Molecular design and control of fullerene-based bi-thermoelectric materials
- 7 December 2015
- journal article
- Published by Springer Nature in Nature Materials
- Vol. 15 (3), 289-293
- https://doi.org/10.1038/nmat4487
Abstract
The thermoelectric response of a fullerene-gold electrode single-molecule junction has been studied in a scanning tunnelling microscope. The junction exhibits positive and negative thermopower, dependent on molecule orientation and applied pressure.Keywords
This publication has 26 references indexed in Scilit:
- Controlling the Thermoelectric Properties of Thiophene-Derived Single-Molecule JunctionsChemistry of Materials, 2014
- Electrostatic control of thermoelectricity in molecular junctionsNature Nanotechnology, 2014
- Thermopower of Benzenedithiol and C60 Molecular Junctions with Ni and Au ElectrodesNano Letters, 2014
- Length-Dependent Thermopower of Highly Conducting Au–C Bonded Single Molecule JunctionsNano Letters, 2013
- Engineering the Thermopower of C60 Molecular JunctionsNano Letters, 2013
- End-Group-Induced Charge Transfer in Molecular Junctions: Effect on Electronic-Structure and ThermopowerThe Journal of Physical Chemistry Letters, 2012
- Thermoelectricity in Fullerene–Metal HeterojunctionsNano Letters, 2011
- Effect of Length and Contact Chemistry on the Electronic Structure and Thermoelectric Properties of Molecular JunctionsJournal of the American Chemical Society, 2011
- Identifying the Length Dependence of Orbital Alignment and Contact Coupling in Molecular HeterojunctionsNano Letters, 2009
- Probing the Chemistry of Molecular Heterojunctions Using ThermoelectricityNano Letters, 2008