Book chapters

·      Liu, M.-C. and Chaussidon, M. 2016, The Cosmochemistry of Boron. Advances in Isotope Geochemistry, Boron Isotopes – The Fifth Element, (Accepted)

·      Chaussidon, M. and Liu, M.-C. 2015, Timing of Nebula Processes which Shaped the Precursors of the Terrestrial Planets. AGU Monograph “The Early Earth”, 1–26.

Peer reviewed journals

·       Tang, H., Liu, M.-C., McKeegan, K. D., Tissot, F. L. H. and Dauphas, N. 2016, In situ Isotopic Studies of the U-depleted Allende CAI Curious Marie: Pre-accretionary Alteration and the Co-existence of 26Al and 36Cl in the Early Solar Nebula. Geochimica et Cosmochimica Acta, (in revision)

·       Oehler, D. Z., Walsh, M. M., Sugitani, K., Liu, M.-C. and House, C. H. 2016, Significance of Large and Robust, Lenticular Microorganisms on the Young Earth. Precambrian Research, (submitted)

·       Liu, M.-C. 2016, The Initial 41Ca/40Ca Ratios in Two Type A Ca-Al-rich Inclusions: Implications For the Origin of Short-lived 41Ca. Geochimica et Cosmochimica Acta, (in press)

·       Hirashita, H., Asano, R., Nozawa, T., Li, Z.-Y., and Liu, M.-C. 2014, Dense Molecular Cloud Cores as a Source of Micrometer-sized Grains in Galaxies. Planetary and Space Sciences, 100, 40–45.

·       Liu, M.-C. 2014, On the Injection of Shortest-Lived Radionuclides From a Supernova Into the Solar Nebula: Constraints From the Oxygen Isotopes. The Astrophysical Journal Letters, 781, L28.

·       Liu, M.-C., Chaussidon, M., Srinivasanl, G., and McKeegan, K. D. 2012, A Lower Initial Abundance of Short-lived 41Ca in the Early Solar System and Its Implications for Solar System Formation. The Astrophysical Journal, 761, 137.

·       Liu, M.-C. 2012, Short-lived Radionuclides in the Early Solar System. AIP Conference Proceedings, 1484, 52–56.

·       Liu, M.-C., Chaussidon, M., Gopel, C., and Lee, T. 2012, A Heterogeneous Solar Nebula as Sam- pled by CM Hibonite. Earth Planetary Science Letters, 327, 75–83.

·       Liu, M.-C., Nittler, L. R., Alexander, C. M. O’D., and Lee, T. 2011, Protosolar Irradiation in the Early Solar System: Clues from Lithium and Boron Isotopes. Proceedings of Nuclei in the Cosmos XI, PoS(NIC XI)145.

·       Liu, M.-C., Nittler, L. R., Alexander, C. M. O’D., and Lee, T. 2010, Lithium-Beryllium-Boron Isotopic Compositions in Meteoritic Hibonite: Implications for Origin of 10Be and Early Solar System Irradiation. The Astrophysical Journal Letters, 719, L99–L103.

·       Liu, M.-C., McKeegan, K. D., Goswami, J. N., Marhas, K. K., Sahijpal, S., Ireland, T. R., and Davis, A. M. 2009, Isotopic Records in CM Hibonites: Implications for Timescales of Mixing of Isotope Reservoirs in the Solar Nebula. Geochimica et Cosmochimica Acta, 73, 5051–5079.

·       Liu, M.-C. and McKeegan, K. D. 2009, On an Irradiation Origin for Magnesium Isotope Anomalies in Meteoritic Hibonite. The Astrophysical Journal Letters, 697, L145–L148

·       McKeegan, K. D. and 46 co-authors including Liu, M.-C. 2006, Isotopic Compositions of Cometary Matter Returned by Stardust. Science, 314, 1724–1728.

·      Brownlee, D. and 182 co-authors including Liu, M.-C. 2006, Comet 81P/Wild 2 Under a Microscope. Science, 314, 1711–1716.