General

Dai Lidong
Email:  dailidong@vip.gyig.ac.cn
Telephone:  18185160535
Address: No 99, Linchengxi Road, Guiyang City, Guizhou Province, P. R. China
Postcode:  550081

Research Areas

High pressure mineral physics

Education and work experience

1997.092001.07 China University of Geosciences (Wuhan), Bachelor student

2001.092006.05 Institute of Geochemistry, Chinese Academy of Sciences, PhD Postgraduate student

2006.052008.01 Institute of Geochemistry, Chinese Academy of Sciences, Assistant Professor

2008.022009.02 Department of Geology and Geophysics, Yale University, Research Scientist

2009.032010.09 Institute of Geochemistry, Chinese Academy of Sciences, Associate Professor

2010.102012.11 Department of Earth and Planetary Science, Tokyo institute of Technology, Postdoctoral

Fellows of Japan Society for the Promotion of Science

2012.12­2013.11 Department of Geology and Geophysics, Yale University, Visiting Fellows

2013.12Till now Institute of Geochemistry, Chinese Academy of Sciences, Professor

2016.11—2017.02 Mineral Physics Institute, New York State University (Stony Brook), Visiting Professor


Honors & Distinctions

  1. The membership of Youth Innovation Promotion Association of CAS (2013)

  2. The excellent supervisor award of institute of Geochemistry, CAS

  3. The Gold Hammer award for the 13th Geological Science and Technique Award for Young Geologists (2011);

JSPS fellows award from Japan Society for the promotion of Science (2010)

Publications

33) Hu Haiying, Dai Lidong*, Li H P, Hui K S and Sun W Q. Influence of dehydration on the electrical conductivity of epidote and implications for high conductivity anomalies in subduction zones. Journal of Geophysical Research: Solid Earth, 2017, 122, in press, doi: 10.1002/2016JB013767.

32) Zhuang Yukai, Dai Lidong*, Wu L, Li H P, Hu H Y, Liu K X, Yang L F and Pu C. Pressure-induced permanent metallization with reversible structural transition in molybdenum disulfide. Applied Physics Letters, 2017, 110, 122103, doi: 10.1063/1.4979143.

31) Sun Wenqing, Dai Lidong*, Li H P, Hu H Y, Jiang J J and Hui K S. Effect of dehydration on the electrical conductivity of phyllite at high temperatures and pressures. Mineralogy and Petrology, 2017, in press, doi: 10.1007/s00710-017-0494-2.

30) Wu Lei, Dai Lidong*, Li H P, Hu H Y, Zhuang Y K and Liu K X. Anomalous phase transition of Bi-doped Zn2GeO4 investigated by electrical conductivity and Raman spectroscopy under high pressure. Journal of Applied Physics, 2017, 121, 125901, doi: 10.1063/1.4979311.

29) Hui Keshi, Dai Lidong*, Li H P, Hu H Y, Jiang J J, Sun W Q and Zhang H. Experimental study on the electrical conductivity of pyroxene andesite at high temperature and high pressure. Pure and Applied Geophysics, 2017, 174: 1033-1041.

28) Dai Lidong, Hu H Y, Li H P, Wu L, Hui K S, Jiang J J & Sun W Q. Influence of temperature, pressure, and oxygen fugacity on the electrical conductivity of dry eclogite, and geophysical implications. Geochemistry, Geophysics, Geosystems, 2016, 17: 2394-2407.

27) Dai Lidong, Wu L, Li H P, Hu H Y, Zhuang Y K & Liu K X. Evidence of the pressure-induced conductivity switching of yttrium-doped SrTiO3. Journal of Physics: Condensed Matter, 2016, 28, 475501, doi: 10.1088/0953-8984/28/47/475501.

26) Dai Lidong, Wu L, Li H P, Hu H Y, Zhuang Y K & Liu K X. Pressure-induced phase-transition and improvement of the micro dielectric properties in yttrium-doped SrZrO3. Europhysics Letters, 2016, 114, 56003, doi: 10.1209/0295-5075/114/56003.

25) Wu Lei, Dai Lidong*, Li H P, Zhuang Y K, Liu K X. Pressure-induced improvement of grain boundary properties in Y-doped BaZrO3. Journal of Physics D: Applied Physics, 2016, 49, 345102, doi: 10.1088/0022-3727/49/34/345102.

