Journal article
Metal–ligand covalency enables room temperature molecular qubit candidates
Chemical science (Cambridge), Vol.10(27), pp.6707-6714
07/21/2019
DOI: 10.1039/C9SC00074G
PMCID: PMC6625489
PMID: 31367325
Abstract
Harnessing synthetic chemistry to design electronic spin-based qubits, the smallest unit of a quantum information system, enables us to probe fundamental questions regarding spin relaxation dynamics. We sought to probe the influence of metal–ligand covalency on spin–lattice relaxation, which comprises the upper limit of coherence time. Specifically, we studied the impact of the first coordination sphere on spin–lattice relaxation through a series of four molecules featuring V–S, V–Se, Cu–S, and Cu–Se bonds, the Ph
4
P
+
salts of the complexes [V(C
6
H
4
S
2
)
3
]
2−
(
1
), [Cu(C
6
H
4
S
2
)
2
]
2−
(
2
), [V(C
6
H
4
Se
2
)
3
]
2−
(
3
), and [Cu(C
6
H
4
Se
2
)
2
]
2−
(
4
). The combined results of pulse electron paramagnetic resonance spectroscopy and ac magnetic susceptibility studies demonstrate the influence of greater M–L covalency, and consequently spin-delocalization onto the ligand, on elongating spin–lattice relaxation times. Notably, we observe the longest spin–lattice relaxation times in
2
, and spin echos that survive until room temperature in both copper complexes (
2
and
4
).
Details
- Title: Subtitle
- Metal–ligand covalency enables room temperature molecular qubit candidates
- Creators
- Majed S. Fataftah - Northwestern UniversityMatthew D. Krzyaniak - Northwestern UniversityBess Vlaisavljevich - University of South DakotaMichael R. Wasielewski - Northwestern UniversityJoseph M. Zadrozny - Colorado State UniversityDanna E. Freedman - Northwestern University
- Resource Type
- Journal article
- Publication Details
- Chemical science (Cambridge), Vol.10(27), pp.6707-6714
- DOI
- 10.1039/C9SC00074G
- PMID
- 31367325
- PMCID
- PMC6625489
- ISSN
- 2041-6520
- eISSN
- 2041-6539
- Grant note
- DOI: 10.13039/100000001, name: National Science Foundation, award: CHE-1455017, CHE-1565925; DOI: 10.13039/100007059, name: Northwestern University
- Language
- English
- Date published
- 07/21/2019
- Academic Unit
- Chemistry
- Record Identifier
- 9984618523402771
Metrics
6 Record Views