Data underlying the publication: Ferritin Single-Electron Transistor
doi: 10.4121/88bc422c-1b09-458e-a664-a6f209bb2a27
CC0This data set corresponds to the data underlying the article "A Ferritin Single-Electron Transistor". In this study, we report, for the first time, on single-electron transistors with ferritin particles, characterized at low temperatures. Our approach is based on wide (micron scale) and small (8-25 nm) self-aligned-nano-gaps devices that facilitate the trapping of single ferritin particles. Underneath the gap area a local back gate is placed, which allows the study of the transport properties as a function of gate voltage. The data is in excellent agreement with the Coulomb blockade model, revealing single-electron tunneling as the transport mechanism through them. Additionally, the three-terminal electrical measurements suggest the presence of two separate islands coupled in series or in parallel; information that was not possible to distinguish by using only two-terminal measurements.
All data displayed in the Manuscript and in the Supporting Information are stored in the file "raw data.zip", as raw data. The zip file contains two different folders: 1) mainArticle: it contains the raw data used in the manuscript. 2) SI: it has the raw data displayed in the Supporting Information. Each subfolder contains separate ReadMe files. In each of them, the format and different considerations for displaying the data are described.
- 2024-06-10 first online
- 2024-06-28 published, posted
- NWO Nanofront project number NF17SYN05.
Leiden University, Department of Physics, Huygens-Kamerlingh Onnes Laboratory
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