1 - Theory of Electrostatic Probe Microscopy: A Simple Perturbative approach.

S. Gómez-Moñivas, R. Carminati, J. J. Greffet and J. J. Sáenz.

Applied Physics Letters. 76, 2955 (May 2000).

 

 

2 - Electrostatic forces between sharp tips and metallic and dielectric samples.

S. Gómez-Moñivas, L. S. Froufe, A. J. Caamaño and J. J. Sáenz

Applied Physics Letters 79, 4048 (Dec 2001).

 

 

 

3 - Tip shape effects on electrostatic force microscopy resolution.

S. Gómez-Moñivas, R. Carminati, J. J.Greffet and J. J. Sáenz

Nanotechnology 12, 496 ( Dec 2001).

 

 

 

4 - Field induced formation on nanometer-size liquid brigdes.

S. Gómez-Moñivas, M. Calleja, R. García and J. J. Sáenz

Physical Review Letters 91, 056101 (Ago 2003).

 

 

 

5 - Cantilever influence on electrostatic force gradient microscopy.

G. M. Sacha and J.J. Sáenz.

Applied Physics Letters 85, 2610 (Sep 2004).

 

 

 

6 - Effective tip radius in electrostatic force microscopy.

G. M. Sacha, A. Verdaguer, J. Martínez, J. J. Sáenz, F. Ogletree and M. Salmeron.

Applied Physics Letters 86, 123101 (Mar 2005).

 

 

 

7 - Sensing dipole fields at atomic steps with combined Scanning Tunneling and Force Microscopy.

J. Y. Park, G. M. Sacha, M. Enachescu, D. F. Ogletree, M. A. Ribeiro, P. C. Canfield, C. J. Jenks, P. A. Thiel, J. J. Sáenz and M. Salmeron.

Physical Review Letters 95, 136802 (Sep 2005).

 

 

 

8 - Initial stages of water absorption on NaCl (100) studied by scanning polarization force microscopy.

A. Verdaguer, G. M. Sacha, M. Luna, D. F. Ogletree and M. Salmeron.

Journal of Chemical Physics 123, 124703 (Sep 2005).

 

 

 

9 - The molecular structure of water at interfaces: Wetting at the nanometer scale.

A. Verdaguer, G. M. Sacha, H. Bluhm and M. Salmeron.

Chemical Reviews: Structure and chemistry at aqueous interfaces, 106, 1478 (Mar 2006).

 

 

 

10 - Induced water condensation and bridge formation by electric fields in Atomic Force Microscopy.

G. M. Sacha, A. Verdaguer and M. Salmeron.

Journal of Physical Chemistry B 110, 14870 (Jul 2006).

 

 

 

11 - Quantitative theory for the imaging of conducting objects in electrostatic force microscopy

G. M. Sacha, C. Gómez-Navarro, J. J. Sáenz and J. Gómez-Herrero.

Applied Physics Letters. 89, 173122 (Nov 2006).

 

 

 

12 - A Method for calculating capacitances and electrostatic forces in Atomic Force Microscopy

G. M. Sacha, E. Sahagún and J. J. Sáenz.

Journal of Applied Physics. 101, 024310 (Ene 2007).

 

 

13 - Energy dissipation due to capillary interactions: Hydrofobicity maps in force microscopy

E. Sahagún, P. García-Mochales, G. M. Sacha and J. J. Sáenz.

Physical Review Letters 98, 176106 (May 2007).

 

14 - Generalized Scattering Matrix Method for electrostatic calculations of nanoscale systems

G. M. Sacha and J. J. Sáenz.

Physical Review B 77, 245423 (Jun 2008)

 

15 - Interactions of oxygen and hydrogen on Pd(111) surface

D. O. Demchenko, G. M. Sacha, M. Salmeron and L.-W. Wang..

Surface Science  602, 2552 (Jul 2008)

 

16 - An inverse problem solution for undetermined electrostatic force microscopy setups using neural networks

G. M. Sacha, F. B. Rodríguez and P. Varona.

Nanotechnology, 20, 085702 (Feb 2009)

 

 

17 - Contrast and resolution of nanowires in Electrostatic Force Microscopy

G. M. Sacha.

IEEE Transactions on Nanotechnology  8, 148 (Mar 2009)

 

18 - Charging and discharging of graphene in ambient conditions studied with scanning probe microscopy

A. Verdaguer, M Cardellach, J. J. Segura, G. M. Sacha, J Moser, M. Zdrojek, A. Bachtold and J. Fraxedas.

Applied Physics Letters 94, 233105 (Jun 2009)

 

19 - The influence of the macroscopic shape of the tip on the contrast in scanning polarization force microscopy images

G. M. Sacha, M. Cardellach, J. J. Segura, J. Moser, A. Bachtold, J. Fraxedas and A. Verdaguer

Nanotechnology 20,  285704 (Jul 2009)

 

20 - Generalized Image Charge Method to calculate electrostatic magnitudes at the nanoscale powered by Artificial Neural Networks

G. M. Sacha, F. B. Rodríguez, E. Serrano and P. Varona

Journal of Electromagnetic Waves and Aplications 24,  1145 (2010)

 

21 - Method to calculate electric fields at very small tip-sample distances in atomic force microscopy

G. M. Sacha.

Applied Physics Letters 97,  033115 (Jul 2010)

 

 

22 - Dipolar origin of water etching of amino acid surfaces

J. J. Segura, A. Verdaguer, G. M. Sacha and J. fraxedas

Phys. Chem. Chem. Phys. 13,  21446 (Dic 2011)

 

 

23 - Ultrahigh dielectric constant of thin films obtained by electrostatic force microscopy and artificial neural networks

E. Castellano-Hernandez and G. M. Sacha.

Applied Physics Letters 100,  023101 (Ene 2012)

 

 

24 - Enhanced dielectric constant resolution of thin insulating films by electrostatic force microscopy

E. Castellano-Hernandez, J. Moreno-Llorena, J. J. Saenz and G. M. Sacha.

J. Phys.: Cond. Mat.24,  155303 (Feb 2012)

 

 

25 - The use of Artificial Neural Networks on Electrostatic Force Microscopy

E. Castellano-Hernandez, F. B. Rodriguez, E. Serrano, P. Varona and G. M. Sacha.

Nanoscale Research Letters 7,  250 (May 2012)

 

 

26 - The use of Artificial Neural Networks on Electrostatic Force Microscopy

E. Castellano-Hernandez, F. B. Rodriguez, E. Serrano, P. Varona and G. M. Sacha.

Nanoscale Research Letters 7,  250 (May 2012)

 

 

 

27 - Influence of the substrate and tip shape on the characterization of thin films by electrostatic force microscopy

G. M. Sacha.

IEEE Transactions on Nanotechnology 12,  152 (Mar 2013)

 

 

28 - Artificial Intelligence in Nanotechnology

G. M. Sacha and P. Varona.

Nanotechnology, (Topical Review) 24,  452002 (Oct 2013)

 

29 - Designing videogames to improve students' motivation

P. Molins-Ruano, C. Sevilla, S. Santini, P. A. Haya, P. Rodriguez and G. M. Sacha.

Computers in Human Behavior Aceptado y publicado online 2013

http://dx.doi.org/10.1016/j.chb.2013.06.013