Polymer brushes : synthesis, characterization, applications

Pub Date : 2004-07-27 DOI:10.1002/3527603824

R. Advíncula, W. Brittain, K. C. Caster, J. Rühe

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Brittain). 1.1 Introduction. 1.2 \"Grafting To\" Synthesis Technique. 1.3 \"Grafting From\" Synthesis Technique. 2 Polymer Brushes by Atom Transfer Radical Polymerization (Jeffrey Pyun, Tomasz Kowalewski, and Krzysztof Matyjaszewski). 2.1 Introduction. 2.2 Polymer Brushes on Flat Surfaces. 2.3 Polymer Brushes from Particles. 2.4 Molecular Brushes. 3 Polymer Brushes by Atom Transfer Radical Polymerization Initiated from Macroinitiator Synthesized on the Surface (Viktor Klep, Bogdan Zdyrko, Yong Liu, and Igor Luzinov). 3.1 Introduction. 3.2 Experimental. 3.3 Results and Discussion. 4 Synthesis of Polypeptide Brushes (Henning Menzel and Peter Witte). 4.1 Introduction. 4.2 Preparation of Peptide Brushes by \"Grafting To\". 4.3 Preparation of Peptide Brushes by Grafting From Polymerization. 4.4 Preparation of Peptide Brushes by Living Grafting From Polymerization. 5 Bottle Brush Brushes: Ring-Opening Polymerization of Lactide from Poly(hydroxyethyl methacrylate) Surfaces (Jong-Bum Kim, Wenxi Huang, Chun Wang, Merlin Bruening, and Gregory L. Baker). 5.1 Introduction. 5.2 Synthesis of PHEMA-g-PLA. 5.3 Conclusions and Implications for Future Studies. 5.4 Experimental Section. 6 Preparation of Well-Defined Organic-Inorganic Hybrid Nanostructures using Living Cationic Surface-Initiated Polymerization from Silica Nanoparticles (Il-Jin Kim, Su Chen, and Rudolf Faust). 6.1 Introduction. 6.2 Experimental Section. 6.3 Results and Discussion. 7 Photoinitiated Polymerization from Self-Assembled Monolayers (Daniel J. Dyer, Jianxin Feng, Charles Fivelson, Rituparna Paul, Rolf Schmidt, and Tongfeng Zhao). 7.1 Introduction. 7.2 Substrates. 7.3 Photoinitiated Radical Polymerization Mechanisms. 7.4 Polymerization from AIBN-type SAMs. 7.5 Conclusions and Future Studies. 7.6 Experimental. 8 Recent Advances in the Synthesis and Rearrangement of Block Copolymer Brushes (Stephen G. Boyes, Anthony M. Granville, Marina Baum, Bulent Akgun, Brian K. Mirous, and William J. Brittain). 8.1 Introduction and Background. 8.2 Controlled/\"Living\" Free Radical Polymerization. 8.3 Synthesis of Block Copolymer Brushes. 8.4 Rearrangement of Block Copolymer Brushes. 9 Surface-Grafted Hyperbranched Polymers (Hideharu Mori and Axel H. E. Muller). 9.1 Introduction. 9.2 \"Grafting To\" Approach. 9.3 Multi-Step Grafting Approach. 9.4 \"Grafting From\" Approach. Part II Characterization. 10 The Analysis and Characterization of Polymer Brushes: From Flat Surfaces to Nanoparticles (Rigoberto C. Advincula). 10.1 Introduction. 10.2 Characterization of Ultrathin Polymer Films and Polymer Brushes. 10.3 Investigating Polymer Brush Systems. 10.4 The Importance of Characterizing Particles and Nanoparticles. 10.5 Characterization and Analysis Methods for Polymer Brushes on Particles. 11 Characterization of Polymer Brushes on Nanoparticle Surfaces (Thomas A. P. Seery, Mark Jordi, Rosette Guino, and Dale Huber). 11.1 Introduction. 11.2 Experimental. 11.3 Results and Discussion. 12 Spherical Polyelectrolyte Brushes (Matthias Ballauff). 12.1 Introduction. 12.2 Synthesis and Characterization. 12.3 Experimental Verification of Theoretical Predictions. 12.4 Flow Behavior. 12.5 Applications. 13 Weak Polyelectrolyte Brushes: Complex Formation and Multilayer Build-up with Oppositely Charged Polyelectrolytes (Rupert Konradi, Haining Zhang, Markus Biesalski, and Jurgen Ruhe) 13.1 Introduction. 13.2 Synthesis and Data Evaluation. 13.3 Swelling Behavior of Weak Polyelectrolyte Brushes in Aqueous Environments. 13.4 Interaction Between Polyelectrolyte Brushes and Oppositely Charged Polyelectrolytes in Solution. 14 Structure and Properties of High-Density Polymer Brushes (Yoshinobu Tsujii, Muhammad Ejaz, Shinpei Yamamoto, Kohji Ohno, Kenji Urayama, and Takeshi Fukuda). 14.1 Introduction. 14.2 Controlled Synthesis of High-Density Polymer Brush by ATRP. 14.3 Structure and Properties of High-Density PMMA Brushes. 14.4 Application of High-Density Polymer Brushes. 15 Behavior of Surface-Anchored Poly(acrylic acid) Brushes with Grafting Density Gradients on Solid Substrates (Tao Wu, Jan Genzer, Peng Gong, Igal Szleifer, Petr Vlcek, and Vladimir Subr) Glossary. 15.1 Introduction. 15.2 Experimental Section. 15.3 Theory Section. 15.4 Experimental Results. 15.5 Discussion. 16 Kinetics of Polymer Brush Formation With and Without Segmental Adsorption (Lynn S. Penn, Heqing Huang, Roderic P. Quirk, and Tae H. Cheong). 16.1 Introduction. 16.2 Experimental. 16.3 Results and Discussion. Part III Applications. 17 Applications of Polymer Brushes and Other Surface-Attached Polymers (Kenneth C. Caster). 17.1 Introduction. 17.2 Surface Modification and Functionalization. 17.3 Applications. 17.4 Future Prospects. Appendix. 18 Polymer Brushes: Towards Applications (Gregory L. Whiting, Tamer Farhan, and Wilhelm T. S. Huck). 18.1 Introduction. 18.2 Experimental. 18.3 Results and Discussion. 19 Polymerization, Nanopatterning and Characterization of Surface-Confined, Stimulus-Responsive Polymer Brushes (Marian Kaholek, Woo-Kyung Lee, Bruce LaMattina, Kenneth C. Caster, and Stefan Zauscher). 19.1 Introduction. 19.2 Experimental. 19.3 Results and Discussion. 20 Mixed Polymer Brushes: Switching of Surface Behavior and Chemical Patterning at the Nanoscale (Sergiy Minko, Marcus Muller, Valeriy Luchnikov, Mikhail Motornov, Denys Usov, Leonid Ionov, and Manfred Stamm). 20.1 Introduction. 20.2 Theory of Mixed Polymer Brushes. 20.3 Synthesis of Mixed Brushes. 20.4 Experimental Study of Phase Segregation in Mixed Brushes. 20.5 Adaptive Responsive Behavior: Regulation of Wetting and Adhesion. 20.6 Patterning of Mixed Brushes. 21 Local Chain Organization of Switchable Binary Polymer Brushes in Selective Solvents (Melbs C. LeMieux, Denys Usov, Sergiy Minko, Manfred Stamm, and Vladimir V. Tsukruk). 21.1 Introduction. 21.2 Experimental. 21.3 Results and Discussion. 22 Motion of Nano-Objects Induced by a Switchable Polymer Carpet (Svetlana Prokhorova, Alexey Kopyshev, Ayothi Ramakrishnan, and Jurgen Ruhe). 22.1 Introduction. 22.2 Materials. 22.3 Results and Discussion. 23 Photochemical Strategies for the Preparation and Microstructuring of Densely Grafted Polymer Brushes on Planar Surfaces (Oswald Prucker, Rupert Konradi, Martin Schimmel, Jorg Habicht, In-Jun Park, and Jurgen Ruhe). 23.1 Introduction. 23.2 General Features of Surface-Initiated Polymerization from Monolayers of Azo Initiators. 23.3 Photolithographic Procedures for the Generation of Microstructured Polymer Brushes on Planar Surfaces. 23.4 Multifunctional Patterns. 23.5 Applications of Photostructured Polymer Brushes. 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引用次数: 423

