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Nuclear Magnetic Resonance, spin quantum number

Porphyrin is a multi-detectable molecule, that is, a number of its properties are detectable by many physical methods. Not only the most popular nuclear magnetic resonance and light absorption and emission spectroscopic methods, but also the electron spin resonance method for paramagnetic metallopor-phyrins and Mossbauer spectroscopy for iron and tin porphyrins are frequently used to estimate the electronic structure of porphyrins. By using these multi-detectable properties of the porphyrins of CPOs, a novel physical phenomenon is expected to be found. In particular, the topology of the cyclic shape is an ideal one-dimensional state of the materials used in quantum physics [ 16]. The concept of aromaticity found in fuUerenes, spherical aromaticity, will be revised using TT-conjugated CPOs [17]. [Pg.70]

Nucleus Nuclear spin quantum number / Magnetic moment, (ampere square metre x 1027) Resonance frequency in MHz at 1.4092 TESLA Relative sensitivity at the natural isotopic abundance... [Pg.397]

Nuclear magnetic resonance (NMR) is based on a phenomenon that nuclei which possess both magnetic and angular moments (i.e. have odd mass number or odd atomic number) interact with an applied magnetic field B0 yielding 21 + 1 (where 1 is the nuclear spin quantum number) energy levels with separation AE ... [Pg.9]

Nuclear magnetic resonance (NMR) spectroscopy is routinely applied to small carbohydrate molecules. NMR spectroscopy is based on the principle that radiofrequencies are absorbed by hydrogen and carbon atoms ( H and 13C) spinning in one of two directions (spin quantum number +1 /2) in a magnetic field. In liquids, absorption is recorded as sharp peaks. The frequency displacement (chemical shift) is a function of the H and 1SC surroundings. +A is proportional to the number of photons absorbed between these two quantum states, correlating well with anomeric and... [Pg.140]

For chemically interesting nuclei, Table 11.10 lists values of the nuclear spin quantum number I, the nuclear gyromagnetic ratio gN/ the nuclear electric quadrupole moment Q, and the nuclear magnetic resonance frequency v (Hz, for H0 = 1 tesla). [Pg.709]

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See also in sourсe #XX -- [ Pg.84 ]



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Magnetic quantum number

Magnetism: quantum spins

Nuclear magnetic quantum number

Nuclear spin

Nuclear spin, magnetic

Nuclear spins resonance

Quantum Magnetics

Quantum magnetic

Quantum number numbers

Quantum number spin magnetic

Quantum numbers

Quantum resonance

Spin magnetism

Spin magnetization

Spin number

Spin quantum

Spin quantum number

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