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Polymer Brushes via Surface-Initiated Electrochemically Mediated ATRP: Role of a Sacrificial Initiator in Polymerization of Acrylates on Silicon Substrates
Silicon wafers as semiconductors are essential components of integrated circuits in electronic devices. For this reason, modification of the silicon surface is an important factor in the manufacturing of new hybrid materials applied in micro- and nanoelectronics. Herein, copolymer brushes of hydroph...
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| Published in: | Materials 2020-08, Vol.13 (16), p.3559 |
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| cites | cdi_FETCH-LOGICAL-c383t-96b7d2af5ee3279a20854db870618a10248b671c816a0dd7a572ed6fdeeae08a3 |
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| creator | Flejszar, Monika Chmielarz, Paweł Wolski, Karol Grześ, Gabriela Zapotoczny, Szczepan |
| description | Silicon wafers as semiconductors are essential components of integrated circuits in electronic devices. For this reason, modification of the silicon surface is an important factor in the manufacturing of new hybrid materials applied in micro- and nanoelectronics. Herein, copolymer brushes of hydrophilic poly(2-hydroxyethyl acrylate) (PHEA) and hydrophobic poly(tert-butyl acrylate) (PtBA) were grafted from silicon wafers via simplified electrochemically mediated atom transfer radical polymerization (seATRP) according to a surface-initiated approach. The syntheses of PHEA-b-PtBA copolymers were carried out with diminished catalytic complex concentration (successively 25 and 6 ppm of Cu). In order to optimize the reaction condition, the effect of the addition of a supporting electrolyte was investigated. A controlled increase in PHEA brush thickness was confirmed by atomic force microscopy (AFM). Various other parameters including contact angles and free surface energy (FSE) for the modified silicon wafer were presented. Furthermore, the effect of the presence of a sacrificial initiator in solution on the thickness of the grafted brushes was reported. Successfully fabricated inorganic–organic hybrid nanomaterials show potential application in biomedicine and microelectronics devices, e.g., biosensors. |
| doi_str_mv | 10.3390/ma13163559 |
| format | article |
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For this reason, modification of the silicon surface is an important factor in the manufacturing of new hybrid materials applied in micro- and nanoelectronics. Herein, copolymer brushes of hydrophilic poly(2-hydroxyethyl acrylate) (PHEA) and hydrophobic poly(tert-butyl acrylate) (PtBA) were grafted from silicon wafers via simplified electrochemically mediated atom transfer radical polymerization (seATRP) according to a surface-initiated approach. The syntheses of PHEA-b-PtBA copolymers were carried out with diminished catalytic complex concentration (successively 25 and 6 ppm of Cu). In order to optimize the reaction condition, the effect of the addition of a supporting electrolyte was investigated. A controlled increase in PHEA brush thickness was confirmed by atomic force microscopy (AFM). Various other parameters including contact angles and free surface energy (FSE) for the modified silicon wafer were presented. Furthermore, the effect of the presence of a sacrificial initiator in solution on the thickness of the grafted brushes was reported. Successfully fabricated inorganic–organic hybrid nanomaterials show potential application in biomedicine and microelectronics devices, e.g., biosensors.</description><identifier>ISSN: 1996-1944</identifier><identifier>EISSN: 1996-1944</identifier><identifier>DOI: 10.3390/ma13163559</identifier><identifier>PMID: 32806681</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Acrylates ; Atomic force microscopy ; Biosensors ; Brushes ; Contact angle ; Copolymers ; Electrodes ; Electronic devices ; Free surfaces ; Hydroxyethyl acrylate ; Initiators ; Integrated circuits ; Methods ; Molecular weight ; Nanoelectronics ; Nanomaterials ; Parameter modification ; Polymerization ; Polymers ; Silicon substrates ; Silicon wafers ; Spectrum analysis ; Surface energy ; Thickness ; Voltammetry ; Wafers</subject><ispartof>Materials, 2020-08, Vol.13 (16), p.3559</ispartof><rights>2020. This work is licensed under http://creativecommons.org/licenses/by/3.0/ (the “License”). 