English

Can room temperature data for tunneling molecular junctions be analyzed within a theoretical framework assuming zero temperature?

Mesoscale and Nanoscale Physics 2023-05-17 v1 Chemical Physics Computational Physics

Abstract

Routinely, experiments on tunneling molecular junctions report values of conductances (GRTG_{RT}) and currents (IRTI_{RT}) measured at room temperature. On the other side, theoretical approaches based on simplified models provide analytic formulas for the conductance (G0KG_{0K}) and current (I0KI_{0K}) valid at zero temperature. Therefore, interrogating the applicability of the theoretical results deduced in the zero temperature limit to real experimental situations at room temperature i.e., GRTG0KG_{RT} \approx G_{0K} and IRTI0KI_{RT} \approx I_{0K}) is a relevant aspect. Quantifying the pertaining temperature impact on the transport properties computed within the ubiquitous single level model with Lorentzian transmission is the specific aim of the present work. Comprehensive results are presented for broad ranges of the relevant parameters (level's energy offset ε0\varepsilon_0 and width Γa\Gamma_a , and applied bias VV) that safely cover values characterizing currently fabricated junctions. They demonstrate that the strongest thermal effects occur at biases below resonance (2ε0δε0\alteV\alt2ε02 \left\vert \varepsilon_0 \right\vert - \delta\varepsilon_0 \alt \vert e V\vert \alt 2 \left\vert \varepsilon_0 \right\vert). At fixed VV, they affect an ε0\varepsilon_0-range whose largest width δε0\delta\varepsilon_0 is about nine times larger than the thermal energy (δε03πkBT\delta\varepsilon_0 \approx 3 \pi k_B T) at Γa0\Gamma_a \to 0. The numerous figures included aim at conveying a quick overview on the applicability of the zero temperature limit to a specific real junction. In quantitative terms, the conditions of applicability are expressed as mathematical inequalities involving elementary functions. They constitute the basis of an interactive data fitting procedure proposed, which aims at guiding experimentalists interested in data processing in a specific case.

Keywords

Cite

@article{arxiv.2302.09156,
  title  = {Can room temperature data for tunneling molecular junctions be analyzed within a theoretical framework assuming zero temperature?},
  author = {Ioan Baldea},
  journal= {arXiv preprint arXiv:2302.09156},
  year   = {2023}
}
R2 v1 2026-06-28T08:43:11.046Z