Spin-Polarized Radicals with Extremely Long Spin-Lattice Relaxation Time at Room Temperature in a Metal-Organic Framework

Abstract: The generation of spin polarization is key in quantum information science and dynamical nuclear polarization. Polarized electron spins with long spin-lattice relaxation times (T1) at room temperature are important for these applications, but have been difficult to achieve. We report the realization of spin-polarized radicals with extremely long T1 at room temperature in a metal-organic framework (MOF) in which azaacene chromophores are densely integrated. Persistent radicals are generated in the MOF by charge … Show more

“…The nanoporous structures and the interaction between the host electron spins and the guest molecules offer a promising platform for quantum sensing in the fields of chemistry and biology. [1][2][3][4][5][6] Several kinds of porous systems have been proposed, such as metal-organic frameworks (MOFs) containing a paramagnetic metal centre, 1,[7][8][9][10] MOFs and covalent-organic frameworks (COFs) with organic radicals, 6,[11][12][13][14][15] and chromophore triplets in MOFs. 16 A key challenge in applying these materials to quantum science is to extend the coherence time or spin-spin relaxation time (T 2 ), which is the lifetime of the superposition quantum states.…”

“…We have recently developed a dense chromophore-integrated MOF, which exhibits photoinduced radicals with significantly long spin-lattice relaxation time (T 1 ) and T 2 values even at room temperature. 6 Our previous MOF system (DAT-MOF-1) consists of a ligand containing the 5,12-diazatetracene (DAT) chromophore 20 and the 4,4′-biphenyldicarboxylic acid (BPDC) coligand bound to Zn-paddlewheel units. The co-ligand and Zn paddlewheels are considered to be redox-inert species.…”

“…In our previous report, the typical aromatic radical g value of 2.0023 was observed in DAT-MOF-1. 6,30 The observed radicals were assumed as oxidized/reduced DAT molecules formed by photoinduced charge separation. We observed similar values for DAT-MOF-2 (g = 2.0018) and DAT-MOF-3 (g = 2.0023) (Fig.…”

“…In addition to the ligand-derived absorption band below 600 nm, a new broad absorption band between 600-900 nm appeared immediately after laser irradiation, and its intensity decreased after 12 h in the dark. 6,31 Since the new broad absorption band also appeared in the chemically oxidized DAT-MOF-1, the generation of the DAT cation radical by photoirradiation was indicated. Fig.…”

Radical qubits photo-generated in acene-based metal–organic frameworks

“…The nanoporous structures and the interaction between the host electron spins and the guest molecules offer a promising platform for quantum sensing in the fields of chemistry and biology. [1][2][3][4][5][6] Several kinds of porous systems have been proposed, such as metal-organic frameworks (MOFs) containing a paramagnetic metal centre, 1,[7][8][9][10] MOFs and covalent-organic frameworks (COFs) with organic radicals, 6,[11][12][13][14][15] and chromophore triplets in MOFs. 16 A key challenge in applying these materials to quantum science is to extend the coherence time or spin-spin relaxation time (T 2 ), which is the lifetime of the superposition quantum states.…”

“…We have recently developed a dense chromophore-integrated MOF, which exhibits photoinduced radicals with significantly long spin-lattice relaxation time (T 1 ) and T 2 values even at room temperature. 6 Our previous MOF system (DAT-MOF-1) consists of a ligand containing the 5,12-diazatetracene (DAT) chromophore 20 and the 4,4′-biphenyldicarboxylic acid (BPDC) coligand bound to Zn-paddlewheel units. The co-ligand and Zn paddlewheels are considered to be redox-inert species.…”

“…In our previous report, the typical aromatic radical g value of 2.0023 was observed in DAT-MOF-1. 6,30 The observed radicals were assumed as oxidized/reduced DAT molecules formed by photoinduced charge separation. We observed similar values for DAT-MOF-2 (g = 2.0018) and DAT-MOF-3 (g = 2.0023) (Fig.…”

“…In addition to the ligand-derived absorption band below 600 nm, a new broad absorption band between 600-900 nm appeared immediately after laser irradiation, and its intensity decreased after 12 h in the dark. 6,31 Since the new broad absorption band also appeared in the chemically oxidized DAT-MOF-1, the generation of the DAT cation radical by photoirradiation was indicated. Fig.…”

Radical qubits photo-generated in acene-based metal–organic frameworks