TY - JOUR
T1 - Controlling Electrical Conductance through a π‐Conjugated Cruciform Molecule by Selective Anchoring to Gold Electrodes
AU - Huang, Cancan
AU - Chen, Songjie
AU - Ørnsø, Kristian Baruël
AU - Reber, David
AU - Baghernejad, Masoud
AU - Fu, Yongchun
AU - Wandlowski, Thomas
AU - Decurtins, Silvio
AU - Hong, Wenjing
AU - Thygesen, Kristian Sommer
AU - Liu, Shi‐Xia
PY - 2015
Y1 - 2015
N2 - Tuning charge transport at the single‐molecule level plays a crucial role in the construction of molecular electronic devices. Introduced herein is a promising and operationally simple approach to tune two distinct charge‐transport pathways through a cruciform molecule. Upon in situ cleavage of triisopropylsilyl groups, complete conversion from one junction type to another is achieved with a conductance increase by more than one order of magnitude, and it is consistent with predictions from ab initio transport calculations. Although molecules are well known to conduct through different orbitals (either HOMO or LUMO), the present study represents the first experimental realization of switching between HOMO‐ and LUMO‐dominated transport within the same molecule.
AB - Tuning charge transport at the single‐molecule level plays a crucial role in the construction of molecular electronic devices. Introduced herein is a promising and operationally simple approach to tune two distinct charge‐transport pathways through a cruciform molecule. Upon in situ cleavage of triisopropylsilyl groups, complete conversion from one junction type to another is achieved with a conductance increase by more than one order of magnitude, and it is consistent with predictions from ab initio transport calculations. Although molecules are well known to conduct through different orbitals (either HOMO or LUMO), the present study represents the first experimental realization of switching between HOMO‐ and LUMO‐dominated transport within the same molecule.
KW - Ab-initio-Rechnungen
KW - Einzelmolekülstudien
KW - Gold
KW - Leitfähige Materialien
KW - Molekulare Elektronik
U2 - 10.1002/ange.201506026
DO - 10.1002/ange.201506026
M3 - Journal article
SN - 0044-8249
VL - 54
SP - 14512
EP - 14515
JO - Angewandte Chemie
JF - Angewandte Chemie
IS - 48
ER -