Adsorbate-Induced Modification of the Confining Barriers in a Quantum Box Array.

Sylwia Nowakowska ,Igor A Pašti ,Tobias Voigt ,Matthias Muntwiler ,Aisha Ahsan ,Max Broszio ,Olha Popova ,M Leandersson ,Meike Stöhr ,Federico Mazzola ,Natalia V Skorodumova ,Seyedeh Fatemeh Mousavi ,Justin W Wells ,Aneliia Wäckerlin ,M N Alberti ,W Bernd Schweizer ,Christian Wäckerlin ,Miloš Baljozović ,Jérôme Wiss ,Toni Ivas ,Thomas Nijs ,Jun Zhang ,Jan Nowakowski ,Craig Polley ,Fei Song ,François Diederich ,Carlo Thilgen ,Shadi Fatayer ,Thomas A Jung

doi:10.1021/acsnano.7b07989

Adsorbate-Induced Modification of the Confining Barriers in a Quantum Box Array.

Sylwia Nowakowska , Igor A Pašti + Show 27 more

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https://doi.org/10.1021/acsnano.7b07989

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Journal: ACS nano	Publication Date: Jan 11, 2018
Citations: 7

Affiliation: University of Basel, University of Belgrade, ETH Zurich, Paul Scherrer Institute, MAX IV Laboratory, Lund University, University of Groningen, Norwegian University of Science and Technology, Uppsala University, KTH Royal Institute of Technology, Swiss Federal Laboratories for Materials Science and Technology, Chinese Academy of Sciences, Shanghai Institute of Applied Physics, Universidade Estadual de Campinas

#Quantum Box #Organic Network + Show 8 more

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Abstract

Quantum devices depend on addressable elements, which can be modified separately and in their mutual interaction. Self-assembly at surfaces, for example, formation of a porous (metal-) organic network, provides an ideal way to manufacture arrays of identical quantum boxes, arising in this case from the confinement of the electronic (Shockley) surface state within the pores. We show that the electronic quantum box state as well as the interbox coupling can be modified locally to a varying extent by a selective choice of adsorbates, here C60, interacting with the barrier. In view of the wealth of differently acting adsorbates, this approach allows for engineering quantum states in on-surface network architectures.

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