AI Article Synopsis
- This study explores the controlled assembly of phthalocyanine (HPc) molecular clusters on a silver (Ag(111)) surface using a low-temperature scanning tunneling microscope (STM).
- The research demonstrates that deprotonating every second HPc molecule creates isomeric bistability, enabling these molecules to function as inputs for logic gates.
- Findings indicate that these isomers interact electrostatically, causing adjacent HPc molecules to tilt in specific directions, effectively representing binary logic states and allowing information transfer over distances equal to nine molecules.
Article Abstract
One particularly fascinating vision for charge-operated devices is the controlled assembly of structures from single surface-deposited molecules. Here, we report on the assembly of linear clusters that consist of phthalocyanine (HPc) molecules on a Ag(111) surface. The molecules are imaged as well as manipulated with a low-temperature scanning tunneling microscope (STM). Upon deprotonation of every second HPc, the resulting HPc molecule exhibits an isomeric bistability which can be used as inputs in logic gates. Combining our STM measurements with density functional theory calculations we show that the HPc isomers exhibit a repulsive electrostatic interaction with adjacent HPc molecules which, due to the asymmetric charge distribution on HPc, results in a counterclockwise or clockwise molecule tilt of the latter, thereby defining the logic 0 and 1 of the output. It is shown that information can be relayed along molecule chains over distances equivalent to at least nine molecules.
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| http://dx.doi.org/10.1021/acs.nanolett.0c03984 | DOI Listing |
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