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<i>sp</i><sup>3</sup>-Functionalization of Single-Walled Carbon Nanotubes Creates Localized Spins

Sven-Hendrik Lohmann, Kasidet Jing Trerayapiwat, Jens Niklas, Oleg G. Poluektov, Sahar Sharifzadeh, Xuedan Ma

2020ACS Nano28 citationsDOIOpen Access PDF

Abstract

Chemical functionalization-introduced sp3 quantum defects in single-walled carbon nanotubes (SWCNTs) have shown compelling optical properties for their potential applications in quantum information science and bioimaging. Here, we utilize temperature- and power-dependent electron spin resonance measurements to study the fundamental spin properties of SWCNTs functionalized with well-controlled densities of sp3 quantum defects. Signatures of isolated spins that are highly localized at the sp3 defect sites are observed, which we further confirm with density functional theory calculations. Applying temperature-dependent line width analysis and power-saturation measurements, we estimate the spin–lattice relaxation time T1 and spin dephasing time T2 to be around 9 μs and 40 ns, respectively. These findings of the localized spin states that are associated with the sp3 quantum defects not only deepen our understanding of the molecular structures of the quantum defects but could also have strong implications for their applications in quantum information science.

Topics & Concepts

Carbon nanotubeSpinsDephasingMaterials scienceDensity functional theoryChemical physicsQuantumElectron paramagnetic resonanceCondensed matter physicsSpin (aerodynamics)Spin engineeringSurface modificationNanotechnologyMolecular physicsElectronSpin polarizationChemistryPhysicsComputational chemistryNuclear magnetic resonanceQuantum mechanicsPhysical chemistryThermodynamicsCarbon Nanotubes in CompositesMechanical and Optical ResonatorsDiamond and Carbon-based Materials Research
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