Kenneth Poeppelmeier

Kenneth Reinhard Poeppelmeier (born 6 October 1949) is the Charles E. & Emma H. Morrison Professor of Chemistry at Northwestern University.[1][2]

Kenneth R. Poeppelmeier
Born6 October 1949
Alma materUniversity of Missouri, Iowa State University
Known forSolid-state chemistry, Materials chemistry, Catalysis, crystal growth, nonlinear optical materials, Energy Storage Materials
AwardsFellow of the American Association for the Advancement of Science, Elected foreign member (2016) of Spanish Royal Academy of Sciences, Elected Honorary Member (2017) of the Spanish Royal Society of Chemistry (RSEQ)
Scientific career
FieldsChemistry
InstitutionsNorthwestern University
Academic advisorsJohn D. Corbett

After working for two years as a teacher in the South Pacific as part of the Peace Corps,[3]Poeppelmeier completed his bachelor's degree in chemistry at the University of Missouri. Following graduation, he attended Iowa State University and in 1978 was awarded a doctorate for his work on reduced scandium halide compounds under the direction of John Corbett. He then joined Exxon Central Research and Development studying catalytic materials, until in 1984, he moved to the Northwestern University chemistry faculty. At Northwestern, his work has focused on the role of synthesis and materials design [4][5] with applications in superconductivity,[6] nonlinear optical materials,[7][8][9] catalysis,[10] and energy storage.[11][12][13] From 1995-2015, he was the materials editor for the American Chemical Society journal Inorganic Chemistry.


References

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  1. ^ Li, Yadong (2019). "A solid-state chemist's eye for the development of materials science in China". Science China Materials. 62 (12): 1783–1787. doi:10.1007/s40843-019-1194-0.
  2. ^ "KENNETH R. POEPPELMEIER". Northwestern University Weinberg College of Arts and Sciences. Retrieved 6 August 2023.
  3. ^ "Authors Biography for KENNETH R. POEPPELMEIER". Elsevier. Retrieved 3 October 2023.
  4. ^ Sheets, W.C.; Mugnier, E.; Barnabe, A.; Marks, Tobin; Poeppelmeier, K.R. (2006). "Hydrothermal synthesis of delafossite-type oxides" (PDF). Chemistry of Materials. 18 (1): 7–20. doi:10.1021/cm051791c.
  5. ^ Kageyama, H.; Hayashi, K.; Maeda, K.; Attfield, J.P.; Hiroi, Z.; Rondinelli, James; Poeppelmeier, K.R. (2018). "Expanding frontiers in materials chemistry and physics with multiple anions". Chemistry of Materials. 28 (1): 17–20. Bibcode:2018NatCo...9..772K. doi:10.1038/s41467-018-02838-4. hdl:2433/234674. PMID 29472526.
  6. ^ Vaughey, J.T.; Thiel, J.; Hasty, E.; Groenke, D.; Stern, Charlotte; Poeppelmeier, K.R.; Dabrowski, B.; Hinks, D.G.; Mitchell, A.W. (1991). "Synthesis and structure of a new family of cuprate superconductors: LnSr2Cu2GaO7". Chemistry of Materials. 3 (5): 935–940. doi:10.1021/cm00017a032.
  7. ^ Gautier, R.; Klingsporn, R.P.; Van Duyne, R.P.; Poeppelmeier, K.R. (2016). "Optical Activity from Racemates". Nature Communications. 9 (6): 772. Bibcode:2016NatMa..15..591G. doi:10.1038/nmat4628.
  8. ^ Tran, T.T.; Yu, H.; Rondinelli, James; Poeppelmeier, K.R.; Halasymani, P.S. (2016). "Deep Ultraviolent Non-linear Optical Materials". Chemistry of Materials. 28 (15): 5238–5258. doi:10.1021/acs.chemmater.6b02366.
  9. ^ Halasymani, P.S.; Poeppelmeier, K.R. (1998). "Noncentrosymmetric Oxides". Chemistry of Materials. 10 (10): 2753–2769. doi:10.1021/cm980140w.
  10. ^ Lin, Yuyuan; Wu, Zili; Wen, J.; Poeppelmeier, K.R.; Marks, L.D. (2014). "Imaging the Atomic Surface Structures of CeO2 Nanoparticles". NanoLetters. 14 (1): 191–196. Bibcode:2014NanoL..14..191L. doi:10.1021/nl403713b. PMID 24295383.
  11. ^ Wan, L.; Incorvati, J.; Poeppelmeier, K.R.; Prendergast, D. (2016). "Building a fast lane for Mg diffusion in α-MoO3 by fluorine doping". Chemistry of Materials. 28 (19): 6900–6908. doi:10.1021/acs.chemmater.6b02223.
  12. ^ Incorvati, J.; Wan, L.; Key, Baris; Zhou, C.; Liao, Chen; Fuoco, L.; Holland, M.; Wang, Hao; Prendergast, D.; Poeppelmeier, K.R.; Vaughey, J.T. (2014). "Reversible Magnesium Intercalation into a Layered Oxyfluoride Cathode". Chemistry of Materials. 28 (1): 17–20. doi:10.1021/acs.chemmater.5b02746.
  13. ^ Sorenson, E.M.; Barry, S.; Jung, H.-K.; Rondinelli, James; Vaughey, J.T.; Poeppelmeier, K.R. (2006). "Three-dimensionally ordered macroporous Li4Ti5O12: effect of wall structure on electrochemical properties". Chemistry of Materials. 128 (2): 482–489. doi:10.1021/cm052203y.