<h4 align="center">WIGNER SZFI SZEMINÁRIUM</h4>
<h2 align="center">GILLEMOT KATALIN</h2>
<p align="center">(MTA Wigner FK SZFI)</p>
<h2 align="center">"Playing Lego with molecules: the rough path to atomic-sized thermoelectric devices "</h2>
<p align="center">Időpont: 2015. február 10. (kedd) 10:00 (1 óra)<br>
Hely: MTA Wigner FK SZFI, I. épület 1. emeleti Tanácsterem</p>
<h3>Összefoglaló:</h3>
<p style="margin-bottom: 0in;" align="justify">Single-molecule electronic devices have the potential to underpin a transition to sub-10 nm electronics. Molecules are highly desirable as functional elements for future nano-scale circuits, in particular because they can be chemically modified in order to tune their properties. Understanding the factors governing electron transfer across individual molecules connected to nano electrodes is necessary for the development of such molecular-based circuitry.</p>
<p style="margin-bottom: 0in;" align="justify">In my talk, after a brief introduction to the numerical and experimental methods used in our research, I will review some of our recent results achieved addressing the following points. 1) The fundamental understanding of the molecule-electrode contact is of significant importance, and a major obstacle in the development of single-molecule electronics [1]. 2) One other, equally interesting area of research is heat transfer across such nano-sized molecular devices. It only became recently possible to measure the thermopower and the conductance of molecular junctions simultaneously [2], opening up a set of whole new possibilities [3]. 3) Room-temperature quantum interference in single molecules was also demonstrated experimentally only recently [4] and now it´s time to identify new strategies for exploiting it within the framework of molecular electronics [5].</p>
<p style="margin-bottom: 0in;">[1] K. Gillemot et al., <em>small</em> vol. 9 (22), pp 3812-3822, 2013<br />[2] J. R. Widawsky, P. Darancet, J. B. Neaton, L. Venkataraman, <cite>Nano Lett.</cite> 12 (1), pp 354–358, 2012<br />[3] C. Evangeli, K. Gillemot, E. Leary, M. T. González, G. Rubio-Bollinger, C. J. Lambert, N. Agraït, <em>Nano Lett.</em>, vol. 13 (5), pp 2141-2145, 2014<br />[4] C. M. Guédon, H. Valkenier, T. Markussen, K. S. Thygesen, J. C. Hummelen, S. J. van der Molen, <em>Nature Nanotechnology</em> 7, 305–309, 2012<br />[5] M. Berritta, D. Zs. Manrique, C. J. Lambert, <em>Nanoscale</em> 7, 1096, 2015</p>
<p><b>Részletes információ:</b>
<a href="http://www.szfki.hu/seminar">http://www.szfki.hu/seminar</a></p>
<h4 align="center">Minden érdeklődőt szívesen látunk!</h4><p align="center">Asbóth János<br>szfi-seminar@wigner.mta.hu</p><p> </p>