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For this reason, modification of the silicon surface is an important factor in the manufacturing of new hybrid materials applied in micro- and nanoelectronics. Herein, copolymer brushes of hydrophilic poly(2-hydroxyethyl acrylate) (PHEA) and hydrophobic poly(tert-butyl acrylate) (PtBA) were grafted from silicon wafers via simplified electrochemically mediated atom transfer radical polymerization (seATRP) according to a surface-initiated approach. The syntheses of PHEA-b-PtBA copolymers were carried out with diminished catalytic complex concentration (successively 25 and 6 ppm of Cu). In order to optimize the reaction condition, the effect of the addition of a supporting electrolyte was investigated. A controlled increase in PHEA brush thickness was confirmed by atomic force microscopy (AFM). Various other parameters including contact angles and free surface energy (FSE) for the modified silicon wafer were presented. 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Successfully fabricated inorganic–organic hybrid nanomaterials show potential application in biomedicine and microelectronics devices, e.g., biosensors.</description><subject>Acrylates</subject><subject>Atomic force microscopy</subject><subject>Biosensors</subject><subject>Brushes</subject><subject>Contact angle</subject><subject>Copolymers</subject><subject>Electrodes</subject><subject>Electronic devices</subject><subject>Free surfaces</subject><subject>Hydroxyethyl acrylate</subject><subject>Initiators</subject><subject>Integrated circuits</subject><subject>Methods</subject><subject>Molecular weight</subject><subject>Nanoelectronics</subject><subject>Nanomaterials</subject><subject>Parameter modification</subject><subject>Polymerization</subject><subject>Polymers</subject><subject>Silicon substrates</subject><subject>Silicon wafers</subject><subject>Spectrum analysis</subject><subject>Surface energy</subject><subject>Thickness</subject><subject>Voltammetry</subject><subject>Wafers</subject><issn>1996-1944</issn><issn>1996-1944</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><sourceid>PIMPY</sourceid><recordid>eNpdkd1qFTEQgIMottTe-AQBb0RYzc9uNuuFcCxVCxVLW6_DbDLrScluarJbOL6KL2uWc_AvN5NkvvkmYQh5ztlrKTv2ZgQuuZJN0z0ix7zrVMW7un781_6InOZ8x8qSkmvRPSVHUmimlObH5OdVDLsRE32flrzFTB880JslDWCxupj87GFGR88D2jlFu8XRWwhhRz-j26c2t9dXb-l1DEjjQEsx2OQHbz0EehDERP1ED538D5h9nFZ4Y9MuFEmm5Xzjg7drXPo8p_X2GXkyQMh4eogn5OuH89uzT9Xll48XZ5vLykot56pTfesEDA2iFG0Hgummdr1umeIaOBO17lXLreYKmHMtNK1ApwaHCMg0yBPybu-9X_oRncWp9A_mPvkR0s5E8ObfzOS35lt8MG3dNrrpiuDlQZDi9wXzbEafLYYAE8YlG1HLhutWCF3QF_-hd3FJU_neStWKcy5EoV7tKZtizgmH34_hzKxjN3_GLn8BvyCg5Q</recordid><startdate>20200812</startdate><enddate>20200812</enddate><creator>Flejszar, Monika</creator><creator>Chmielarz, Paweł</creator><creator>Wolski, Karol</creator><creator>Grześ, Gabriela</creator><creator>Zapotoczny, Szczepan</creator><general>MDPI AG</general><general>MDPI</general><scope>AAYXX</scope><scope>CITATION</scope><scope>7SR</scope><scope>8FD</scope><scope>8FE</scope><scope>8FG</scope><scope>ABJCF</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>AZQEC</scope><scope>BENPR</scope><scope>BGLVJ</scope><scope>CCPQU</scope><scope>D1I</scope><scope>DWQXO</scope><scope>HCIFZ</scope><scope>JG9</scope><scope>KB.