Abstract

Preface. List of Contributors. Polymer Brushes: On the Way to Tailor-Made Surfaces (Jurgen Ruhe). 1 Growth of Polymer Molecules at Surfaces: Introductory Remarks. 2 Coatings: From First Principles to High-Tech Applications. 3 Surface-Coating Techniques. 4 Surface-Attached Polymers. 5 Polymer Brushes: General Features. 6 Theory of Polymer Brushes. 7 Synthesis of Polymer Brushes. 8 Polymer Brushes as Functional Materials. 9 Microstructured Polymer Brushes. 10 Surface-Initiated Polymerization: The Overall Picture. Part I Synthesis. 1 Recent Advances in Polymer Brush Synthesis (Anthony M. Granville and William J. Brittain). 1.1 Introduction. 1.2 "Grafting To" Synthesis Technique. 1.3 "Grafting From" Synthesis Technique. 2 Polymer Brushes by Atom Transfer Radical Polymerization (Jeffrey Pyun, Tomasz Kowalewski, and Krzysztof Matyjaszewski). 2.1 Introduction. 2.2 Polymer Brushes on Flat Surfaces. 2.3 Polymer Brushes from Particles. 2.4 Molecular Brushes. 3 Polymer Brushes by Atom Transfer Radical Polymerization Initiated from Macroinitiator Synthesized on the Surface (Viktor Klep, Bogdan Zdyrko, Yong Liu, and Igor Luzinov). 3.1 Introduction. 3.2 Experimental. 3.3 Results and Discussion. 4 Synthesis of Polypeptide Brushes (Henning Menzel and Peter Witte). 4.1 Introduction. 4.2 Preparation of Peptide Brushes by "Grafting To". 4.3 Preparation of Peptide Brushes by Grafting From Polymerization. 4.4 Preparation of Peptide Brushes by Living Grafting From Polymerization. 5 Bottle Brush Brushes: Ring-Opening Polymerization of Lactide from Poly(hydroxyethyl methacrylate) Surfaces (Jong-Bum Kim, Wenxi Huang, Chun Wang, Merlin Bruening, and Gregory L. Baker). 5.1 Introduction. 5.2 Synthesis of PHEMA-g-PLA. 5.3 Conclusions and Implications for Future Studies. 5.4 Experimental Section. 6 Preparation of Well-Defined Organic-Inorganic Hybrid Nanostructures using Living Cationic Surface-Initiated Polymerization from Silica Nanoparticles (Il-Jin Kim, Su Chen, and Rudolf Faust). 6.1 Introduction. 6.2 Experimental Section. 6.3 Results and Discussion. 7 Photoinitiated Polymerization from Self-Assembled Monolayers (Daniel J. Dyer, Jianxin Feng, Charles Fivelson, Rituparna Paul, Rolf Schmidt, and Tongfeng Zhao). 7.1 Introduction. 7.2 Substrates. 7.3 Photoinitiated Radical Polymerization Mechanisms. 7.4 Polymerization from AIBN-type SAMs. 7.5 Conclusions and Future Studies. 7.6 Experimental. 8 Recent Advances in the Synthesis and Rearrangement of Block Copolymer Brushes (Stephen G. Boyes, Anthony M. Granville, Marina Baum, Bulent Akgun, Brian K. Mirous, and William J. Brittain). 8.1 Introduction and Background. 8.2 Controlled/"Living" Free Radical Polymerization. 8.3 Synthesis of Block Copolymer Brushes. 8.4 Rearrangement of Block Copolymer Brushes. 9 Surface-Grafted Hyperbranched Polymers (Hideharu Mori and Axel H. E. Muller). 9.1 Introduction. 9.2 "Grafting To" Approach. 9.3 Multi-Step Grafting Approach. 9.4 "Grafting From" Approach. Part II Characterization. 10 The Analysis and Characterization of Polymer Brushes: From Flat Surfaces to Nanoparticles (Rigoberto C. Advincula). 10.1 Introduction. 10.2 Characterization of Ultrathin Polymer Films and Polymer Brushes. 10.3 Investigating Polymer Brush Systems. 10.4 The Importance of Characterizing Particles and Nanoparticles. 10.5 Characterization and Analysis Methods for Polymer Brushes on Particles. 11 Characterization of Polymer Brushes on Nanoparticle Surfaces (Thomas A. P. Seery, Mark Jordi, Rosette Guino, and Dale Huber). 11.1 Introduction. 11.2 Experimental. 11.3 Results and Discussion. 