Bioelectrochemical Properties of Enzyme-Containing Multilayer Polyelectrolyte Microcapsules Modified with Multiwalled Carbon Nanotubes
This work investigated changes in the biochemical parameters of multilayer membrane structures, emerging at their modification with multiwalled carbon nanotubes (MWCNTs). The structures were represented by polyelectrolyte microcapsules (PMCs) containing glucose oxidase (GOx). PMCs were made using so...
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| Published in | Membranes (Basel) Vol. 9; no. 4; p. 53 |
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| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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12.04.2019
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| Abstract | This work investigated changes in the biochemical parameters of multilayer membrane structures, emerging at their modification with multiwalled carbon nanotubes (MWCNTs). The structures were represented by polyelectrolyte microcapsules (PMCs) containing glucose oxidase (GOx). PMCs were made using sodium polystyrene sulfonate (polyanion) and poly(allylamine hydrochloride) (polycation). Three compositions were considered: with MWCNTs incorporated between polyelectrolyte layers; with MWCNTs inserted into the hollow of the microcapsule; and with MWCNTs incorporated simultaneously into the hollow and between polyelectrolyte layers. The impedance spectra showed modifications using MWCNTs to cause a significant decrease in the PMC active resistance from 2560 to 25 kOhm. The cyclic current–voltage curves featured a current rise at modifications of multilayer MWCNT structures. A PMC-based composition was the basis of a receptor element of an amperometric biosensor. The sensitivity of glucose detection by the biosensor was 0.30 and 0.05 μA/mM for PMCs/MWCNTs/GOx and PMCs/GOx compositions, respectively. The biosensor was insensitive to the presence of ethanol or citric acid in the sample. Polyelectrolyte microcapsules based on a multilayer membrane incorporating the enzyme and MWCNTs can be efficient in developing biosensors and microbial fuel cells. |
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| AbstractList | This work investigated changes in the biochemical parameters of multilayer membrane structures, emerging at their modification with multiwalled carbon nanotubes (MWCNTs). The structures were represented by polyelectrolyte microcapsules (PMCs) containing glucose oxidase (GOx). PMCs were made using sodium polystyrene sulfonate (polyanion) and poly(allylamine hydrochloride) (polycation). Three compositions were considered: with MWCNTs incorporated between polyelectrolyte layers; with MWCNTs inserted into the hollow of the microcapsule; and with MWCNTs incorporated simultaneously into the hollow and between polyelectrolyte layers. The impedance spectra showed modifications using MWCNTs to cause a significant decrease in the PMC active resistance from 2560 to 25 kOhm. The cyclic current-voltage curves featured a current rise at modifications of multilayer MWCNT structures. A PMC-based composition was the basis of a receptor element of an amperometric biosensor. The sensitivity of glucose detection by the biosensor was 0.30 and 0.05 μA/mM for PMCs/MWCNTs/GOx and PMCs/GOx compositions, respectively. The biosensor was insensitive to the presence of ethanol or citric acid in the sample. Polyelectrolyte microcapsules based on a multilayer membrane incorporating the enzyme and MWCNTs can be efficient in developing biosensors and microbial fuel cells.This work investigated changes in the biochemical parameters of multilayer membrane structures, emerging at their modification with multiwalled carbon nanotubes (MWCNTs). The structures were represented by polyelectrolyte microcapsules (PMCs) containing glucose oxidase (GOx). PMCs were made using sodium polystyrene sulfonate (polyanion) and poly(allylamine hydrochloride) (polycation). Three compositions were considered: with MWCNTs incorporated between polyelectrolyte layers; with MWCNTs inserted into the hollow of the microcapsule; and with MWCNTs incorporated simultaneously into the hollow and between polyelectrolyte layers. The impedance spectra showed modifications using MWCNTs to cause a significant decrease in the PMC active resistance from 2560 to 25 kOhm. The cyclic current-voltage curves featured a current rise at modifications of multilayer MWCNT structures. A PMC-based composition was the basis of a receptor element of an amperometric biosensor. The sensitivity of glucose detection by the biosensor was 0.30 and 0.05 μA/mM for PMCs/MWCNTs/GOx and PMCs/GOx compositions, respectively. The biosensor was insensitive to the presence of ethanol or citric acid in the sample. Polyelectrolyte microcapsules based on a multilayer membrane incorporating the enzyme and MWCNTs can be efficient in developing biosensors and microbial fuel cells. This work investigated changes in the biochemical parameters of multilayer membrane structures, emerging at their modification with multiwalled carbon nanotubes (MWCNTs). The structures were represented by polyelectrolyte microcapsules (PMCs) containing glucose oxidase (GOx). PMCs were made using sodium