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W2765754294 abstract "Since fabricating geometrically well-defined, noninvasive, and compliant electrical contacts over molecular monolayers is difficult, creating molecular-scale electronic devices that function in high yield with good reproducibility is challenging. Moreover, none of the previously reported methods to form organic-electrode contacts at the nanometer and micrometer scales have resulted in directly addressable contacts in an untethered form under ambient conditions without the use of cumbersome equipment and nanolithography. Here we show that in situ encapsulation of a liquid metal (eutectic Ga-In alloy) microelectrode, which is used for junction formation, with a convenient photocurable polymeric scaffold enables untethering of the electrode and direct writing of arbitrary arrays of high-yielding molecular junctions under ambient conditions in a maskless fashion. The formed junctions function in quantitative yields and can afford tunneling currents with high reproducibility; they also function at low temperatures and under bent. The results reported here promise a massively parallel printing technology to construct integrated circuits based on molecular junctions with soft top contacts." @default.
W2765754294 created "2017-11-10" @default.
W2765754294 creator A5052724973 @default.
W2765754294 creator A5060324897 @default.
W2765754294 creator A5061987787 @default.
W2765754294 date "2017-11-08" @default.
W2765754294 modified "2023-09-23" @default.
W2765754294 title "Maskless Arbitrary Writing of Molecular Tunnel Junctions" @default.
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W2765754294 doi "https://doi.org/10.1021/acsami.7b14347" @default.
W2765754294 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29087173" @default.
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