</scope><scope>PDBOC</scope><scope>PIMPY</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>7X8</scope><scope>5PM</scope><orcidid>https://orcid.org/0000-0001-6662-7621</orcidid><orcidid>https://orcid.org/0000-0002-9101-6264</orcidid><orcidid>https://orcid.org/0000-0002-1171-2447</orcidid><orcidid>https://orcid.org/0000-0001-8014-3543</orcidid></search><sort><creationdate>20200812</creationdate><title>Polymer Brushes via Surface-Initiated Electrochemically Mediated ATRP: Role of a Sacrificial Initiator in Polymerization of Acrylates on Silicon Substrates</title><author>Flejszar, Monika ; Chmielarz, Paweł ; Wolski, Karol ; Grześ, Gabriela ; Zapotoczny, Szczepan</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c383t-96b7d2af5ee3279a20854db870618a10248b671c816a0dd7a572ed6fdeeae08a3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2020</creationdate><topic>Acrylates</topic><topic>Atomic force microscopy</topic><topic>Biosensors</topic><topic>Brushes</topic><topic>Contact angle</topic><topic>Copolymers</topic><topic>Electrodes</topic><topic>Electronic devices</topic><topic>Free surfaces</topic><topic>Hydroxyethyl acrylate</topic><topic>Initiators</topic><topic>Integrated circuits</topic><topic>Methods</topic><topic>Molecular weight</topic><topic>Nanoelectronics</topic><topic>Nanomaterials</topic><topic>Parameter modification</topic><topic>Polymerization</topic><topic>Polymers</topic><topic>Silicon substrates</topic><topic>Silicon wafers</topic><topic>Spectrum analysis</topic><topic>Surface energy</topic><topic>Thickness</topic><topic>Voltammetry</topic><topic>Wafers</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Flejszar, Monika</creatorcontrib><creatorcontrib>Chmielarz, Paweł</creatorcontrib><creatorcontrib>Wolski, Karol</creatorcontrib><creatorcontrib>Grześ, Gabriela</creatorcontrib><creatorcontrib>Zapotoczny, Szczepan</creatorcontrib><collection>CrossRef</collection><collection>Engineered Materials Abstracts</collection><collection>Technology Research Database</collection><collection>ProQuest SciTech Collection</collection><collection>ProQuest Technology Collection</collection><collection>Materials Science & Engineering Collection</collection><collection>ProQuest Central (Alumni)</collection><collection>ProQuest Central</collection><collection>ProQuest Central Essentials</collection><collection>ProQuest Central</collection><collection>Technology Collection</collection><collection>ProQuest One Community College</collection><collection>ProQuest Materials Science Collection</collection><collection>ProQuest Central</collection><collection>SciTech Premium Collection</collection><collection>Materials Research Database</collection><collection>Materials Science Database</collection><collection>Materials science collection</collection><collection>Publicly Available Content Database</collection><collection>ProQuest One Academic Eastern Edition (DO NOT USE)</collection><collection>ProQuest One Academic</collection><collection>ProQuest One Academic UKI Edition</collection><collection>ProQuest Central China</collection><collection>MEDLINE - Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Materials</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Flejszar, Monika</au><au>Chmielarz, Paweł</au><au>Wolski, Karol</au><au>Grześ, Gabriela</au><au>Zapotoczny, Szczepan</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Polymer Brushes via Surface-Initiated Electrochemically Mediated ATRP: Role of a Sacrificial Initiator in Polymerization of Acrylates on Silicon Substrates</atitle><jtitle>Materials</jtitle><date>2020-08-12</date><risdate>2020</risdate><volume>13</volume><issue>16</issue><spage>3559</spage><pages>3559-</pages><issn>1996-1944</issn><eissn>1996-1944</eissn><abstract>Silicon wafers as semiconductors are essential components of integrated circuits in electronic devices. 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| subjects | Acrylates Atomic force microscopy Biosensors Brushes Contact angle Copolymers Electrodes Electronic devices Free surfaces Hydroxyethyl acrylate Initiators Integrated circuits Methods Molecular weight Nanoelectronics Nanomaterials Parameter modification Polymerization Polymers Silicon substrates Silicon wafers Spectrum analysis Surface energy Thickness Voltammetry Wafers |
| title | Polymer Brushes via Surface-Initiated Electrochemically Mediated ATRP: Role of a Sacrificial Initiator in Polymerization of Acrylates on Silicon Substrates |
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