Modular Approach to Creating Functionalized Surface Arrays of Molecular Qubits

Tesi, Lorenzo; Stemmler, Friedrich; Winkler, Mario; Liu, Sherri S. Y.; Das, Saunak; Sun, Xiuming; Zharnikov, Michael; Ludwigs, Sabine; Slageren, Joris van

doi:10.1002/adma.202208998

Cited by 20 publications

(23 citation statements)

References 103 publications

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“…As such module, we take 10-ethynyl-decorated 1,8,13-trimercaptomethyltriptycene (EtTripS; see Figure ), which can be obtained from EtTripSAc (Scheme ). The terminal ethynyl moiety of this molecule is useful for functionalization using cross-coupling reactions and can potentially participate in click reaction with azide-decorated functional groups. , Analogous reactions were demonstrated for a variety of template SAMs, mostly with azide-terminated molecules and ethynyl-decorated substituents − and also other way around, − similar to the present case. Here, as a representative test, we apply click reaction to the EtTripS template assembled on Au(111), a most frequently used substrate for the SAM fabrication, relevant as well as an electrical contact material in organic and molecular electronics.…”

Section: Introductionsupporting

confidence: 72%

Triptycene-Based Self-Assembled Monolayer as a Template for Successive Click Reactions

et al. 2023

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Triptycene-based molecules represent a promising platform for tripodal monomolecular assembly on solid substrates. The versatility of the approach can be increased significantly if a decoration of the assembled tripods by purpose-specific functional groups will be possible. In this context, the possibility of click reaction between the 10-ethynyl-substituted 1,8,13-trimercaptomethyltriptycene monolayer (EtTripS) on Au( 111) and an azidedecorated substituent is tested and additionally verified by a subsequent derivatization reaction. The primary monolayer is shown to exhibit dense molecular packing, tripodal adsorption geometry, and high orientational order, which qualify it well as a template for subsequent reactions. The characteristic spectroscopic fingerprints of the click and derivatization reactions were recorded. The overall impact of these reactions on the work function of the EtTripS-engineered substrate�used as a measure of their efficiency and as an example of functional properties�was well comparable with the effect of the analogous substitution (−CF 3 ) for monodentate monolayers, emphasizing the high potential of the on-surface modification approach.

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Section: Introductionsupporting

confidence: 72%

Triptycene-Based Self-Assembled Monolayer as a Template for Successive Click Reactions

et al. 2023

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“…Each p-bit could consist of a large molecu-lar ensemble rather than a single molecule, and indeed there are rapid advances both in the interaction of thin ensembles of spins with electronic circuits 39,40 and in chemical paths for protecting monolayers of spins from disruption by a substrate. 41 Working with a monolayer of M molecules would have the following major implications:…”

Section: Lanthanide-based Molecular Spin P-bit Networkmentioning

confidence: 99%

Lanthanide molecular nanomagnets as probabilistic bits

Gutiérrez-Finol

Giménez‐Santamarina

et al. 2023

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Over the decades, the spin dynamics of a large set of lanthanide complexes have been explored. Lanthanide-based molecular nanomagnets are bistable spin systems, generally conceptualized as classical bits, but many lanthanide complexes have also been presented as candidate quantum bits (qubits). Here we offer a third alternative and model them as probabilistic bits (p-bits), where their stochastic behavior constitutes a computational resource instead of a limitation. We present a modelling tool for molecular spin p-bits, we demonstrate its capability to simulate bulk magnetic relaxation data and ac experiments and to simulate a minimal p-bit network under realistic conditions. Finally, we go back to a recent systematic data gathering and screen the best lanthanide complexes for p-bit behavior, lay out the performance of the different lanthanide ions and chemical families and offer some chemical design considerations.

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“…Using click chemistry, McCreery et al 20 fabricated bilayer SAMs of ferrocene in high yield. Besides, Slageren et al 12 used click chemistry to arrange molecular qubits as functional groups to avoid a laid-down orientation by direct deposition. Crivillers et al 21 combined radical chemistry with click chemistry on a platform of molecular self-assembled monolayers to synthesize multistate electrochemical switches by surface modification.…”

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confidence: 99%

“…In the meantime, the self-assembly of molecules with different structures forming stable and well-organized electrical circuits is considered to be another huge challenge, limited by state-of-the-art nanofabrication technology. Many factors, such as the roughness of the substrates, 9 anchoring groups, 10 types of backbones 11 and terminal functional groups 12 simultaneously influence the packing process. Therefore, it is necessary to develop a method that advances the traditional protocol for the synthesis and fabrication of molecular junctions.…”

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confidence: 99%