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Hsu, C. (author), Gehring, P. (author), van der Zant, H.S.J. (author)
As the miniaturization of electronics continuously progresses, harvesting and generating thermoelectric energy with high efficiency become a key concept to integrate. Theoretical studies suggest that single-molecule devices are ideal candidates for thermoelectric devices with unprecedentedly high efficiencies. Such advantage is achieved by...
poster 2022
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Hsu, C. (author), Reznikova, Ksenia (author), Schosser, Werner M. (author), Gallego, Almudena (author), Beltako, Katawoura (author), Pauly, Fabian (author), van der Zant, H.S.J. (author), Mayor, Marcel (author)
Quantum interference (QI) within a single-molecule junction has become an essential yet powerful concept to integrate for designing molecular electronic devices.1 Recently we have investigated the correlation between substitution pattern, conductance and mechanosensitivity in [2.2]paracyclophane(PCP)-based single-molecule junction via the...
poster 2021
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Hsu, C. (author), Stefani, D. (author), Weiland, Kevin J. (author), Skripnik, Maxim (author), Perrin, M.L. (author), Mayor, Marcel (author), Pauly, Fabian (author), van der Zant, H.S.J. (author)
A great interest of molecular electronics comes from its change in electronic structure through external stimuli, which provides functionality at the single-molecule level. Mechanically-controlled break junction (MCBJ) is a great tool for characterizing molecular properties and their response to different stimuli including light, solvent and...
poster 2019
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