Jeremy Carlo

Education:

• Ph.D. Columbia University, 2009.
• M.Phil. Columbia University, 2007.
• M.A. Columbia University, 2003.
• BS, New Jersey Institute of Technology, 2001.
• Postdoctoral: McMaster University / National Research Council, Chalk River, ON Canada, 2009-2011.

Publications:

• A. C. D'Orazio et al. "High Temperature X-ray Absorption Spectroscopy of the Local Electronic Structure and Oxide Vacancy Formation in the Sr2Fe1.5Mo0.5O6-d Solid Oxide Fuel Cell Anode Catalyst." ACS Applied Energy Materials 2, 3061-70 (2019).
• G. T. Tran et al. "Low-temperature and dynamic magnetism of highly frustrated 5d2 Li4MgOsO6 polymorphs in comparison with 5d3 Li3Mg2OsO6." Physical Review B 98, 184401 (2018).
• J. A. Milam-Guerrero et al. "Synthesis, Crystal Structure, and Magnetic Properties of the Highly Frustrated Orthorhombic Li4MgReO6." Inorganic Chemistry 56, 11633-9 (2017).
• J. J. Wagman et al. "Neutron scattering studies of spin-phonon hybridization and superconducting spin gaps in the high-temperature superconductor La 2-x(Sr,Ba)xCuO4." Physical Review B 93, 094416 (2016).
• C. M. Thompson et al. "Long-range magnetic order in the 5d2 double perovskite Ba2CaOsO6: comparison with spin-disordered Ba2YReO6." Journal of Physics: Condensed Matter 26, 306003 (2014).
• J. P. Carlo et al. "Spin gap and the nature of the 4d3 magnetic ground state in the frustrated fcc antiferromagnet Ba2YRuO6." Physical Review B 88, 024418 (2013).
• J. P. Carlo et al. "New Magnetic Phase Diagram of (Sr,Ca)2RuO4." Nature Materials 11, 323-328 (2012).
• J. P. Carlo et al. "Triplet and in-gap magnetic states in the ground state of the quantum frustrated fcc antiferromagnet Ba2YMoO6." Physical Review B 84, 100404(R) (2011).

Area of Expertise:

• Experimental Materials Science: Superconductivity, Frustrated Magnetism. Structural and magnetic aspects of correlated-electron materials. Experimental methods including neutron/x-ray scattering and muon spin relaxation.