. Tourmaline from the Koktokay No.3 pegmatite, Altai, NW China: Spectroscopic characterization and relationships with the pegmatite evolution. European Journal of Mineralogy, 20, 143-154. 8-Hsu WB, Zhang A, Bartoschewitz R, Guan YB, Ushikubo T, Krähenbühl U, Niedergesaess R, Pepelnik R, Reus U, Kurtz T, and Kurtz P. 2008. Petrography, mineralogy, and geochemistry of lunar meteorite Sayh al Uhaymir 300. Meteoritics & Planetary Science, 43, 1363-1381. 7-Wang RC, Hu H, Zhang AC, Fontan F, De Parseval P, Jiang SY. 2007. Unusual Cs-dominant polylithionite in the Koktokay #3 pegmatite, Altai, NW China: In-situ EMP, micro-XRD, Raman probe characterization and implication for the storage of radioactive cesium. Contribution of Mineralogy and Petrology, 153, 355-367. 6-Zhang AC, Hsu WB, Wang RC, Ding MW. 2006. Pyroxene polymorphs in melt veins of the heavily shocked Sixiangkou L6 chondrite. European Journal of Mineralogy, 18, 719-726. 5-Wang RC, Hu H, Zhang AC, Fontan F, Zhang H, De Parseval P. 2006. Occurrence and late re-equilibration of pollucite from the Koktokay #3 pegmatite, Altai, Northwestern China. American Mineralogist, 91, 729-739. 4-Zhang AC, Wang RC, Hu H, Zhang H. 2004. Occurrences of foitite and rossmanite from the Koktokay No.3 granitic pegmatite dyke, NW China: A record of hydrothermal fluids. Canadian Mineralogist, 42, 873-882. 3-Zhang AC, Wang RC, Hu H, Zhang H, and Zhu JC. 2004. Chemical evolution of Nb-Ta oxides and Hf-rich zircon from the Koktokay No.3 granitic pegmatite, Altai, Northwestern China. Mineralogical Magazine, 68, 739-756. 2-Wang RC, Hu H, Zhang AC, Huang XL, Ni P. 2004. Pollucite and the cesium- dominant analogue of polylithionite as expression of extreme Cs enrichment in the Yichun topaz-lepidolite granite, southern China. Canadian Mineralogist, 42, 883-896.1-Wang RC, Hu H, Zhang AC, Xu SJ, Wang DZ. 2003. Yttrium zoning in garnet from the Xihuashan granitic complex and its petrological implications. Chinese Science Bulletin, 48, 1611-1615. 相关热点
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