1D Measurement of sodium ion flow in hydrogel after a bath concentration jump

R.W. Roos; L. Pel; H.P. Huinink; J.M. Huyghe

doi:10.1007/s10439-015-1293-8

1D Measurement of sodium ion flow in hydrogel after a bath concentration jump

R.W. Roos, L. Pel, H.P. Huinink, J.M. Huyghe

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NMR is used to measure sodium flow driven by a 1D concentration gradient inside poly-acrylamid (pAA) hydrogel. A sodium concentration jump from 0.5 M NaCl to 0 M NaCl is applied at the bottom of a cylindrical pAA sample. The sodium level and hydrogen level are measured as a function of time and position inside the sample for 5 days. Then a reversed step is applied, and ion flow is measured for another 5 days. During the measurement, the cylindrical sample is radially confined and allowed to swell in the axial direction. At the same time, sodium and moisture in the sample are measured on a 1D spatial grid in the axial direction. A quadriphasic mixture model (Huyghe and Janssen in Int J Eng Sci 35:793, 1997) is used to simulate the results and estimate the diffusion coefficient of sodium and chloride. The best fit results were obtained for D Na + =1.15×10 -5 cm2/s and D Cl - =2.15×10 -5 cm2/s, at 25 degrees centigrade. Different time constants were observed for swelling and deswelling.

Originele taal-2	Engels
Pagina's (van-tot)	1706-1711
Aantal pagina's	6
Tijdschrift	Annals of Biomedical Engineering
Volume	43
Nummer van het tijdschrift	7
DOI's	https://doi.org/10.1007/s10439-015-1293-8
Status	Gepubliceerd - jul. 2015

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10.1007/s10439-015-1293-8

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title = "1D Measurement of sodium ion flow in hydrogel after a bath concentration jump",

abstract = "NMR is used to measure sodium flow driven by a 1D concentration gradient inside poly-acrylamid (pAA) hydrogel. A sodium concentration jump from 0.5 M NaCl to 0 M NaCl is applied at the bottom of a cylindrical pAA sample. The sodium level and hydrogen level are measured as a function of time and position inside the sample for 5 days. Then a reversed step is applied, and ion flow is measured for another 5 days. During the measurement, the cylindrical sample is radially confined and allowed to swell in the axial direction. At the same time, sodium and moisture in the sample are measured on a 1D spatial grid in the axial direction. A quadriphasic mixture model (Huyghe and Janssen in Int J Eng Sci 35:793, 1997) is used to simulate the results and estimate the diffusion coefficient of sodium and chloride. The best fit results were obtained for D Na + =1.15×10 -5 cm2/s and D Cl - =2.15×10 -5 cm2/s, at 25 degrees centigrade. Different time constants were observed for swelling and deswelling.",

keywords = "Na-NMR, Polyacrylamide, Deformation-diffusion coupling, Quadriphasic model",

author = "R.W. Roos and L. Pel and H.P. Huinink and J.M. Huyghe",

year = "2015",

month = jul,

doi = "10.1007/s10439-015-1293-8",

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T1 - 1D Measurement of sodium ion flow in hydrogel after a bath concentration jump

AU - Roos, R.W.

AU - Pel, L.

AU - Huinink, H.P.

AU - Huyghe, J.M.

PY - 2015/7

Y1 - 2015/7

N2 - NMR is used to measure sodium flow driven by a 1D concentration gradient inside poly-acrylamid (pAA) hydrogel. A sodium concentration jump from 0.5 M NaCl to 0 M NaCl is applied at the bottom of a cylindrical pAA sample. The sodium level and hydrogen level are measured as a function of time and position inside the sample for 5 days. Then a reversed step is applied, and ion flow is measured for another 5 days. During the measurement, the cylindrical sample is radially confined and allowed to swell in the axial direction. At the same time, sodium and moisture in the sample are measured on a 1D spatial grid in the axial direction. A quadriphasic mixture model (Huyghe and Janssen in Int J Eng Sci 35:793, 1997) is used to simulate the results and estimate the diffusion coefficient of sodium and chloride. The best fit results were obtained for D Na + =1.15×10 -5 cm2/s and D Cl - =2.15×10 -5 cm2/s, at 25 degrees centigrade. Different time constants were observed for swelling and deswelling.

AB - NMR is used to measure sodium flow driven by a 1D concentration gradient inside poly-acrylamid (pAA) hydrogel. A sodium concentration jump from 0.5 M NaCl to 0 M NaCl is applied at the bottom of a cylindrical pAA sample. The sodium level and hydrogen level are measured as a function of time and position inside the sample for 5 days. Then a reversed step is applied, and ion flow is measured for another 5 days. During the measurement, the cylindrical sample is radially confined and allowed to swell in the axial direction. At the same time, sodium and moisture in the sample are measured on a 1D spatial grid in the axial direction. A quadriphasic mixture model (Huyghe and Janssen in Int J Eng Sci 35:793, 1997) is used to simulate the results and estimate the diffusion coefficient of sodium and chloride. The best fit results were obtained for D Na + =1.15×10 -5 cm2/s and D Cl - =2.15×10 -5 cm2/s, at 25 degrees centigrade. Different time constants were observed for swelling and deswelling.

KW - Na-NMR

KW - Polyacrylamide

KW - Deformation-diffusion coupling

KW - Quadriphasic model

U2 - 10.1007/s10439-015-1293-8

DO - 10.1007/s10439-015-1293-8

M3 - Article

C2 - 25786888

SN - 0090-6964

VL - 43

SP - 1706

EP - 1711

JO - Annals of Biomedical Engineering

JF - Annals of Biomedical Engineering

IS - 7

ER -

1D Measurement of sodium ion flow in hydrogel after a bath concentration jump

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