PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
10009636-0	1994	Spin-lattice interaction for ions in low-symmetry sites: The case of Mn2+:CaCO3.	Manganese(2+)	69-73	spindlin 1	Homo sapiens	0-4	
10006222-0	1993	Molecular spin-orbit interaction for d5 ions in covalent crystals: Spin-lattice coupling coefficients of Mn2+ in II-VI compounds.	Manganese(2+)	105-109	spindlin 1	Homo sapiens	10-14	
10006222-0	1993	Molecular spin-orbit interaction for d5 ions in covalent crystals: Spin-lattice coupling coefficients of Mn2+ in II-VI compounds.	Manganese(2+)	105-109	spindlin 1	Homo sapiens	67-71	
34644083-3	2021	The significant enhancement of PLQY is attributed to the formation of (Mn(Cl/Br)4(OH)2)4--(Pb(Cl/Br)4(OH)2)4--(Mn(Cl/Br)4(OH)2)4- chain network structure, in which Pb2+ effectively dilutes the Mn2+ concentration to reduce magnetic coupling between Mn2+ pairs to relax the spin and parity selection rules.	Manganese(2+)	193-197	spindlin 1	Homo sapiens	272-276	
33807780-4	2021	Further analyses suggest that the   z spin direction observed for the Mn2+ ions of MnPS3 is caused by the magnetic dipole-dipole interaction in its magnetic ground state.	Manganese(2+)	70-74	spindlin 1	Homo sapiens	38-42	
34644083-3	2021	The significant enhancement of PLQY is attributed to the formation of (Mn(Cl/Br)4(OH)2)4--(Pb(Cl/Br)4(OH)2)4--(Mn(Cl/Br)4(OH)2)4- chain network structure, in which Pb2+ effectively dilutes the Mn2+ concentration to reduce magnetic coupling between Mn2+ pairs to relax the spin and parity selection rules.	Manganese(2+)	248-252	spindlin 1	Homo sapiens	272-276	
32935976-2	2020	The current work explores spin properties in colloidal CdSe/CdS:Mn seeded-nanorod structures doped with a dilute concentration of Mn2+ ions across the rods.	Manganese(2+)	130-134	spindlin 1	Homo sapiens	26-30	
29733615-0	2018	8-Layer Shifted Hexagonal Perovskite Ba8MnNb6O24: Long-Range Ordering of High-Spin d5 Mn2+ Layers and Electronic Structure.	Manganese(2+)	86-90	spindlin 1	Homo sapiens	78-82	
30542545-1	2018	Spin-reorientation-induced magnetodielectric coupling effects were discovered in two layered perovskite magnets, [C6H5CH2CH2NH3]2[MCl4] (M = Mn2+ and Cu2+), via isothermal magnetodielectric measurements on single-crystal samples.	Manganese(2+)	141-145	spindlin 1	Homo sapiens	0-4	
32585089-4	2020	The inclusion of the magnetic Mn2+ ions is evidenced by three magneto-optical techniques using high magnetic fields up to 15 T: polarized photoluminescence, optically detected magnetic resonance, and spin-flip Raman scattering.	Manganese(2+)	30-34	spindlin 1	Homo sapiens	200-204	
32585089-6	2020	We suggest and test an approach for evaluation of the Mn2+ concentration based on the spin-lattice relaxation dynamics of the Mn2+ spin system.	Manganese(2+)	54-58	spindlin 1	Homo sapiens	86-90	
32585089-6	2020	We suggest and test an approach for evaluation of the Mn2+ concentration based on the spin-lattice relaxation dynamics of the Mn2+ spin system.	Manganese(2+)	54-58	spindlin 1	Homo sapiens	131-135	
32585089-6	2020	We suggest and test an approach for evaluation of the Mn2+ concentration based on the spin-lattice relaxation dynamics of the Mn2+ spin system.	Manganese(2+)	126-130	spindlin 1	Homo sapiens	86-90	
32585089-6	2020	We suggest and test an approach for evaluation of the Mn2+ concentration based on the spin-lattice relaxation dynamics of the Mn2+ spin system.	Manganese(2+)	126-130	spindlin 1	Homo sapiens	131-135	
