2019
DOI: 10.1039/c8sc04500c
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Enabling single qubit addressability in a molecular semiconductor comprising gold-supported organic radicals

Abstract: An organic radical attached to gold represents an electrically addressable prototype electron spin qubit with an impressively long coherence lifetime.

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Cited by 19 publications
(14 citation statements)
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“…This unexpected hastening of relaxation time may be the result of the increased spin-orbit coupling from the selenium-donor atoms. 54,55 This prompts us to conclude the heavy atom effect from donor atoms strongly affects T 1 in highly covalent systems. Finally, the combined spin-orbit coupling of the metal-based spin with the low-energy vibrational modes in the vanadium(IV) complexes accounts for their fast T 1 rates at higher temperatures.…”
Section: Resultsmentioning
confidence: 98%
“…This unexpected hastening of relaxation time may be the result of the increased spin-orbit coupling from the selenium-donor atoms. 54,55 This prompts us to conclude the heavy atom effect from donor atoms strongly affects T 1 in highly covalent systems. Finally, the combined spin-orbit coupling of the metal-based spin with the low-energy vibrational modes in the vanadium(IV) complexes accounts for their fast T 1 rates at higher temperatures.…”
Section: Resultsmentioning
confidence: 98%
“…From this, we can conclude that quantum coherence is largely preserved even in the presence of mobile charge carriers, in contrast to what had been observed previously. [ 25 ] In the dithiolate materials of ref. [ 25 ] , electrical conductivity is engendered by suitable stacking of the dithiolate ligands in the solid, combined with charge doping.…”
Section: Resultsmentioning
confidence: 99%
“…[25] In the dithiolate materials of ref. [25], electrical conductivity is engendered by suitable stacking of the dithiolate ligands in the solid, combined with charge doping. The quantum bit is prepared by one-electron oxidation of the gold complex, which can be viewed as molecular-level charge doping, and [36] the relevant orbital is largely localized on the dithiolate ligand.…”
Section: (7 Of 10)mentioning
confidence: 99%
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“…Some organic radicals, similar to the metal complexes, can be assembled into functional architectures such as MOFs [42] . Therefore, pursuing the “radical approach” to spin qubits is quite promising [43, 44] . Similar to other qubit candidates, it requires optimization of stability, increase of T m , and development of strategies for mutual arrangement of the qubits.…”
Section: Figurementioning
confidence: 99%