2005
DOI: 10.1007/s00396-005-1303-8
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Hydration and dehydration behavior of N-isopropylacrylamide gel particles

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Cited by 45 publications
(63 citation statements)
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“…Shikata and coworkers [15][16][17] determined from dielectric spectroscopy that hydration number of water bound on per monomer below the LCST is 11 and when the temperature is increased to LCST, all the 11 water molecules dehydrated from the monomer unit. This result is close to the value of 13 obtained from differential scanning calorimetry by Shibayama et al 18,19 Kogure et al 20 quantitatively evaluated the hydration number bound to one NiPAM monomer in PNIPAM gel by ultrasonic velocity and found that the hydration number at low and high temperatures were about 7.5 (20 8C) and 3 (40 8C), respectively. By quasielastic neutron scattering method, Philipp et al 21 revealed that the PNIPAM chain is partially dehydrated and the hydration number decreases from 8 to 2 during the phase transition.…”
supporting
confidence: 87%
“…Shikata and coworkers [15][16][17] determined from dielectric spectroscopy that hydration number of water bound on per monomer below the LCST is 11 and when the temperature is increased to LCST, all the 11 water molecules dehydrated from the monomer unit. This result is close to the value of 13 obtained from differential scanning calorimetry by Shibayama et al 18,19 Kogure et al 20 quantitatively evaluated the hydration number bound to one NiPAM monomer in PNIPAM gel by ultrasonic velocity and found that the hydration number at low and high temperatures were about 7.5 (20 8C) and 3 (40 8C), respectively. By quasielastic neutron scattering method, Philipp et al 21 revealed that the PNIPAM chain is partially dehydrated and the hydration number decreases from 8 to 2 during the phase transition.…”
supporting
confidence: 87%
“…[ 36 ] The repulsion at short distances (up to a few nm) is attributed to layers of structured water hydrating the surface of the colloidal aggregates. It has previously been shown that, even above T cp , the collapsed PNIPAM forms H-bonds with water, [37][38][39] which is a prerequisite for a hydration layer. Depletion forces can be ruled out as they are only very weak, on the order of −0.1 k B T , following a calculation on the basis of the Asakura-Oosawa theory.…”
mentioning
confidence: 99%
“…In contrast, NMR spectroscopy studies allow the local chemical environments to be analyzed and have been employed to investigate the LCST phase transition along with changes in the local hydrogen bonding environment during dehydration, 23,26,27,[29][30][31][32] and has been discussed in a recent review article. 33 NMR studies of the swelling/dehydration processes in PNI-PAAm have been previously detailed, 15,33,34 and include 1 H NMR spin-spin relaxation rate (R 2 5 1/T 2 ) investigations that revealed R 2 can be sensitive to the LCST transition, and in some instances represent the rapid exchange averaging between different water environments. These R 2 studies also support the argument that there are water populations with restricted dynamics even in the collapsed phase.…”
mentioning
confidence: 99%