29697132-4	2018	In this contribution, pulse EPR experiments on model systems containing discrete mixtures of Cr(i) and Cr(iii) or Cu(ii) and Mn(ii) complexes demonstrate the feasibility of the separation of the EPR spectra of these species by inversion recovery filters and the identification of the relevant spin states by transient nutation experiments.	Manganese(2+)	125-131	spindlin 1	Homo sapiens	293-297	
21842872-0	2011	Spin control in oxamato-based manganese(II)-copper(II) coordination polymers with brick-wall layer architectures.	Manganese(2+)	30-43	spindlin 1	Homo sapiens	0-4	
27461135-5	2016	22 % unit-cell volume changes, which was found to be coupled with the Mn(2+) (d(5) ) spin-state transition from S=5/2 to S=1/2 and the formation of Mn-Mn intermetallic bonds as supported by the metallic transport behavior of their high-pressure phases.	Manganese(2+)	70-76	spindlin 1	Homo sapiens	85-89	
27461135-6	2016	Our results reveal the mutual relationship between pressure-driven lattice collapse and the orbital/spin-state of Mn(2+) in manganese chalcogenides and also provide deeper insights toward the exploration of new metastable phases with exceptional functionalities.	Manganese(2+)	114-120	spindlin 1	Homo sapiens	100-104	
27010120-4	2016	The topology of the magnetic interactions in the [MnMn(III)] core provides a suitable template for the molecular qubit implementation and the stability of the spin-1/2 ground state strongly depends on the antiferromagnetic Mn(II)-Mn(II) coupling.	Manganese(2+)	223-229	spindlin 1	Homo sapiens	159-167	
27010120-4	2016	The topology of the magnetic interactions in the [MnMn(III)] core provides a suitable template for the molecular qubit implementation and the stability of the spin-1/2 ground state strongly depends on the antiferromagnetic Mn(II)-Mn(II) coupling.	Manganese(2+)	230-236	spindlin 1	Homo sapiens	159-167	
25166407-3	2013	In this case, the spin precession of Mn(2+) embedded in the lattice approaches the precession expected for the free ion.	Manganese(2+)	37-43	spindlin 1	Homo sapiens	18-22	
21902367-0	2011	Spin-polarized Mn2+ emission from Mn-doped colloidal nanocrystals.	Manganese(2+)	15-19	spindlin 1	Homo sapiens	0-4	
11237628-10	2001	For the case of Mn(2+) salts, static dipolar interactions with paramagnetic ions in the aqueous phase also make a further appreciable contribution to the spin-label relaxation enhancement.	Manganese(2+)	16-22	spindlin 1	Homo sapiens	154-158	
21673400-7	2011	The applicability of spin resolved electron spectroscopy for characterizing magnetic states of constituent atoms compared to magnetic circular dichroism (MCD) is verified: the spin polarization obtained from Mn(II)(acetate)(2) 4H(2)O at room temperature in the paramagnetic state compares to the MCD asymmetry revealed for a star-shaped molecule with a Mn(4)(II)O(6) core at 5 K in an external magnetic field of 5 T.	Manganese(2+)	208-214	spindlin 1	Homo sapiens	21-25	
21673400-7	2011	The applicability of spin resolved electron spectroscopy for characterizing magnetic states of constituent atoms compared to magnetic circular dichroism (MCD) is verified: the spin polarization obtained from Mn(II)(acetate)(2) 4H(2)O at room temperature in the paramagnetic state compares to the MCD asymmetry revealed for a star-shaped molecule with a Mn(4)(II)O(6) core at 5 K in an external magnetic field of 5 T.	Manganese(2+)	208-214	spindlin 1	Homo sapiens	176-180	
12452719-5	2002	The Mn(II)-Ni(II) weak ferromagnetic coupling in the chain is interpreted in a spin delocalization mechanism as resulting from the weakness of the overlap between the magnetic orbitals centered on nickel and those centered on manganese which are only weakly delocalized on the ligands.	Manganese(2+)	4-10	spindlin 1	Homo sapiens	79-83