David K. Lee scite author profile

(2)H T(1) NMR relaxation was used to characterize the molecular motion of deuterated water ((2)H(2)O) in Aquivion E87-05, Nafion 117, and sulfonated-Radel proton-exchange membranes. The presence of bound water with solid character was confirmed by the dependence of the (2)H T(1) relaxation on the magnetic field of the spectrometer. By comparing the (2)H T(1) relaxation times of the different membranes that were equilibrated in varying humidities, the factors that influence the state of water in the membranes were identified. At low levels of hydration, the molecular motion of (2)H(2)O is affected by the acidity and mobility of the sulfonic acid groups to which the water molecules are coordinated. At higher levels of hydration, the molecular motion of (2)H(2)O is affected by the phase separation of the hydrophilic/hydrophobic domains and the size of the hydrophilic domains.

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The effects of cations and anions on the ionic conductivity of poly[bis(2-(2-methoxyethoxy)ethoxy)phosphazene] doped with lithium and magnesium salts of trifluoromethanesulfonate and bis(trifluoromethanesulfonyl)imidate

Lee

Allcock

2010

Solid State Ionics

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David K. Lee

Arabidopsis MPSS. An Online Resource for Quantitative Expression Analysis

Characterization of Water in Proton-Conducting Membranes by Deuterium NMR T₁ Relaxation

The effects of cations and anions on the ionic conductivity of poly[bis(2-(2-methoxyethoxy)ethoxy)phosphazene] doped with lithium and magnesium salts of trifluoromethanesulfonate and bis(trifluoromethanesulfonyl)imidate

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David K. Lee

Arabidopsis MPSS. An Online Resource for Quantitative Expression Analysis

Characterization of Water in Proton-Conducting Membranes by Deuterium NMR T1 Relaxation

The effects of cations and anions on the ionic conductivity of poly[bis(2-(2-methoxyethoxy)ethoxy)phosphazene] doped with lithium and magnesium salts of trifluoromethanesulfonate and bis(trifluoromethanesulfonyl)imidate

Contact Info

Product

Resources

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Characterization of Water in Proton-Conducting Membranes by Deuterium NMR T₁ Relaxation