Self-Sanitizing Polycaprolactone Electrospun Nanofiber Membrane with Ag Nanoparticles

The objective of this research was to develop an environment-friendly and scalable method for the production of self-sanitizing electrospun nanofibers. This was achieved by immobilizing silver nanoparticles (Ag NPs) onto plasma-treated surfaces of biodegradable polycaprolactone (PCL) nanofibers. The...

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Published in:	Journal of functional biomaterials Vol. 14; no. 7; p. 336
Main Authors:	Permyakova, Elizaveta S, Manakhov, Anton, Kiryukhantsev-Korneev, Philipp V, Konopatsky, Anton S, Makarets, Yulia A, Kotyakova, Kristina Yu, Filippovich, Svetlana Yu, Ignatov, Sergey G, Solovieva, Anastasiya O, Shtansky, Dmitry V
Format:	Journal Article
Language:	English
Published:	Switzerland MDPI AG 25-06-2023 MDPI
Subjects:	Acids Ag nanoparticles Albinism antibacterial activity antifungal activity Antimicrobial activity Bacteria Bacterial infections Biodegradation Biofilms Cells Computer software industry Coronaviruses COVID-19 Disease transmission Electrostatic properties Fabrication face masks Force and energy Fungal infections Gram-negative bacteria Gram-positive bacteria Health aspects Health care Ions Masks Medical dressings Membranes Microorganisms Mortality Nanofibers Nanomaterials Nanoparticles Pandemics Pathogens Plasma plasma polymerization Polycaprolactone polycaprolactone nanofibers Polymers Silver Toxicity Ultraviolet radiation Water treatment Israel Russia United States > US antibacterial activity plasma polymerization polycaprolactone nanofibers Ag nanoparticles antifungal activity face masks
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Abstract	The objective of this research was to develop an environment-friendly and scalable method for the production of self-sanitizing electrospun nanofibers. This was achieved by immobilizing silver nanoparticles (Ag NPs) onto plasma-treated surfaces of biodegradable polycaprolactone (PCL) nanofibers. The plasma deposited polymer layer containing carboxyl groups played a critical role in providing a uniform distribution of Ag NPs on the nanofiber surface. Ag ions were absorbed by electrostatic interaction and then reduced under the action of UV-light. The concentration and release of Ag ions were analyzed using the EDXS/XPS and ICP AES methods, respectively. Although high levels of Ag ions were detected after 3 h of immersion in water, the material retained a sufficient amount of silver nanoparticles on the surface (~2.3 vs. 3.5 at.% as determined by XPS), and the release rate subsequently decreased over the next 69 h. The antipathogenic properties of PCL-Ag were tested against gram-negative and gram-positive bacteria, fungi, and biofilm formation. The results showed that the PCL-Ag nanofibers exhibit significant antimicrobial activity against a wide range of microorganisms, including those that cause human infections. The incorporation of Ag NPs into PCL nanofibers resulted in a self-sanitizing material that can be used in variety of applications, including wound dressings, water treatment, and air filtration. The development of a simple, scalable, and environmentally friendly method for the fabrication of these nanofibers is essential to ensure their widespread use in various industries. The ability to control the concentration and release rate of Ag ions in the PCL nanofibers will be critical to optimize their efficacy while minimizing their potential toxicity to human cells and the environment.
AbstractList	The objective of this research was to develop an environment-friendly and scalable method for the production of self-sanitizing electrospun nanofibers. This was achieved by immobilizing silver nanoparticles (Ag NPs) onto plasma-treated surfaces of biodegradable polycaprolactone (PCL) nanofibers. The plasma deposited polymer layer containing carboxyl groups played a critical role in providing a uniform distribution of Ag NPs on the nanofiber surface. Ag ions were absorbed by electrostatic interaction and then reduced under the action of UV-light. The concentration and release of Ag ions were analyzed using the EDXS/XPS and ICP AES methods, respectively. Although high levels of Ag ions were detected after 3 h of immersion in water, the material retained a sufficient amount of silver nanoparticles on the surface (~2.3 vs. 3.5 at.% as determined by XPS), and the release rate subsequently decreased over the next 69 h. The antipathogenic properties of PCL-Ag were tested against gram-negative and gram-positive bacteria, fungi, and biofilm formation. The results showed that the PCL-Ag nanofibers exhibit significant antimicrobial activity against a wide range of microorganisms, including those that cause human infections. The incorporation of Ag NPs into PCL nanofibers resulted in a self-sanitizing material that can be used in variety of applications, including wound dressings, water treatment, and air filtration. The development of a simple, scalable, and environmentally friendly method for the fabrication of these nanofibers is essential to ensure their widespread use in various industries. The ability to control the concentration and release rate of Ag ions in the PCL nanofibers will be critical to optimize their efficacy while minimizing their potential toxicity to human cells and the environment.