12 Spherical Polyelectrolyte Brushes (Matthias Ballauff). 12.1 Introduction. 12.2 Synthesis and Characterization. 12.3 Experimental Verification of Theoretical Predictions. 12.4 Flow Behavior. 12.5 Applications. 13 Weak Polyelectrolyte Brushes: Complex Formation and Multilayer Build-up with Oppositely Charged Polyelectrolytes (Rupert Konradi, Haining Zhang, Markus Biesalski, and Jurgen Ruhe) 13.1 Introduction. 13.2 Synthesis and Data Evaluation. 13.3 Swelling Behavior of Weak Polyelectrolyte Brushes in Aqueous Environments. 13.4 Interaction Between Polyelectrolyte Brushes and Oppositely Charged Polyelectrolytes in Solution. 14 Structure and Properties of High-Density Polymer Brushes (Yoshinobu Tsujii, Muhammad Ejaz, Shinpei Yamamoto, Kohji Ohno, Kenji Urayama, and Takeshi Fukuda). 14.1 Introduction. 14.2 Controlled Synthesis of High-Density Polymer Brush by ATRP. 14.3 Structure and Properties of High-Density PMMA Brushes. 14.4 Application of High-Density Polymer Brushes. 15 Behavior of Surface-Anchored Poly(acrylic acid) Brushes with Grafting Density Gradients on Solid Substrates (Tao Wu, Jan Genzer, Peng Gong, Igal Szleifer, Petr Vlcek, and Vladimir Subr) Glossary. 15.1 Introduction. 15.2 Experimental Section. 15.3 Theory Section. 15.4 Experimental Results. 15.5 Discussion. 16 Kinetics of Polymer Brush Formation With and Without Segmental Adsorption (Lynn S. Penn, Heqing Huang, Roderic P. Quirk, and Tae H. Cheong). 16.1 Introduction. 16.2 Experimental. 16.3 Results and Discussion. Part III Applications. 17 Applications of Polymer Brushes and Other Surface-Attached Polymers (Kenneth C. Caster). 17.1 Introduction. 17.2 Surface Modification and Functionalization. 17.3 Applications. 17.4 Future Prospects. Appendix. 18 Polymer Brushes: Towards Applications (Gregory L. Whiting, Tamer Farhan, and Wilhelm T. S. Huck). 18.1 Introduction. 18.2 Experimental. 18.3 Results and Discussion. 19 Polymerization, Nanopatterning and Characterization of Surface-Confined, Stimulus-Responsive Polymer Brushes (Marian Kaholek, Woo-Kyung Lee, Bruce LaMattina, Kenneth C. Caster, and Stefan Zauscher). 19.1 Introduction. 19.2 Experimental. 19.3 Results and Discussion. 20 Mixed Polymer Brushes: Switching of Surface Behavior and Chemical Patterning at the Nanoscale (Sergiy Minko, Marcus Muller, Valeriy Luchnikov, Mikhail Motornov, Denys Usov, Leonid Ionov, and Manfred Stamm). 20.1 Introduction. 20.2 Theory of Mixed Polymer Brushes. 20.3 Synthesis of Mixed Brushes. 20.4 Experimental Study of Phase Segregation in Mixed Brushes. 20.5 Adaptive Responsive Behavior: Regulation of Wetting and Adhesion. 20.6 Patterning of Mixed Brushes. 21 Local Chain Organization of Switchable Binary Polymer Brushes in Selective Solvents (Melbs C. LeMieux, Denys Usov, Sergiy Minko, Manfred Stamm, and Vladimir V. Tsukruk). 21.1 Introduction. 21.2 Experimental. 21.3 Results and Discussion. 22 Motion of Nano-Objects Induced by a Switchable Polymer Carpet (Svetlana Prokhorova, Alexey Kopyshev, Ayothi Ramakrishnan, and Jurgen Ruhe). 22.1 Introduction. 22.2 Materials. 22.3 Results and Discussion. 23 Photochemical Strategies for the Preparation and Microstructuring of Densely Grafted Polymer Brushes on Planar Surfaces (Oswald Prucker, Rupert Konradi, Martin Schimmel, Jorg Habicht, In-Jun Park, and Jurgen Ruhe). 23.1 Introduction. 23.2 General Features of Surface-Initiated Polymerization from Monolayers of Azo Initiators. 23.3 Photolithographic Procedures for the Generation of Microstructured Polymer Brushes on Planar Surfaces. 23.4 Multifunctional Patterns. 23.5 Applications of Photostructured Polymer Brushes. Index.

