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31
P NMR chemical shifts in hypervalent oxyphosphoranes and polymeric orthophosphates
Yong Zhang,
Eric Oldfield
Chemistry
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31
P NMR chemical shifts in hypervalent oxyphosphoranes and polymeric orthophosphates'. Together they form a unique fingerprint.
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Engineering & Materials Science
Chemical shift
100%
Nuclear magnetic resonance
70%
Shielding
48%
Enzymes
27%
Tensors
23%
X rays
21%
Bond length
17%
Molecular structure
15%
Phosphates
13%
Atoms
12%
Substitution reactions
11%
Oxides
10%
Geometry
7%
Physics & Astronomy
chemical equilibrium
62%
nuclear magnetic resonance
47%
shielding
42%
enzymes
25%
phosphorus
23%
reaction intermediates
17%
tensors
17%
perturbation
15%
complex systems
12%
molecular structure
12%
phosphates
11%
x rays
10%
substitutes
9%
slopes
8%
orbitals
8%
oxides
7%
shift
7%
geometry
6%
atoms
5%
interactions
4%
Chemical Compounds
Hypervalence
71%
Phosphorus-31 Magnetic Resonance Spectroscopy
58%
Chemical Shift
47%
Phosphoryl
26%
Phosphorus(.)
19%
Hartree-Fock Method
16%
X-Ray
14%
Inorganic Phosphate
13%
Reaction Intermediate
12%
Solvent Effect
11%
Orbital
9%
Error
8%
Molecular Structure
8%
Substitution Reaction
7%
Oxide
6%
Crystal Structure
5%