Standard

GLASS/AU COMPOSITE MEMBRANES WITH GOLD NANOPARTICLES INSIDE PORES FOR SELECTIVE ION TRANSPORT. / Lebedev, D.V. ; Novomlinsky, M. O. ; Panov, M.S. ; Anfimova, I.N. ; Kochemirovsky, V.A. ; Ryzhkov, I.I. ; Antropova, T.V. .

MELPRO Conference 2020: Book of abstracts. 2020. стр. 40.

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийиная часть книжной публикации

Harvard

Lebedev, DV, Novomlinsky, MO, Panov, MS, Anfimova, IN, Kochemirovsky, VA, Ryzhkov, II & Antropova, TV 2020, GLASS/AU COMPOSITE MEMBRANES WITH GOLD NANOPARTICLES INSIDE PORES FOR SELECTIVE ION TRANSPORT. в MELPRO Conference 2020: Book of abstracts. стр. 40, Membrane and
Electromembrane Processes Conference MELPRO 2020, Прага, Чехия, 8/11/20.

APA

Lebedev, D. V., Novomlinsky, M. O., Panov, M. S., Anfimova, I. N., Kochemirovsky, V. A., Ryzhkov, I. I., & Antropova, T. V. (2020). GLASS/AU COMPOSITE MEMBRANES WITH GOLD NANOPARTICLES INSIDE PORES FOR SELECTIVE ION TRANSPORT. в MELPRO Conference 2020: Book of abstracts (стр. 40)

Vancouver

Lebedev DV, Novomlinsky MO, Panov MS, Anfimova IN, Kochemirovsky VA, Ryzhkov II и пр. GLASS/AU COMPOSITE MEMBRANES WITH GOLD NANOPARTICLES INSIDE PORES FOR SELECTIVE ION TRANSPORT. в MELPRO Conference 2020: Book of abstracts. 2020. стр. 40

Author

Lebedev, D.V. ; Novomlinsky, M. O. ; Panov, M.S. ; Anfimova, I.N. ; Kochemirovsky, V.A. ; Ryzhkov, I.I. ; Antropova, T.V. . / GLASS/AU COMPOSITE MEMBRANES WITH GOLD NANOPARTICLES INSIDE PORES FOR SELECTIVE ION TRANSPORT. MELPRO Conference 2020: Book of abstracts. 2020. стр. 40

BibTeX

@inbook{f2b1440d9d4949598a1faa170d5d75be,
title = "GLASS/AU COMPOSITE MEMBRANES WITH GOLD NANOPARTICLES INSIDE PORES FOR SELECTIVE ION TRANSPORT",
abstract = "Hybrid or composite membranes containing various nanoparticles have been actively studied during the last decade. It was previously shown that the presence of different inorganic particles in the membrane structure can significantly affect its ionic selectivity and transport properties. The current work is aimed at the synthesis of glass membranes with gold nanoparticles inside the pores and investigation of their selective properties. Porous glass (PG) samples in the form of plane-parallel polished plates 10 × 10 × 1.0 mm3 in size have been prepared in the ISCh RAS (project № 0097-2019-0015) by chemical etching of phase-separated sodium borosilicate glass with two-frame structure [1] in HCl and KOH solutions consistently as described in [1, 2]. The PG{\textquoteright}s porosity and average pore diameter are 0.5 (cm3 /cm3 ) and 25 nm, respectively [2]. The method of laser-induced metal deposition from solution was used for the formation of a new type of Glass/Au composite membranes [3]. Porous glass was impregnated with HAuCl4 water solution. Then the sample was exposed by a pulsed laser with a wavelength of 355 nm. The potentiometric method was implemented for studying the selective properties of membranes. 2D Space Charge Model based on the Navier-Stokes, Nernst Planck and Poisson equations was utilized for interpreting the experimental results [4]. As part of the work, the selective properties of obtained membranes in model solutions of KCl salts were investigated. It was shown that the formation of particles inside membrane pores essentially affects its ion-selective properties. The results obtained can be widely used in various technologies. Specify what technologies, otherwise it the sentence looks very general. Acknowledgment: This work is supported by the Russian Science Foundation under grant № 19-79-00095. The authors also express their gratitude to the resource center of SPBU “Optical and Laser Materials Research” and “Interdisciplinary Resource Centre for Nanotechnology”.",
author = "D.V. Lebedev and Novomlinsky, {M. O.} and M.S. Panov and I.N. Anfimova and V.A. Kochemirovsky and I.I. Ryzhkov and T.V. Antropova",
year = "2020",
month = nov,
day = "8",
language = "English",
isbn = "978-80-907673-3-1 ",
pages = "40",
booktitle = "MELPRO Conference 2020",
note = "null ; Conference date: 08-11-2020 Through 11-11-2020",
url = "https://www.melpro.cz/",

}

RIS

TY - CHAP

T1 - GLASS/AU COMPOSITE MEMBRANES WITH GOLD NANOPARTICLES INSIDE PORES FOR SELECTIVE ION TRANSPORT

AU - Lebedev, D.V.

