CVD-grown nanodiamonds of ~60 nm achieve mean T1 spin relaxation times of 800 μs with maxima over 1.8 ms, nearly ten times longer than commercial nanodiamonds in the 50-150 nm range.
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Both (CePr)O2-δ and (CePrLa)O2-δ retain cubic fluorite structure to 30 GPa with a 9-16 GPa anomaly from local distortions and bond bending, while the La-containing compound amorphizes above 22 GPa.
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Long Spin Relaxation Times in CVD-Grown Nanodiamonds
CVD-grown nanodiamonds of ~60 nm achieve mean T1 spin relaxation times of 800 μs with maxima over 1.8 ms, nearly ten times longer than commercial nanodiamonds in the 50-150 nm range.
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Comparative high-pressure study on rare-earth entropy fluorite-type oxides
Both (CePr)O2-δ and (CePrLa)O2-δ retain cubic fluorite structure to 30 GPa with a 9-16 GPa anomaly from local distortions and bond bending, while the La-containing compound amorphizes above 22 GPa.