学术Google Scholar
第一作者/通讯作者文章:
19. Tian H.C.*, Teng, F.Z.*, Chen X.Y., Ilya Bindeman, Jeffrey Ryan (2024). Tracing island arc petrogenesis using potassium isotopes. Earth and Planetary Science Letters 646, 119016.
18. Zhou Q., Tian H.C.*, Shan L.Y., Hu S., Yang W., He M.Y.*, Zhang L., Lin Y.T., Li X.H (2024). Revisiting the formation of lunar anorthosites via the Rb-Sr isotope systematics. Lithos 486-487, 107780.
17. Tian H.C.*, Hao, J.L., Lin Y.T.*, Xu Y.C., Jin Z.L., Zhang C., Yang W., Hu S., Li R.Y., Yue Z.Y., Li Q.L., Wei Y., Li X.H., Wu F.Y. (2024). Distribution and abundance of solar wind-derived water in Chang’e-5 core samples and its implications. Geophysical Research Letters 51, e2023GL107005.
16. Tian H.C.*, Yang W., Gao Y.B., Zhou Q., Ruan R.H., Lin Y.T., Li X.H., Wu F.Y. (2023). Reassessing the classification of Chang’E-5 basalts using pyroxene composition. Lithos 456-457, 107309.
15. Tian H.C.*, Zhang C*, Yang W., Du J., Chen Y., Xiao Z.Y., Ross Mitchell, Hui H.J., Hitesh Changela, Zhang T.X., Tang X., Zhang D., Lin Y.T., Li X.H., Wu F.Y. (2023). Surges in volcanic activity on the Moon about two billion years ago. Nature Communications 14, 3734.
14. Tian H.C.*, Yang W.*, Zhang D., Zhang H.J., Jia L.H., Wu S.T., Lin Y.T., Li X.H., Wu F.Y. (2023) Petrogenesis of Chang’E-5 mare basalts: Clues from the trace elements in plagioclase. American Mineralogist, 108, 1669-1677.
13. Xu Y.C.#, Tian H.C.#, Zhang C., Marc Chaussidon, Lin Y.T.*, Hao J.L., Li R.Y., Gu L.X., Yang W., Huang L.Y., Du J., Yang Y.Z., Liu Y., He H.Y., Zou Y.L., Li X.H., Wu F.Y. (2022). High abundance of solar wind-derived water in lunar soils from the middle latitude. Proceedings of the National Academy of Sciences 119(51),e2214395119. (被选为当期的研究亮点进行报道, https://www.pnas.org/doi/10.1073/iti5122119)
12. 田恒次,郝佳龙,徐于晨,杨蔚,胡森,张驰,林杨挺*,李献华,吴福元 (2022). Apollo 11月壤样品中太阳风成因的水及其意义.岩石学报38(6), 1823-1831.
11. Tian H.C.*, Teng F.Z., Chen X.Y., Guo Z.X., Peng X.T., Yang W., Xiao Y.L. (2022). Multi-mode chemical exchange in seafloor alteration revealed by lithium and potassium isotopes. Chemical Geology 121004.
10. Tian H.C., Tian S.H.*, Hou Z.Q., Yang Z.M., Zheng Y.C. (2022). Lithium isotope fractionation during magmatic differentiation and hydrothermal processes in post-collisional adakitic rocks. Geochimica et Cosmochimica Acta 332, 19-32.
9. Guo Z.X., Tian H.C.*, Liu Y.D., Peng X.T.*, Qin G.H., Lv Y.W. (2022). Copper isotopic fractionation during seafloor alteration: Insights from altered basalts in the Mariana and Yap Trenches. Journal of Geophysical Research: Solid Earth 127, e2021JB023597.
8. Tian H.C.#, Wang H.#, Chen Y.#, Yang W.*, Zhou Q., Zhang C., Lin H.L., Huang C., Wu S.T., Jia L.H., Xu L., Zhang D., Li X.G., Chang R., Yang Y.H., Xie L.W., Zhang D.P., Zhang G.L., Yang S.H., Wu F.Y. (2021). Non-KREEP origin for Chang’E-5 basalts in the Procellarum KREEP Terrane. Nature 600 (7887), 59-63 (入选2021年度中国科学十大进展)(入选高被引论文)
7. Wei H.Q., Tian H.C*, Li S.G., Yang W., Gao B.Y., Ke S., Li R.Y., Chen X.W., Yu H.M. (2021). Large Mg-Fe isotope fractionation in volcanic rocks from northeast China: The role of chemical weathering and magma compositional effect. Chemical Geology 565, 120075
6. Tian H.C.*, Zhang C., Teng F.Z., Long Y.J., Li S.G., He Y.S., Ke S., Chen X.Y., Yang W.* (2020). Diffusion-driven extreme Mg and Fe isotope fractionation in Panzhihua ilmenite: Implications for the origin of mafic intrusion. Geochimica et Cosmochimica Acta 278, 361-375.
5. Tian H.C.*, Teng F.Z., Hou Z.Q., Tian S.H.*, Yang W., Chen X.Y, Song Y.C. (2020). Magnesium and lithium isotopic evidence for a remnant oceanic slab beneath central Tibet. Journal of Geophysical Research: Solid Earth 125, e2019JB018197.
4. Tian H.C.*, Yang W., Li S.G.*, Wei H.Q., Yao Z.S., Ke S. (2019). Approach to trace hidden paleo-weathering of basaltic crust through decoupled Mg-Sr and Nd isotopes recorded in volcanic rocks. Chemical Geology 509, 234-248.
3. Tian H.C., Yang W.*, Li S.G.*, Ke S., Duan X.Z. (2018). Low δ26Mg volcanic rocks of Tengchong in Southwestern China: A deep carbon cycle induced by supercritical liquids. Geochimica et Cosmochimica Acta 240, 191-219.
2. Tian H.C., Yang W.*, Li S.G.*, Ke S. (2017). Could sedimentary carbonates be recycled into the lower mantle? Constraints from Mg isotopic composition of Emeishan basalts. Lithos 292-293, 250-261.
1. Tian H.C., Yang W.*, Li S.G.*, Ke S., Chu Z.Y. (2016) Origin of low δ26Mg basalts with EM-I component: Evidence for interaction between enriched lithosphere and carbonated asthenosphere. Geochimica et Cosmochimica Acta 188, 93-105.
其它合作文章见Google Scholar或ResearchGate。
发明专利:
2. 李瑞瑛,田恒次,杨蔚,林杨挺,张驰,胡森,徐于晨. 一种微细样品颗粒指定层位的离子探针样品靶制备方法 [发明专利]
1. 谷立新,张徐航,张驰,徐于晨,田恒次,唐旭,贺怀宇,林杨挺,李金华. 一种月尘颗粒样品的无损筛分系统及其筛分方法 – CN114279907A【发明专利】
科研系列
