Faculty Directory
Laurence Marks

Professor of Materials Science and Engineering

Contact

2220 Campus Drive
Cook Hall 2036
Evanston, IL 60208

Email Laurence Marks

Website

The Marks Research Group


Departments

Materials Science and Engineering

Affiliations

PhD Program in Applied Physics


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Education

Ph.D. University of Cambridge, Cambridge, England

Research student, Cavendish Laboratory, Cambridge, England

B.A. University of Cambridge, Cambridge, England


Research Interests

Professor Laurence D. Marks, Ph.D. is a Professor of Materials Science and Engineering at Northwestern University. His most highly cited work
is the discovery of a type of nanoparticle which has become known as the Marks Decahedron. He pioneered the use of HREM to study the structure of nanoparticles, the use of direct methods for surfaces with either electron or x-ray diffraction data, in-situ methods for tribology inside electron microscopes, fast methods of obtaining optical and structural measurements from single nanoparticles and most recently a new class of fixed-point algorithms for DFT calculations. His research interests include transmission electron microscopy, density functional theory methods, direct methods for inversion of diffraction data, surface science particularly of oxides, tribology and hip replacements as well as nanoparticle structure, growth and finally corrosion. He is the author or co-author of approximately 380 refereed publications. He tries to teach his students to follow the science, not the electron.


Significant Recognition

  • ICSOS Surface Structure Prize, 2017
  • Warren Award of the American Crystallographic Association, 2015
  • Astore Lectureship, 2015
  • Sloan Foundation Fellowship, 1987
  • Burton Medal from the Electron Microscopy Society of America for achievements in electron microscopy by a young researcher, 1989
  • Fellow, American Physical Society, 2002

Selected Publications

    1.            Nonequilibrium Solute Capture in Passivating Oxide Films. Yu, X.X., A. Gulec, Q. Sherman, K.L. Cwalina, J.R. Scully, J.H. Perepezko, P.W. Voorhees, and L.D. Marks, Phys Rev Lett, 2018. 121(14), 145701.

    2.            Electronic structure of lanthanide scandates. Mizzi, C.A., P. Koirala, and L.D. Marks, Physical Review Materials, 2018. 2(2), 025001.      

    3.            Competitive Chloride Chemisorption Disrupts Hydrogen Bonding Networks: DFT, Crystallography, Thermodynamics, and Morphological Consequences. Marks, L., Corrosion, 2018. 74(3), 295-311.

    4.            In situ observations of graphitic staples in crumpled graphene. Lin, A.Y.W., X.-x. Yu, A. Dato, G. Krauss, and L.D. Marks, Carbon, 2018. 132, 760-765.  

    5.            Direct Observation of Large Flexoelectric Bending at the Nanoscale in Lanthanide Scandates. Koirala, P., C.A. Mizzi, and L.D. Marks, Nano Lett, 2018. 18(6), 3850-3856.        

    6.            Blaha, P., K. Schwarz, G.K.H. Madsen, D. Kvasnicka, J. Luitz, R. Laskowsji, F. Tran, and L.D. Marks, An Augmented Plane Wave + Local Orbitals Program for Calculating Crystal Properties. 2018: Techn. Universitat Wien, Austria.

    7.            Pauling's rules for oxide surfaces. Andersen, T.K., D.D. Fong, and L.D. Marks, Surface Science Reports, 2018. 73(5), 213-232.       

    8.            Development of a hybrid molecular beam epitaxy deposition system for in situ surface x-ray studies. Andersen, T.K., S. Cook, E. Benda, H. Hong, L.D. Marks, and D.D. Fong, Rev Sci Instrum, 2018. 89(3), 033905.