Long Spin Coherence and Relaxation Times in Nanodiamonds Milled from Polycrystalline 12C Diamond

Abstract

The negatively charged nitrogen-vacancy centre (NV-) in diamond has been utilized in a wide variety of sensing applications. The centre's long spin coherence and relaxation times (T2*, T2 and T1) at room temperature are crucial to this, as they often limit sensitivity. Using NV- centres in nanodiamonds allows for operations in environments inaccessible to bulk diamond, such as intracellular sensing. We report long spin coherence and relaxation times at room temperature for single NV- centres in isotopically-purified polycrystalline ball-milled nanodiamonds. Using a spin-locking pulse sequence, we observe spin coherence times, T2, up 786 200 μs. We also measure T2* times up to 2.06 0.24 μs and T1 times up to 4.32 0.60 ms. Scanning electron microscopy and atomic force microscopy measurements show that the diamond containing the NV- centre with the longest T1 time is smaller than 100 nm. EPR measurements give an Ns0 concentration of 0.15 0.02 ppm for the nanodiamond sample.