Positronium annihilation data and actual free-volume distribution in polymers

V. P. Shantarovich; T. Suzuki; Yu P. Yampol'skii; P. Budd; V. V. Gustov; I. B. Kevdina; A. V. Pastukhov; S. S. Berdonosov; V. E. Bozhevol'nov

doi:10.1134/S0018143907050128

Positronium annihilation data and actual free-volume distribution in polymers

V. P. Shantarovich, T. Suzuki, Yu P. Yampol'skii, P. Budd, V. V. Gustov, I. B. Kevdina, A. V. Pastukhov, S. S. Berdonosov, V. E. Bozhevol'nov

Research output: Contribution to journal › Article › peer-review

Abstract

Determination of the size distribution of free-volume holes in solids, in particular, polymers, is an important physicochemical problem. The positron annihilation technique has been proposed for this purpose. The central point in this technique is the quantitative interpretation of data, especially, for substances with a high specific surface area. A developed free-volume system in open-pore membrane materials, such as poly(trimethylsilylpropyne) PTMSP and the spirocyclically bound benzodioxane polymer PIM-1, and polymeric sorbents (hypercrosslinked polystyrenes) makes it possible for the first time to compare the sorption characteristics and positron annihilation data on the character of size distribution of nanopores in these polymers. In combination with the results of mathematical simulation of the structure and radiothermoluminescence measurements, the array of data indicate the structural inhomogeneity of the test amorphous materials. It was shown that this inhomogeneity in relation to the positron annihilation technique is expressed in the insufficiency of the representation of the orthopositronium decay curve by one component that takes into account the Gaussian lifetime distribution (symmetrical pore size distribution) and in the necessity of use of several decay components. The feasibility of revealing a nonrandom character of pore size distribution gives the positron annihilation technique an advantage over other approaches (inverse gas chromatography, 129Xe NMR) to investigation of nanopores in polymers. © 2007 Pleiades Publishing, Ltd.

Original language	English
Pages (from-to)	370-380
Number of pages	10
Journal	High Energy Chemistry
Volume	41
Issue number	5
DOIs	https://doi.org/10.1134/S0018143907050128
Publication status	Published - Sept 2007

Keywords

Pore (nanopore
positronium annihilation and radiothermoluminescence data and actual free-vol. distribution in nanoporous polymers)
Nanostructures (nanopores
Sorbents (porous
Free volume
Luminescence
Membranes
Polymer morphology
Pore size distribution (positronium annihilation and radiothermoluminescence data and actual free-vol. distribution in nanoporous polymers)
Ladder polymers Role: PRP (Properties) (positronium annihilation and radiothermoluminescence data and actual free-vol. distribution in nanoporous polymers)
Annihilation radiation spectroscopy (positronium
Porous materials (sorbents
Polyacetylenes Role: PRP (Properties) (trimethylsilylpropyne
trimethylsilylpropyne polymer free vol pore size homogeneity positronium annihilation
benzodioxane polymer nanopore structure luminescence positron annihilation

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10.1134/S0018143907050128

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title = "Positronium annihilation data and actual free-volume distribution in polymers",

abstract = "Determination of the size distribution of free-volume holes in solids, in particular, polymers, is an important physicochemical problem. The positron annihilation technique has been proposed for this purpose. The central point in this technique is the quantitative interpretation of data, especially, for substances with a high specific surface area. A developed free-volume system in open-pore membrane materials, such as poly(trimethylsilylpropyne) PTMSP and the spirocyclically bound benzodioxane polymer PIM-1, and polymeric sorbents (hypercrosslinked polystyrenes) makes it possible for the first time to compare the sorption characteristics and positron annihilation data on the character of size distribution of nanopores in these polymers. In combination with the results of mathematical simulation of the structure and radiothermoluminescence measurements, the array of data indicate the structural inhomogeneity of the test amorphous materials. It was shown that this inhomogeneity in relation to the positron annihilation technique is expressed in the insufficiency of the representation of the orthopositronium decay curve by one component that takes into account the Gaussian lifetime distribution (symmetrical pore size distribution) and in the necessity of use of several decay components. The feasibility of revealing a nonrandom character of pore size distribution gives the positron annihilation technique an advantage over other approaches (inverse gas chromatography, 129Xe NMR) to investigation of nanopores in polymers. {\textcopyright} 2007 Pleiades Publishing, Ltd.",

keywords = "Pore (nanopore, positronium annihilation and radiothermoluminescence data and actual free-vol. distribution in nanoporous polymers), Nanostructures (nanopores, Sorbents (porous, Free volume, Luminescence, Membranes, Polymer morphology, Pore size distribution (positronium annihilation and radiothermoluminescence data and actual free-vol. distribution in nanoporous polymers), Ladder polymers Role: PRP (Properties) (positronium annihilation and radiothermoluminescence data and actual free-vol. distribution in nanoporous polymers), Annihilation radiation spectroscopy (positronium, Porous materials (sorbents, Polyacetylenes Role: PRP (Properties) (trimethylsilylpropyne, trimethylsilylpropyne polymer free vol pore size homogeneity positronium annihilation, benzodioxane polymer nanopore structure luminescence positron annihilation",

author = "Shantarovich, {V. P.} and T. Suzuki and Yampol'skii, {Yu P.} and P. Budd and Gustov, {V. V.} and Kevdina, {I. B.} and Pastukhov, {A. V.} and Berdonosov, {S. S.} and Bozhevol'nov, {V. E.}",