24) Dai Lidong, Hu H Y, Li H P, Hui K S, Jiang J J, Li J and Sun W Q. Electrical conductivity of gabbro: the effects of temperature, pressure and oxygen fugacity. European Journal of Mineralogy, 2015, 27: 215-224.

23) Dai Lidong, Jiang J J, Li H P, Hu H Y and Hui K S. Electrical conductivity of hydrous natural basalt at high temperatures and high pressures. Journal of Applied Geophysics, 2015, 112: 290-297.

22) Hui Keshi, Zhang H, Li H P, Dai Lidong*, Hu H Y, Jiang J J and Sun W Q. Experimental study on the electrical conductivity of quartz andesite at high temperature and high pressure: evidence of grain boundary transport. Solid Earth, 2015, 6: 1037-1043.

21) Dai Lidong and Karato S. Reply to comment on “High and highly anisotropic electrical conductivity of the asthenosphere due to hydrogen diffusion in olivine” by Dai and Karato [Earth Planet. Sci. Lett. 408 (2014) 79–86]. Earth and Planetary Science Letters, 2015, 427: 300-302.

20) Dai Lidong and Karato S. High and highly anisotropic electrical conductivity of the asthenosphere due to hydrogen diffusion in olivine. Earth and Planetary Science Letters, 2014, 408: 79-86.

19) Dai Lidong, Hu H Y, Li H P, Jiang J J and Hui K S. Effects of temperature, pressure and chemical composition on the electrical conductivity of granite and its geophysical implications. American Mineralogist, 2014, 99: 1420-1428.

18) Dai Lidong and Karato S. Influence of FeO and H on the electrical conductivity of olivine. Physics of the Earth and Planetary Interiors, 2014, 237: 73-79.

17) Dai Lidong and Karato S. The effect of pressure on the electrical conductivity of olivine under the hydrogen-rich conditions. Physics of the Earth and Planetary Interiors, 2014, 232: 51-56.

16) Dai Lidong and Karato S. Influence of oxygen fugacity on the electrical conductivity of olivine under hydrous conditions: Implications for the mechanism of conduction. Physics of the Earth and Planetary Interiors, 2014, 232: 57-60.

15) Dai Lidong, Li H P, Hu H Y, Jiang J J, Hui K S and Shan S M. Electrical conductivity of Alm82Py15Grs3 almandine-rich garnet determined by impedance spectroscopy at high temperatures and high pressures. Tectonophysics, 2013, 608: 1086-1093.

14) Dai Lidong, Kudo Y, Hirose K, Murakami M, Asahara Y, Ozawa H, Ohishi Y and Hirao N. Sound velocities of Na0.4Mg0.6Al1.6Si0.4O4 NAL and CF phases 73 GPa determined by Brillouin scattering method. Physics and Chemistry of Minerals, 2013, 40: 195-201.

13) Dai Lidong, Li H P, Hu H Y, Shan S M, Jiang J J and Hui K S. The effect of chemical composition and oxygen fugacity on the electrical conductivity of dry and hydrous garnet at high temperatures and pressures. Contributions to Mineralogy and Petrology, 2012, 163 (4): 689-700.

12) Dai Lidong, Li H P, Hu H Y and Shan S M. In-situ control of oxygen fugacity for laboratory measurements of electrical conductivity of minerals and rocks in multi-anvil press. Chinese Physics B, 2011, 20: 049101, doi: 10.1088/1674-1056/20/4/049101.

11) Dai Lidong, Li H P, Li C H, Hu H Y and Shan S M. The Electrical conductivity of dry polycrystalline olivine compacts at high temperatures and pressures. Mineralogical Magazine, 2010, 74 (5): 849-857.

10) Dai Lidong and Karato S. Electrical conductivity of wadsleyite at high temperatures and high pressures. Earth and Planetary Science Letters, 2009, 287: 277-283.

9) Dai Lidong and Karato S. Electrical conductivity of pyrope-rich garnet at high temperature and high pressure. Physics of the Earth and Planetary Interiors, 2009, 176: 83-88.

8) Dai Lidong and Karato S. Electrical conductivity of orthopyroxene: Implications for the water content of the asthenosphere. Proceedings of the Japan Academy (Series B), 2009, 85: 466-475.

7) Dai Lidong, Li H P, Hu H Y and Shan S M. Novel technique to control oxygen fugacity during high-pressure measurements of grain boundary conductivities of rocks. Review of Scientific Instruments, 2009, 80: 033903, doi: 10.1063/1.3097882.

