Zhenlin Wu

TL;DR: T2 is more than two orders of magnitude greater than the duration of the spin manipulation pulses, which suggests that copper phthalocyanine holds promise for quantum information processing, and the long T1 indicates possibilities for medium-term storage of classical bits in all-organic devices on plastic substrates.

TL;DR: In this article, a blue pigment called copper phthalocyanine, commonly used in paints and dyes, appears to satisfy this requirement and can be easily processed into a thin-film form of the type used for device fabrication.

TL;DR: In this paper, it was shown that the optical and magnetic properties of FePc are controlled by the growth strategy, obtaining extremely high coercivities of over 1 T and modulating the exchange constant between 15 and 29 K through tuning the crystal phase by switching from organic molecular beam deposition, producing continuous thin films of nanocrystals with controlled orientations, to organic vapour phase deposition, and producing ultralong nanowires.

TL;DR: In this paper, it was shown that the optical and magnetic properties of FePc are controlled by the growth strategy, obtaining extremely high coercivities of over 1 T and modulating the exchange constant between 15 and 29 K through tuning the crystal phase by switching from organic molecular beam deposition, producing continuous thin films of nanocrystals with controlled orientations, to organic vapour phase deposition, and producing ultralong nanowires.

TL;DR: In this article, the electronic structure and exchange interactions in a copper-IIphthalocyanine (Cu(II)Pc) crystal were calculated using hybrid exchange density functional theory (DFT) and Green's function perturbation theory (GFPT).