Several written communications
- Patent: intelligent lighting.
- At the TU/e.
- Thesis: Potentiometry on organic semiconductor devices.
- At the P` institute.
- At the Institut des Nanotechnologies de Lyon.
- Book: Physics of Levitation available on Amazon KDP. 113 pages. Full text HERE.
In organic electronics
- Roelofs, C.W.S., Charrier, D.S.H. et al. Scanning tunnelling microscopy on organic field-effect transistors based on intrinsic pentacene. Applied Physics Letters 104, 263301 (2014).
- Charrier, D. et al. Photopotential Imaging on Functionalized Surfaces Dedicated to Label-Free Detection of Biomolecular Interactions. Procedia Engineering 25, 932-935 (2011).
- Charrier, D.S.H., Janssen, R.A.J. & Kemerink, M. Large Electrically Induced Height and Volume Changes in Poly(3,4-ethylenedioxythiophene)/Poly(styrenesulfonate) Thin Films. Chemistry of Materials 22, 3670-3677 (2010).
- Charrier, D.S.H. et al. Bimolecular recombination in ambipolar organic field effect transistors. Organic Electronics 10, 994-997 (2009).
- Maturová, K., Kemerink, M., Wienk, M.M., Charrier, D.S.H. & Janssen, R.A.J. Scanning Kelvin Probe Microscopy on Bulk Heterojunction Polymer Blends. Advanced Functional Materials 19, 1379-1386 (2009).
- Kemerink, M. et al. On the width of the recombination zone in ambipolar organic field effect transistors. Applied Physics Letters 93, 033312 (2008).
- Charrier, D.S.H., Kemerink, M., Smalbrugge, B.E., de Vries, T. & Janssen, R.A.J. Real versus measured surface potentials in scanning Kelvin probe microscopy. ACS Nano 2, 622-6 (2008).
Conferences as speaker
- (Invited) A quest for the real surface potential on organic devices. NanoNed Conference. Nijmegen, The Netherlands, December 2007.
- Giant dry out-of-plane actuation of PEDOT:PSS thin films. MRS. San Francisco, USA, April 2009.
- Prediction and reconstruction of Scanning Kelvin Probe Microscopy measurements on organic ambipolar field effect transistors. NanoNed Conference. Ede-Wageningen, The Netherlands, November 2008.
- A close look at the recombination width in organic ambipolar field effect transistors. NanoNed internal meeting. Eindhoven, The Netherlands, September 2008.
- Recombination zone modeling in organic light emitting field effect transistors. EMRS. Strasbourg, France, May 2008.
- Giant dry actuation of PEDOT:PSS thin films. EMRS. Strasbourg, France, May 2008.
- Recombination zone modeling in organic light emitting field effect transistors. SPIE Photonics Europe. Strasbourg, France, April 2008.
- Organic actuator and memory based on PEDOT:PSS. NanoNed internal meeting. Utrecht, The Netherlands, September 2007.
- Potential mapping on organic devices: 3D simulations and experiments. MRS. San Francisco, USA, April 2007.
In plastic deformations
- Charrier, D.S.H., Bonneville, J., Coupeau, C. & Nahas, Y. Atypical "boomerang" slip traces in [001] niobium single crystals deformed at room temperature. Scripta Materialia 66, 475-478 (2012).
- Bonneville, J., Charrier, D. & Coupeau, C. Contribution of AFM Observations to the Understanding of Ni3Al Yield Stress Anomaly. Applied Mechanics and Materials 61, 71-77 (2011).
- Bonneville, J., Coupeau, C. & Charrier, D. A New Insight in the Plasticity of Ni3Al Intermetallic Compounds Using AFM Observations. Key Engineering Materials 465, 403-406 (2011).
Another topic of interest
- Charrier, D.S.H.. Frequency spectrum analysis on the force contribution in a micronewton electromagnetic thruster (2016).
- Charrier, D.S.H.. Presentation in Baltimore (Author Not Attending).
- Charrier, D.S.H.. Response to "Comment on 'Micronewton electromagnetic thruster'" [Appl. Phys. Lett. 105, 146101 (2014)]. Applied Physics Letters 105, 146102 (2014).
- Charrier, D.S.H.. Erratum: "Micronewton electromagnetic thruster" [Appl. Phys. Lett. 101, 034104 (2012)]. Applied Physics Letters 105, 149902 (2014).
- Charrier, D.S.H.. Micronewton electromagnetic thruster. Applied Physics Letters 101, 034104 (2012).
- Charrier, D.S.H.. Loss of linear momentum in an electrodynamics system: from an analytical approach to simulations. Progress In Electromagnetics Research M 13, 69-82 (2010).
Complementary supports
Citations of experimental results in Wikipedia and discussion in MathPages
Attempts of Replicas: Note the displacement is expected to be some few micrometers so invisible to the eyes. Therefore millimeter or centimeter displacements have totally different origins, especially if the device passes through the rest position of pendulum at each oscillation
Slides for APS Meeting in Baltimore 2016
