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Welcome to the Island of Dr. Moreau Moreau research group

Publications

WSU group publications

Coming soon! First research projects are ongoing.

Moreau publications prior to WSU

  1. K.P. Carter, K.M. Shield, K.F. Smith, Z.R. Jones, J.N. Wacker, L. Arnedo-Sanchez, T.M. Mattox, L.M. Moreau, K.E. Knope, S.A. Kozimor, C.H. Booth, and R.J. Abergel, “Structural and spectroscopic characterization of an einsteinium complex,” Nature, 590, 85-88 (2021).
  2. Q. Yang, Y. Qiao, A. McSkimming, L.M. Moreau, T. Cheisson, C.H. Booth, E. Lapsheva, P.J. Carroll, and E.J. Schelter, “A hydrolytically stable Ce(IV) complex of glutarimide-dioxime,” Inorg. Chem. Front., (2021), Advance Article.
  3. Y. Qiao, H. Yin, L.M. Moreau, R. Feng, R.F. Higgins, B.C. Manor, P.J. Carroll, C.H. Booth, J. Autschbach, and E.J. Schelter, “Cerium(IV) complexes with guanidinate ligands: intense colors and anomalous electronic structures,” Chem. Sci., (2021), Advance Article.
  4. K.P. Carter, K.F. Smith, T. Tratnjek, G.J.P. Deblonde, L.M. Moreau, J.A. Rees, C.H. Booth and R.J. Abergel, “Controlling the reduction of chelated uranyl to stable tetravalent uranium coordination complexes in aqueous solution,” Inorg. Chem., 60, 973-981 (2021).
  5. A. He, E.L. Kunz Wille, L.M. Moreau, S.M. Thomas, J.M. Lawrence, E.D. Bauer, C.H. Booth, and S.M. Kauzlarich, “Intermediate Yb valence in the Zintl phases Yb14MSb11 (M = Zn, Mn, Mg): XANES, magnetism, and heat capacity,” Phys. Rev. Mater., 4, 114407 (2020).
  6. E. Balboni, K.F. Smith, L.M. Moreau, T.T. Li, M. Maloubier, C.H. Booth, A.B. Kersting, and M. Zavarin, “Transformation of ferrihydrite to goethite and the fate of plutonium,” ACS Earth Space Chem., 4, 1993-2006 (2020).
  7. L.M. Moreau, A. Herve, M.D. Straub, D.R. Russo, R.J. Abergel, S. Alayoglu, J. Arnold, A. Braun, G.J.P. Deblonde, Y. Liu, T.D. Lohrey, D.T. Olive, Y. Qiao, J.A. Rees, D.K. Shuh, S.J. Teat, C.H. Booth, and S.G. Minasian, “Structural properties of ultra-small thorium and uranium dioxide nanoparticles embedded in a covalent organic framework,” Chem. Sci., 11 4648-4668 (2020).
  8. K.P. Carter, K.F. Smith, T. Tratnjek, K.M. Shield, L.M. Moreau, J.A. Rees, C.H. Booth, and R.J. Abergel, “Spontaneous chelation-driven reduction of the neptunyl cation in aqueous solution,” Chem. Eur. J., 26(11), 2354-2359 (2020).
  9. P.L. Arnold, K. Wang, S.J. Gray, L.M. Moreau, C.H. Booth, M. Curcio, J.A.L. Wells, and A.M.Z. Slawin, “Dicerium letterbox-shaped tetraphenolates: f-block complexes designed for two-electron chemistry,” Dalton Trans.,49, 877-884 (2020).
  10. K. Krishnamoorthy, S. Kewalramani, A. Ehlen, L.M. Moreau, C.A. Mirkin, M. Olvera de la Cruz, and M.J. Bedzyk, “Enzymatic degradation of DNA probed by in-situ X-ray scattering,” ACS Nano, 13, 11382-11391 (2019).
  11. L.M. Moreau, M.R. Jones, E.W. Roth, J. Wu, S. Kewalramani, M.N. O’Brien, B.-R. Chen, C.A. Mirkin, and M.J. Bedzyk, “The role of trace Ag in the synthesis of Au nanorods,” Nanoscale, 11(24), 11744 (2019).
  12. E.J. Kluender, J.L. Hedrick, K.A. Brown, R. Rao, B. Meckes, J.S. Du, L.M. Moreau, B. Maruyama, and C.A. Mirkin, “Catalyst discovery through megalibraries of nanomaterials,” Proc. Natl. Acad. Sci.,116(1), 40 (2019).
  13. K. Krishnamoorthy, K. Hoffmann, S. Kewalramani, J.D. Brodin, L.M. Moreau, C.A. Mirkin, M. Olvera de la Cruz, M.J. Bedzyk, “Defining the structure of a protein-spherical nucleic acid conjugate and its counterionic cloud,” ACS Cent. Sci., 4(3), 378 (2018).
  14. L.M. Moreau, C. Schurman, M. Shahjamali, S. Kewalramani, C.A. Mirkin, and M.J. Bedzyk, “How Ag nanospheres are transformed into AgAu Nanocages,” J. Am. Chem. Soc., 139(35), 12291 (2017).
  15. S. Kewalramani, G.I. Guerrero-Garcia, L.M. Moreau, J. Zwanikken, C.A. Mirkin, M. Olvera de la Cruz, and M.J. Bedzyk, “Electrolyte-Mediated Assembly of Charged Nanoparticles,” ACS Central Sci., 2(4), 219 (2016).
  16. L.M. Moreau, D.-H. Ha, H. Zhang, R. Hovden, D. Muller, and R.D. Robinson, “Defining crystalline/amorphous phases of nanoparticles through X-ray absorption spectroscopy and X-ray diffraction: The case of nickel phosphide,” Chem. Mater. 25, 2394 (2013).
  17. L.M. Moreau, D.-H. Ha, C.R. Bealing, H. Zhang, R.G. Hennig, and R.D. Robinson, “Unintended phosphorus doping of nickel nanoparticles during synthesis with TOP: a discovery through structural analysis,” Nano Letters 12, 4530 (2012).
  18. D.-H. Ha, L.M. Moreau, S. Honrao, R.G. Hennig, and R.D. Robinson, “The oxidation of cobalt nanoparticles into Kirkendall-hollowed CoO and Co3O4: The diffusion mechanisms and atomic structural transformations,” J. Phys. Chem. C., 117, 14303 (2013).
  19. D.-H. Ha, L.M. Moreau, C.R. Bealing, H. Zhang, R.G. Hennig, and R.D. Robinson, “The structural evolution and diffusion during the chemical transformation from cobalt to cobalt phosphide nanoparticles,” J. Mater. Chem. 21, 11498 (2011).
  • Washington State University