< return to staff
Karel-Alexander Duerloo* is a Ph.D. Candidate in Stanford University's Department of Materials Science and Engineering.
Karel-Alexander’s research focuses on discovering and learning more abouttechnologically useful 'emergent' properties of inorganic two-dimensional materials. Emergent properties of two-dimensional crystals are features that exist only in 2D atomically thin layers that are isolated from a bulk 3D parent crystal in which this feature is entirely suppressed. 2D emergent properties include: exceptional mechanical strength, graphene’s exotic electronic properties, and direct band gaps in transition metal dichalcogenides.
For instance, our work has discovered that piezoelectricity is also an emergent property of many 2D crystals: BN, MoS2, MoSe2, MoTe2, WS2, WSe2 and WTe2. Whereas their bulk parent crystals are centrosymmetric, these atomically thin 2D sub-crystals are not. Thus, the 2D form is potentially piezoelectric. This radically new notion of piezoelectric monolayers being isolated from an entirely non-piezoelectric 3D crystal suggests potential for intriguing electromechanical effects and applications in the single- and few-layer regime.
After growing up in Belgium, Karel-Alexander moved to the Netherlands in 2008 to pursue a Bachelor’s degree in Applied Physics from Delft University of Technology. In 2011, he developed a data mining software package that tracks the properties of a metal’s individual grains in datasets obtained from state of the art X-ray diffraction experiments at the European Synchrotron Radiation Facility (ESRF) in Grenoble, France. Karel-Alexander received his Bachelor’s degree from Delft in 2011 with honors and distinction.
He enjoys spending his spare time in San Francisco or on the tennis court. He also likes to teach
* pronunciation: Carl-Alexander Dewer-low
Duerloo, K.-A. N., Reed, E. J., Flexural Electromechanical Coupling: a Nanoscale Emergent Property of Boron Nitride Bilayers. Nano Letters, doi:10.1021/nl4001635 (2013).
Ong, M. T., Duerloo, K.-A. N., Reed, E. J., The Effect of Hydrogen and Fluorine Coadsorption on the Piezoelectric Properties of Graphene. Journal of Physical Chemistry C, 117, 3615-3620, doi:10.1021/jp3112759 (2013).
Duerloo, K.-A. N., Ong, M. T., Reed, E. J., Intrinsic Piezoelectricity in Two-Dimensional Materials. Journal of Physical Chemistry Letters, 3, 2871–2876, doi:10.1021/jz3012436 (2012).
Awards and Honors