polystyrene sulfonate (polyanion) and poly(allylamine hydrochloride) (polycation). Three compositions were considered: with MWCNTs incorporated between polyelectrolyte layers; with MWCNTs inserted into the hollow of the microcapsule; and with MWCNTs incorporated simultaneously into the hollow and between polyelectrolyte layers. The impedance spectra showed modifications using MWCNTs to cause a significant decrease in the PMC active resistance from 2560 to 25 kOhm. The cyclic current-voltage curves featured a current rise at modifications of multilayer MWCNT structures. A PMC-based composition was the basis of a receptor element of an amperometric biosensor. The sensitivity of glucose detection by the biosensor was 0.30 and 0.05 μA/mM for PMCs/MWCNTs/GOx and PMCs/GOx compositions, respectively. The biosensor was insensitive to the presence of ethanol or citric acid in the sample. Polyelectrolyte microcapsules based on a multilayer membrane incorporating the enzyme and MWCNTs can be efficient in developing biosensors and microbial fuel cells. |
| Author | Machulin, Andrey Reshetilov, Anatoly Dubrovsky, Alexey Kashin, Vadim Wang, Gou-Jen Tikhonenko, Sergei Kolesov, Vladimir Plekhanova, Yulia Tarasov, Sergei Kim, Alexander Kuznetsova, Iren |
| AuthorAffiliation | 2 FSBIS V.A. Kotelnikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, Moscow 125009, Russia; vadim_kashin@mail.ru (V.K.); kvv@cplire.ru (V.K.); kuziren@yandex.ru (I.K.) 3 FSBIS Institute of Theoretical and Experimental Biophysics, Russian Academy of Sciences, Pushchino, Moscow Region 142290, Russia; tikhonenkosa@gmail.com (S.T.); Dav198@mail.ru (A.D.); kimerzent@gmail.com (A.K.) 4 Department of Mechanical Engineering, National Chung-Hsing University, Taichung 402, Taiwan; gjwang@dragon.nchu.edu.tw 1 FSBIS G.K. Skryabin Institute of Biochemistry and Physiology of Microorganisms, Russian Academy of Sciences, Pushchino, Moscow Region 142290, Russia; setar25@gmail.com (S.T.); and.machul@gmail.com (A.M.) |
| AuthorAffiliation_xml | – name: 2 FSBIS V.A. Kotelnikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, Moscow 125009, Russia; vadim_kashin@mail.ru (V.K.); kvv@cplire.ru (V.K.); kuziren@yandex.ru (I.K.) – name: 4 Department of Mechanical Engineering, National Chung-Hsing University, Taichung 402, Taiwan; gjwang@dragon.nchu.edu.tw – name: 1 FSBIS G.K. Skryabin Institute of Biochemistry and Physiology of Microorganisms, Russian Academy of Sciences, Pushchino, Moscow Region 142290, Russia; setar25@gmail.com (S.T.); and.machul@gmail.com (A.M.) – name: 3 FSBIS Institute of Theoretical and Experimental Biophysics, Russian Academy of Sciences, Pushchino, Moscow Region 142290, Russia; tikhonenkosa@gmail.com (S.T.); Dav198@mail.ru (A.D.); kimerzent@gmail.com (A.K.) |
| Author_xml | – sequence: 1 givenname: Anatoly orcidid: 0000-0002-9607-253X surname: Reshetilov fullname: Reshetilov, Anatoly – sequence: 2 givenname: Yulia orcidid: 0000-0001-6509-1992 surname: Plekhanova fullname: Plekhanova, Yulia – sequence: 3 givenname: Sergei orcidid: 0000-0002-1737-9403 surname: Tarasov fullname: Tarasov, Sergei – sequence: 4 givenname: Sergei orcidid: 0000-0002-0537-9537 surname: Tikhonenko fullname: Tikhonenko, Sergei – sequence: 5 givenname: Alexey surname: Dubrovsky fullname: Dubrovsky, Alexey – sequence: 6 givenname: Alexander surname: Kim fullname: Kim, Alexander – sequence: 7 givenname: Vadim surname: Kashin fullname: Kashin, Vadim – sequence: 8 givenname: Andrey orcidid: 0000-0002-4859-7219 surname: Machulin fullname: Machulin, Andrey – sequence: 9 givenname: Gou-Jen surname: Wang fullname: Wang, Gou-Jen – sequence: 10 givenname: Vladimir surname: Kolesov fullname: Kolesov, Vladimir – sequence: 11 givenname: Iren surname: Kuznetsova fullname: Kuznetsova, Iren |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31013718$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_3390_ijms24076766 crossref_primary_10_3390_polym16111521 crossref_primary_10_1016_j_colsurfb_2023_113135 crossref_primary_10_3390_nano12060949 crossref_primary_10_1039_D0PY00770F crossref_primary_10_3390_ijms23126608 crossref_primary_10_2116_analsci_19P131 crossref_primary_10_3390_ijms252010978 crossref_primary_10_3390_ma14154152 crossref_primary_10_3390_polym14030479 crossref_primary_10_3390_polym15163330 |
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| SubjectTerms | Adsorption Biochemical fuel cells Biosensors Carbon Chloride Citric acid Composition Electrical measurement Electrodes Electrolytes Enzymes Ethanol Glucose Glucose oxidase Graphite Membrane structures Membranes Microcapsules Microorganisms Microscopy modification with multiwalled carbon nanotubes Multi wall carbon nanotubes multilayer membrane structures Multilayers Nanomaterials Nanostructured materials Nanotechnology Nanotubes Parameter modification PMC impedance decrease polyelectrolyte microcapsules (PMCs) Polyelectrolytes Polystyrene Polystyrene resins Potassium Sodium Sodium polystyrene sulfonate Voltammetry |
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| Title | Bioelectrochemical Properties of Enzyme-Containing Multilayer Polyelectrolyte Microcapsules Modified with Multiwalled Carbon Nanotubes |
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