Audience	Academic
Author	Konopatsky, Anton S Solovieva, Anastasiya O Permyakova, Elizaveta S Kotyakova, Kristina Yu Filippovich, Svetlana Yu Ignatov, Sergey G Manakhov, Anton Kiryukhantsev-Korneev, Philipp V Makarets, Yulia A Shtansky, Dmitry V
AuthorAffiliation	4 State Research Center for Applied Microbiology and Biotechnology, Obolensk 142279, Russia; ignatov.sergei@gmail.com 1 National University of Science and Technology “MISIS”, Moscow 119049, Russia; kiruhancev-korneev@yandex.ru (P.V.K.-K.); ankonopatsky@gmail.com (A.S.K.); jl.makarets@gmail.com (Y.A.M.); kristinkagudz@mail.ru (K.Y.K.); shtansky@shs.misis.ru (D.V.S.) 2 Research Institute of Clinical and Experimental Lymphology—Branch of the ICG SB RAS, 2 Timakova st., Novosibirsk 630060, Russia; solovey_ao@mail.ru 3 Bach Institute of Biochemistry, Moscow 115419, Russia; syf@inbi.ras.ru
AuthorAffiliation_xml	– name: 1 National University of Science and Technology “MISIS”, Moscow 119049, Russia; kiruhancev-korneev@yandex.ru (P.V.K.-K.); ankonopatsky@gmail.com (A.S.K.); jl.makarets@gmail.com (Y.A.M.); kristinkagudz@mail.ru (K.Y.K.); shtansky@shs.misis.ru (D.V.S.) – name: 3 Bach Institute of Biochemistry, Moscow 115419, Russia; syf@inbi.ras.ru – name: 4 State Research Center for Applied Microbiology and Biotechnology, Obolensk 142279, Russia; ignatov.sergei@gmail.com – name: 2 Research Institute of Clinical and Experimental Lymphology—Branch of the ICG SB RAS, 2 Timakova st., Novosibirsk 630060, Russia; solovey_ao@mail.ru
Author_xml	– sequence: 1 givenname: Elizaveta S orcidid: 0000-0003-2581-0803 surname: Permyakova fullname: Permyakova, Elizaveta S organization: National University of Science and Technology "MISIS", Moscow 119049, Russia – sequence: 2 givenname: Anton orcidid: 0000-0003-4517-1682 surname: Manakhov fullname: Manakhov, Anton organization: Research Institute of Clinical and Experimental Lymphology-Branch of the ICG SB RAS, 2 Timakova st., Novosibirsk 630060, Russia – sequence: 3 givenname: Philipp V orcidid: 0000-0003-1635-4746 surname: Kiryukhantsev-Korneev fullname: Kiryukhantsev-Korneev, Philipp V organization: National University of Science and Technology "MISIS", Moscow 119049, Russia – sequence: 4 givenname: Anton S orcidid: 0000-0002-2597-6611 surname: Konopatsky fullname: Konopatsky, Anton S organization: National University of Science and Technology "MISIS", Moscow 119049, Russia – sequence: 5 givenname: Yulia A surname: Makarets fullname: Makarets, Yulia A organization: National University of Science and Technology "MISIS", Moscow 119049, Russia – sequence: 6 givenname: Kristina Yu orcidid: 0000-0002-8990-9784 surname: Kotyakova fullname: Kotyakova, Kristina Yu organization: National University of Science and Technology "MISIS", Moscow 119049, Russia – sequence: 7 givenname: Svetlana Yu surname: Filippovich fullname: Filippovich, Svetlana Yu organization: Bach Institute of Biochemistry, Moscow 115419, Russia – sequence: 8 givenname: Sergey G surname: Ignatov fullname: Ignatov, Sergey G organization: State Research Center for Applied Microbiology and Biotechnology, Obolensk 142279, Russia – sequence: 9 givenname: Anastasiya O surname: Solovieva fullname: Solovieva, Anastasiya O organization: Research Institute of Clinical and Experimental Lymphology-Branch of the ICG SB RAS, 2 Timakova st., Novosibirsk 630060, Russia – sequence: 10 givenname: Dmitry V orcidid: 0000-0001-7304-2461 surname: Shtansky fullname: Shtansky, Dmitry V organization: National University of Science and Technology "MISIS", Moscow 119049, Russia
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/37504830$$D View this record in MEDLINE/PubMed
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SubjectTerms	Acids Ag nanoparticles Albinism antibacterial activity antifungal activity Antimicrobial activity Bacteria Bacterial infections Biodegradation Biofilms Cells Computer software industry Coronaviruses COVID-19 Disease transmission Electrostatic properties Fabrication face masks Force and energy Fungal infections Gram-negative bacteria Gram-positive bacteria Health aspects Health care Ions Masks Medical dressings Membranes Microorganisms Mortality Nanofibers Nanomaterials Nanoparticles Pandemics Pathogens Plasma plasma polymerization Polycaprolactone polycaprolactone nanofibers Polymers Silver Toxicity Ultraviolet radiation Water treatment
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Title	Self-Sanitizing Polycaprolactone Electrospun Nanofiber Membrane with Ag Nanoparticles
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