AU - Novomlinsky, M. O.

AU - Panov, M.S.

AU - Anfimova, I.N.

AU - Kochemirovsky, V.A.

AU - Ryzhkov, I.I.

AU - Antropova, T.V.

PY - 2020/11/8

Y1 - 2020/11/8

N2 - Hybrid or composite membranes containing various nanoparticles have been actively studied during the last decade. It was previously shown that the presence of different inorganic particles in the membrane structure can significantly affect its ionic selectivity and transport properties. The current work is aimed at the synthesis of glass membranes with gold nanoparticles inside the pores and investigation of their selective properties. Porous glass (PG) samples in the form of plane-parallel polished plates 10 × 10 × 1.0 mm3 in size have been prepared in the ISCh RAS (project № 0097-2019-0015) by chemical etching of phase-separated sodium borosilicate glass with two-frame structure [1] in HCl and KOH solutions consistently as described in [1, 2]. The PG’s porosity and average pore diameter are 0.5 (cm3 /cm3 ) and 25 nm, respectively [2]. The method of laser-induced metal deposition from solution was used for the formation of a new type of Glass/Au composite membranes [3]. Porous glass was impregnated with HAuCl4 water solution. Then the sample was exposed by a pulsed laser with a wavelength of 355 nm. The potentiometric method was implemented for studying the selective properties of membranes. 2D Space Charge Model based on the Navier-Stokes, Nernst Planck and Poisson equations was utilized for interpreting the experimental results [4]. As part of the work, the selective properties of obtained membranes in model solutions of KCl salts were investigated. It was shown that the formation of particles inside membrane pores essentially affects its ion-selective properties. The results obtained can be widely used in various technologies. Specify what technologies, otherwise it the sentence looks very general. Acknowledgment: This work is supported by the Russian Science Foundation under grant № 19-79-00095. The authors also express their gratitude to the resource center of SPBU “Optical and Laser Materials Research” and “Interdisciplinary Resource Centre for Nanotechnology”.

AB - Hybrid or composite membranes containing various nanoparticles have been actively studied during the last decade. It was previously shown that the presence of different inorganic particles in the membrane structure can significantly affect its ionic selectivity and transport properties. The current work is aimed at the synthesis of glass membranes with gold nanoparticles inside the pores and investigation of their selective properties. Porous glass (PG) samples in the form of plane-parallel polished plates 10 × 10 × 1.0 mm3 in size have been prepared in the ISCh RAS (project № 0097-2019-0015) by chemical etching of phase-separated sodium borosilicate glass with two-frame structure [1] in HCl and KOH solutions consistently as described in [1, 2]. The PG’s porosity and average pore diameter are 0.5 (cm3 /cm3 ) and 25 nm, respectively [2]. The method of laser-induced metal deposition from solution was used for the formation of a new type of Glass/Au composite membranes [3]. Porous glass was impregnated with HAuCl4 water solution. Then the sample was exposed by a pulsed laser with a wavelength of 355 nm. The potentiometric method was implemented for studying the selective properties of membranes. 2D Space Charge Model based on the Navier-Stokes, Nernst Planck and Poisson equations was utilized for interpreting the experimental results [4]. As part of the work, the selective properties of obtained membranes in model solutions of KCl salts were investigated. It was shown that the formation of particles inside membrane pores essentially affects its ion-selective properties. The results obtained can be widely used in various technologies. Specify what technologies, otherwise it the sentence looks very general. Acknowledgment: This work is supported by the Russian Science Foundation under grant № 19-79-00095. The authors also express their gratitude to the resource center of SPBU “Optical and Laser Materials Research” and “Interdisciplinary Resource Centre for Nanotechnology”.

UR - http://www.czemp.cz/sites/default/files/e-book_of_abstracts-web_2.pdf

M3 - Other chapter contribution

SN - 978-80-907673-3-1

SP - 40

BT - MELPRO Conference 2020

Y2 - 8 November 2020 through 11 November 2020

ER -

ID: 72673957