Molecular electronics: an introduction to theory and experiment E Scheer, JC Cuevas World Scientific, 2017 | 1396 | 2017 |
The signature of chemical valence in the electrical conduction through a single-atom contact E Scheer, N Agraït, JC Cuevas, AL Yeyati, B Ludoph, A Martín-Rodero, ... Nature 394 (6689), 154-157, 1998 | 859 | 1998 |
Conduction channel transmissions of atomic-size aluminum contacts E Scheer, P Joyez, D Esteve, C Urbina, MH Devoret Physical Review Letters 78 (18), 3535, 1997 | 597 | 1997 |
Revealing the role of anchoring groups in the electrical conduction through single‐molecule junctions LA Zotti, T Kirchner, JC Cuevas, F Pauly, T Huhn, E Scheer, A Erbe small 6 (14), 1529-1535, 2010 | 266 | 2010 |
Benzenedithiol: a broad-range single-channel molecular conductor Y Kim, T Pietsch, A Erbe, W Belzig, E Scheer Nano letters 11 (9), 3734-3738, 2011 | 243 | 2011 |
Charge transport characteristics of diarylethene photoswitching single-molecule junctions Y Kim, TJ Hellmuth, D Sysoiev, F Pauly, T Pietsch, J Wolf, A Erbe, T Huhn, ... Nano letters 12 (7), 3736-3742, 2012 | 225 | 2012 |
Structure and conductance histogram of atomic-sized Au contacts M Dreher, F Pauly, J Heurich, JC Cuevas, E Scheer, P Nielaba Physical Review B—Condensed Matter and Materials Physics 72 (7), 075435, 2005 | 192 | 2005 |
Signature of magnetic-dependent gapless odd frequency states at superconductor/ferromagnet interfaces A Di Bernardo, S Diesch, Y Gu, J Linder, G Divitini, C Ducati, E Scheer, ... Nature communications 6 (1), 8053, 2015 | 163 | 2015 |
Conductance and Vibrational States of Single-Molecule Junctions Controlled<? format?> by Mechanical Stretching and Material Variation Y Kim, H Song, F Strigl, HF Pernau, T Lee, E Scheer Physical review letters 106 (19), 196804, 2011 | 155 | 2011 |
A current-driven single-atom memory C Schirm, M Matt, F Pauly, JC Cuevas, P Nielaba, E Scheer Nature nanotechnology 8 (9), 645-648, 2013 | 151 | 2013 |
Proximity effect and multiple Andreev reflections in gold atomic contacts E Scheer, W Belzig, Y Naveh, MH Devoret, D Esteve, C Urbina Physical Review Letters 86 (2), 284, 2001 | 148 | 2001 |
Synthesis of graphene–transition metal oxide hybrid nanoparticles and their application in various fields A Jana, E Scheer, S Polarz Beilstein journal of nanotechnology 8 (1), 688-714, 2017 | 137 | 2017 |
Characteristics of amine-ended and thiol-ended alkane single-molecule junctions revealed by inelastic electron tunneling spectroscopy Y Kim, TJ Hellmuth, M Burkle, F Pauly, E Scheer ACS nano 5 (5), 4104-4111, 2011 | 110 | 2011 |
A thermal diode using phonon rectification M Schmotz, J Maier, E Scheer, P Leiderer New Journal of Physics 13 (11), 113027, 2011 | 102 | 2011 |
Direct measurement of electrical transport through G-quadruplex DNA with mechanically controllable break junction electrodes SP Liu, SH Weisbrod, Z Tang, A Marx, E Scheer, A Erbe | 102 | 2010 |
Conductance of individual molecules measured with controllable gold electrodes T Böhler, A Edtbauer, E Scheer Physical Review B—Condensed Matter and Materials Physics 76 (12), 125432, 2007 | 99 | 2007 |
Flexible molecular‐scale electronic devices composed of diarylethene photoswitching molecules D Kim, H Jeong, H Lee, WT Hwang, J Wolf, E Scheer, T Huhn, H Jeong, ... Advanced Materials 26 (23), 3968-3973, 2014 | 98 | 2014 |
Large magnetoresistance in single-radical molecular junctions R Hayakawa, MA Karimi, J Wolf, T Huhn, MS Zöllner, C Herrmann, ... Nano letters 16 (8), 4960-4967, 2016 | 93 | 2016 |
Charge transport in azobenzene-based single-molecule junctions Y Kim, A Garcia-Lekue, D Sysoiev, T Frederiksen, U Groth, E Scheer Physical review letters 109 (22), 226801, 2012 | 90 | 2012 |
Mechanically controllable break-junctions for use as electrodes for molecular electronics T Böhler, J Grebing, A Mayer-Gindner, H v Löhneysen, E Scheer Nanotechnology 15 (7), S465, 2004 | 90 | 2004 |