Distributions of water in pores of periodic mesoporous organosilicates – a proton solid state MAS NMR study
Distributions of water in pores of periodic mesoporous organosilicates – a proton solid state MAS NMR study
Solid state proton (1H) magic angle spinning (MAS) NMR has been employed to study the distribution of confined water in ethane substituted periodic mesoporous organosilicate (PMOE) materials. Proton spectra acquired at different hydration levels are analysed and interpreted in terms of water clusters of various sizes and distributions of water layers on the pore surface. For comparison, we also performed similar experiments on SBA-15. The formation of larger clusters at lower hydration suggests that the pores of PMOE are getting filled with water at lower hydration levels than those in SBA-15. For PMOE, the simultaneous presence of two major resonances in the ranges 3.6–4.1 ppm and 4.4–5.2 ppm and their behaviour upon hydration imply a water layer distribution that is the sum of two contributions, corresponding to fully filled and partially filled pores or pore segments. Furthermore, the behaviour mentioned above suggests that both radial and axial filling mechanisms play a significant role in the hydration process. For SBA-15, as a function of hydration, we observed a smooth variation in the proton chemical shift of the main dynamic resonance. In accordance with previous studies, this is attributed to the gradual increase in the average thickness of water layers with an increase in hydration, and to a pore filling mechanism that is predominantly radial.
29351-29361
Veena, S.R.
2acd1a9f-ce06-4cd2-bbdb-8f0057308e0e
Illath, Kavya
3ef7e28d-b2ef-480b-affa-2e8c7af676d1
Lazar, Anish
f01c546a-a2e1-4b7b-a121-dd6e06de6b61
Vinod, C.P.
69ab3af1-76dd-4e3a-bc39-e97e6b1d4e33
Ajithkumarb, T.G.
ebadd283-7111-4c37-bc37-04656dddbc2f
Jayanthi, S.
4b227bf1-55b4-4303-a3fe-8283090e9d9b
14 December 2018
Veena, S.R.
2acd1a9f-ce06-4cd2-bbdb-8f0057308e0e
Illath, Kavya
3ef7e28d-b2ef-480b-affa-2e8c7af676d1
Lazar, Anish
f01c546a-a2e1-4b7b-a121-dd6e06de6b61
Vinod, C.P.
69ab3af1-76dd-4e3a-bc39-e97e6b1d4e33
Ajithkumarb, T.G.
ebadd283-7111-4c37-bc37-04656dddbc2f
Jayanthi, S.
4b227bf1-55b4-4303-a3fe-8283090e9d9b
Veena, S.R., Illath, Kavya, Lazar, Anish, Vinod, C.P., Ajithkumarb, T.G. and Jayanthi, S.
(2018)
Distributions of water in pores of periodic mesoporous organosilicates – a proton solid state MAS NMR study.
Physical Chemistry Chemical Physics, 2018 (46), .
(doi:10.1039/c8cp04902e).
Abstract
Solid state proton (1H) magic angle spinning (MAS) NMR has been employed to study the distribution of confined water in ethane substituted periodic mesoporous organosilicate (PMOE) materials. Proton spectra acquired at different hydration levels are analysed and interpreted in terms of water clusters of various sizes and distributions of water layers on the pore surface. For comparison, we also performed similar experiments on SBA-15. The formation of larger clusters at lower hydration suggests that the pores of PMOE are getting filled with water at lower hydration levels than those in SBA-15. For PMOE, the simultaneous presence of two major resonances in the ranges 3.6–4.1 ppm and 4.4–5.2 ppm and their behaviour upon hydration imply a water layer distribution that is the sum of two contributions, corresponding to fully filled and partially filled pores or pore segments. Furthermore, the behaviour mentioned above suggests that both radial and axial filling mechanisms play a significant role in the hydration process. For SBA-15, as a function of hydration, we observed a smooth variation in the proton chemical shift of the main dynamic resonance. In accordance with previous studies, this is attributed to the gradual increase in the average thickness of water layers with an increase in hydration, and to a pore filling mechanism that is predominantly radial.
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Accepted/In Press date: 1 November 2018
e-pub ahead of print date: 1 November 2018
Published date: 14 December 2018
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Local EPrints ID: 432588
URI: http://eprints.soton.ac.uk/id/eprint/432588
ISSN: 1463-9076
PURE UUID: 2d5e8fb1-9e09-494e-84e6-ba53656035a5
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Date deposited: 19 Jul 2019 16:32
Last modified: 16 Mar 2024 02:15
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Author:
S.R. Veena
Author:
Kavya Illath
Author:
C.P. Vinod
Author:
T.G. Ajithkumarb
Author:
S. Jayanthi
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