6) Dai Lidong, Li H P, Hu H Y and Shan S M. Experimental study of grain boundary electrical conductivities of dry synthetic peridotite under high-temperature, high-pressure, and different oxygen fugacity conditions. Journal of Geophysical Research-Solid Earth, 2008, 113: B12211, doi: 10.1029/2008JB005820.

5) Dai Lidong, Li H P, Deng H M, Liu C Q, Su G L, Shan S M, Zhang L and Wang R P. In situ control of different oxygen fugacity experimental study on the electrical conductivity of lherzolite at high temperature and high pressure. Journal of Physics and Chemistry of Solids, 2008, 69 (1): 101-110.

4) Dai Lidong, Li H P, Liu C Q, Su G L and Shan S M. Experimental measurement on the electrical conductivity of pyroxenite at high temperature and high pressure under different oxygen fugacities. High Pressure Research, 2006, 26 (3): 193-202.

3) Dai Lidong, Li H P, Liu C Q, Cui T D, Shan S M, Yang C J, Liu Q Y and Deng H M. Experimental measurement on the electrical conductivity of single crystal olivine at high temperature and high pressure under different oxygen fugacities. Progress in Natural Science, 2006, 16 (4): 387-393.

2) Dai Lidong, Li H P, Liu C Q, Shan S M, Cui T D and Su G L. Experimental study on the electrical conductivity of orthopyroxene at high temperature and high pressure under different oxygen fugacities. Acta Geological Sinica-English Edition, 2005, 79 (6): 803-809.

1) Dai Lidong, Li H P, Liu C Q, Su G L and Cui T D. In situ control of oxygen fugacity experimental study on the crystallographic anisotropy of the electrical conductivities of diopside at high temperature and high pressure. Acta Petrological Sinica, 2005, 21 (6): 1737-1742.

 

非第一作者及通讯作者:

 

8) Jiang Jianjun, Li H P, Dai Lidong, Hu H Y and Zhao C S. Raman scattering of 2H-MoS2 at simultaneous high temperature and high pressure (up to 600 K and 18.5 GPa). AIP Advances, 2016, 6: 035214, doi: 10.1063/1.4944832.

7) Jiang Jianjun, Li H P, Dai Lidong, Hu H Y and Zhao C S. Raman spectra based pressure calibration of the non-gauge sapphire anvil cell at high temperature and high pressure. Acta Physical Sinica, 2015, 64 (14): 149101.

6) Jiang Jianjun, Li H P, Dai Lidong, Hu H Y, Wang Y and Zhao C S. Review on application of optical scattering spectroscopy for elastic wave velocity study on materials in Earth’s interior. Spectroscopy and Spectral Analysis, 2015, 35 (9): 2588-2595.

5) Hu Haiying, Dai Lidong, Li H P, Hui K S and Li J. Temperature and pressure dependence of electrical conductivity in synthetic anorthite. Solid State Ionics, 2015, 276: 136-141.

4) Hu Haiying, Dai Lidong, Li H P, Jiang J J and Hui K S. Electrical conductivity of K-feldspar at high temperature and high pressure. Mineralogy and Petrology, 2014, 108: 609-618.

3) Hu Haiying, Li H P, Dai Lidong, Shan S M and Zhu C M. Electrical conductivity of alkali feldspar solid solutions at high temperatures and high pressures. Physics and Chemistry of Minerals, 2013, 40: 51-62.

2) Hu Haiying, Li H P, Dai Lidong, Shan S M and Zhu C M. Electrical conductivity of albite at high temperatures and high pressures. American Mineralogist, 2011, 96: 1821-1827.

1) Karato Shun-ichiro and Dai Lidong. Comments on “Electrical conductivity of wadsleyite as a function of temperature and water content” by Manthilake et al. Physics of the Earth and Planetary Interiors, 2009, 174: 19-21.

Research Interests

  1. XRD in synchrotron and elastic sound velocity measurement of Brillouin scattering method;

  2. Electrical property of mineral and petrology in the deep Earth using multi-anvil press and DAC under controlled thermodynamic condition;

  3. Material of Physics and Chemistry;

  4. Physics and chemistry of Earth interior

Students

现指导学生

蒋建军  硕士研究生  070901-矿物学、岩石学、矿床学  

惠科石  硕士研究生  070901-矿物学、岩石学、矿床学