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SOLIDS --- SPIN, NUCLEAR COUPLING --- NUCLEAR MAGNETIC RESONANCE --- MAGNETIC RELAXATION --- SOLIDS --- SPIN, NUCLEAR COUPLING --- NUCLEAR MAGNETIC RESONANCE --- MAGNETIC RELAXATION
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MAGNETIC PROPERTIES --- MAGNETIC RELAXATION --- MOLECULAR ASSOCIATION --- RADICALS (CHEMISTRY) --- NUCLEAR MAGNETIC RESONANCE --- PROTEINS --- MACROMOLECULAR COMPOUNDS --- MAGNETIC PROPERTIES --- MAGNETIC RELAXATION --- MOLECULAR ASSOCIATION --- RADICALS (CHEMISTRY) --- NUCLEAR MAGNETIC RESONANCE --- PROTEINS --- MACROMOLECULAR COMPOUNDS
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Nuclear magnetic resonance spectroscopy --- Congresses. --- Molecular orbitals. --- Isotopes --- Magnetic relaxation --- Solids
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Nuclear magnetic resonance. --- Nuclear quadrupole resonance. --- Radicals (Chemistry) --- Esr (electron spin resonance) --- Liquid crystals --- Magnetic relaxation --- Moessbauer effect --- Spin, nuclear
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Fluids --- Molecular theory --- Chemistry, Physical --- Chemistry --- Natural Science Disciplines --- Disciplines and Occupations --- congresses. --- Congresses. --- Fluids. --- Molecular dynamics. --- Chemical chains --- Interface --- Magnetic relaxation --- Quantum mechanics --- Thermodynamics --- Water
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Liquid crystals --- Nuclear magnetic resonance spectroscopy --- Analysis --- Congresses. --- Cristaux liquides. Sprectroscopie de résonance magnétique nucléaire. (Congrès) --- Vloeibare kristallen. Kernresonantie (Magnetische). (Congres) --- Molecular association. --- Magnetic relaxation --- Membranes --- Molecular orientation --- Order
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Electron paramagnetic resonance spectroscopy --- Nuclear magnetic resonance spectroscopy --- 537.6 --- NMR spectroscopy --- Spectroscopy, NMR --- Spectroscopy, Nuclear magnetic resonance --- Nuclear spectroscopy --- Knight shift --- Electron spin resonance spectroscopy --- EPR spectroscopy --- ESR spectroscopy --- Spectrum analysis --- Magnetism --- 537.6 Magnetism --- Nuclear magnetic resonance. --- Radicals (Chemistry) --- Esr (electron spin resonance) --- Magnetic relaxation --- Membranes --- Solids --- Tunneling
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Nuclear magnetic resonance --- 537.6 --- 537.6 Magnetism --- Magnetism --- Experimental solid state physics --- Theoretical spectroscopy. Spectroscopic techniques --- fysicochemie --- Electromagnetism. Ferromagnetism --- Nuclear magnetic resonance. --- EPR. --- Electric quadrupole effects. --- Lattice relaxation. --- Magnetic dipolar braodening of rigid lattices. --- Résonance magnétique nucléaire --- Nuclear quadrupole resonance. --- Endor (electron nuclear double resonance) --- Esr (electron spin resonance) --- Magnetic relaxation
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Nuclear Magnetic Resonance --- Nuclear magnetic resonance spectroscopy --- Spectroscopie de la résonance magnétique nucléaire --- methods --- 543.422.25 --- #WSCH:MODS --- Using high frequency electromagnetic waves (radio waves). Nuclear manetic resonance spectroscopy. NMR spectroscopy --- 543.422.25 Using high frequency electromagnetic waves (radio waves). Nuclear manetic resonance spectroscopy. NMR spectroscopy --- Magnetic Resonance Spectroscopy --- Spectroscopie de la résonance magnétique nucléaire --- methods. --- NMR spectroscopy --- Spectroscopy, NMR --- Spectroscopy, Nuclear magnetic resonance --- Nuclear spectroscopy --- Knight shift --- Liquids. --- Nuclear magnetic resonance. --- Magnetic relaxation
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Research on molecule-based magnetic materials was systematized in the 1980s and expanded rapidly. A Special Issue focusing on molecule-based magnetic substances was published in Magnetochemistry. However, the functionalities of the substances increase daily; therefore, the researchers’ quest is not yet in decline. Research on molecule-based magnetism developed across many fields, including chemistry, physics, material chemistry, and applied physics, and the use of the various functionalities of these molecule-based magnetic substances has greatly influenced research on spin-based devices. In honor of Professor Masahiro Yamashita, who contributed greatly to this field, I have put together a Special Issue that highlights ten groundbreaking articles. The issue is entitled, “A Themed Issue of Functional Molecule-Based Magnets: Dedicated to Professor Masahiro Yamashita on the Occasion of his 65th Birthday”. I wish to thank the authors for their dedicated work, and the referees and editorial staff for the time they invested commenting on the articles.
pressure effect --- slow magnetic relaxation --- n/a --- graphene oxide --- mixed metal Co/Ln clusters --- X-ray diffraction --- magnetism --- AC susceptibility --- two-dimensional (2D) ferrimagnets --- cobalt --- coordination clusters --- lanthanides --- DFT calculation --- long-range magnetic ordering --- iron complex --- single-molecule magnets --- lanthanide complex --- coordination polymers --- octacyanidoniobate(IV) --- ferromagnetism --- nickel(II) --- heterometallic layers --- single-molecule magnet --- spin crossover --- high pressure --- molecule-based magnets --- chloranilato --- [2 --- crystal structure --- lanthanide ions --- honeycomb layers --- 3d/4f metal clusters --- di-2 pyridyl ketone
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