note = "CAN 149:514173 36-2 Physical Properties of Synthetic High Polymers Semenov Institute of Chemical Physics,Russian Academy of Sciences,Moscow,Russia. Journal 9003-53-6D (Polystyrene); 87842-32-8 (Poly(trimethylsilylpropyne); 839716-89-1 (PIM-1) Role: PRP (Properties) (positronium annihilation and radiothermoluminescence data and actual free-vol. distribution in nanoporous polymers)",

year = "2007",

month = sep,

doi = "10.1134/S0018143907050128",

language = "English",

volume = "41",

pages = "370--380",

journal = "High Energy Chemistry",

issn = "0018-1439",

publisher = "Pleiades Publishing",

number = "5",

}

TY - JOUR

T1 - Positronium annihilation data and actual free-volume distribution in polymers

AU - Shantarovich, V. P.

AU - Suzuki, T.

AU - Yampol'skii, Yu P.

AU - Budd, P.

AU - Gustov, V. V.

AU - Kevdina, I. B.

AU - Pastukhov, A. V.

AU - Berdonosov, S. S.

AU - Bozhevol'nov, V. E.

N1 - CAN 149:514173 36-2 Physical Properties of Synthetic High Polymers Semenov Institute of Chemical Physics,Russian Academy of Sciences,Moscow,Russia. Journal 9003-53-6D (Polystyrene); 87842-32-8 (Poly(trimethylsilylpropyne); 839716-89-1 (PIM-1) Role: PRP (Properties) (positronium annihilation and radiothermoluminescence data and actual free-vol. distribution in nanoporous polymers)

PY - 2007/9

Y1 - 2007/9

N2 - Determination of the size distribution of free-volume holes in solids, in particular, polymers, is an important physicochemical problem. The positron annihilation technique has been proposed for this purpose. The central point in this technique is the quantitative interpretation of data, especially, for substances with a high specific surface area. A developed free-volume system in open-pore membrane materials, such as poly(trimethylsilylpropyne) PTMSP and the spirocyclically bound benzodioxane polymer PIM-1, and polymeric sorbents (hypercrosslinked polystyrenes) makes it possible for the first time to compare the sorption characteristics and positron annihilation data on the character of size distribution of nanopores in these polymers. In combination with the results of mathematical simulation of the structure and radiothermoluminescence measurements, the array of data indicate the structural inhomogeneity of the test amorphous materials. It was shown that this inhomogeneity in relation to the positron annihilation technique is expressed in the insufficiency of the representation of the orthopositronium decay curve by one component that takes into account the Gaussian lifetime distribution (symmetrical pore size distribution) and in the necessity of use of several decay components. The feasibility of revealing a nonrandom character of pore size distribution gives the positron annihilation technique an advantage over other approaches (inverse gas chromatography, 129Xe NMR) to investigation of nanopores in polymers. © 2007 Pleiades Publishing, Ltd.

AB - Determination of the size distribution of free-volume holes in solids, in particular, polymers, is an important physicochemical problem. The positron annihilation technique has been proposed for this purpose. The central point in this technique is the quantitative interpretation of data, especially, for substances with a high specific surface area. A developed free-volume system in open-pore membrane materials, such as poly(trimethylsilylpropyne) PTMSP and the spirocyclically bound benzodioxane polymer PIM-1, and polymeric sorbents (hypercrosslinked polystyrenes) makes it possible for the first time to compare the sorption characteristics and positron annihilation data on the character of size distribution of nanopores in these polymers. In combination with the results of mathematical simulation of the structure and radiothermoluminescence measurements, the array of data indicate the structural inhomogeneity of the test amorphous materials. It was shown that this inhomogeneity in relation to the positron annihilation technique is expressed in the insufficiency of the representation of the orthopositronium decay curve by one component that takes into account the Gaussian lifetime distribution (symmetrical pore size distribution) and in the necessity of use of several decay components. The feasibility of revealing a nonrandom character of pore size distribution gives the positron annihilation technique an advantage over other approaches (inverse gas chromatography, 129Xe NMR) to investigation of nanopores in polymers. © 2007 Pleiades Publishing, Ltd.

KW - Pore (nanopore

KW - positronium annihilation and radiothermoluminescence data and actual free-vol. distribution in nanoporous polymers)

KW - Nanostructures (nanopores

KW - Sorbents (porous

KW - Free volume

KW - Luminescence

KW - Membranes

KW - Polymer morphology

KW - Pore size distribution (positronium annihilation and radiothermoluminescence data and actual free-vol. distribution in nanoporous polymers)

KW - Ladder polymers Role: PRP (Properties) (positronium annihilation and radiothermoluminescence data and actual free-vol. distribution in nanoporous polymers)

KW - Annihilation radiation spectroscopy (positronium

KW - Porous materials (sorbents

KW - Polyacetylenes Role: PRP (Properties) (trimethylsilylpropyne

KW - trimethylsilylpropyne polymer free vol pore size homogeneity positronium annihilation

KW - benzodioxane polymer nanopore structure luminescence positron annihilation

U2 - 10.1134/S0018143907050128

DO - 10.1134/S0018143907050128

M3 - Article

SN - 0018-1439

VL - 41

SP - 370

EP - 380

JO - High Energy Chemistry

JF - High Energy Chemistry

IS - 5

ER -

Positronium annihilation data and actual free-volume distribution in polymers

Abstract

Keywords

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