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高分子刷:合成、表征、应用

前言。贡献者名单。聚合物刷:在定制表面的路上(Jurgen Ruhe)。1表面聚合物分子的生长:导言。2涂层:从基本原理到高科技应用。3表面涂层技术。4表面附着聚合物。5聚合物刷:一般特性。6聚合物刷理论。7聚合物刷的合成。8聚合物刷作为功能材料。9微结构聚合物刷。10表面引发聚合:总体情况。1高分子刷合成的最新进展(Anthony M. Granville and William J. Brittain)。1.1简介。1.2“接枝到”合成技术。1.3“接枝自”合成技术。2原子转移自由基聚合聚合物刷(Jeffrey Pyun, Tomasz Kowalewski和krzysztoof Matyjaszewski)。2.1简介。2.2平面聚合物刷。2.3颗粒聚合物刷。2.4分子刷。3表面合成的高分子引发剂引发原子转移自由基聚合聚合物刷(Viktor Klep, Bogdan Zdyrko, Yong Liu, Igor Luzinov)3.1简介。3.2实验。3.3结果与讨论。4多肽刷的合成(Henning Menzel和Peter Witte)4.1简介。4.2“接枝”法制备肽刷。4.3聚合接枝法制备肽刷。4.4聚合活接枝法制备肽刷。5瓶刷刷:聚甲基丙烯酸羟乙酯表面开环聚合丙交酯(Kim Jong-Bum, Huang Wenxi, Wang Chun, Merlin Bruening, and Gregory L. Baker)5.1简介5.2 PHEMA-g-PLA的合成5.3结论和对未来研究的影响5.4实验部分。6利用活性阳离子表面引发聚合从二氧化硅纳米颗粒制备明确定义的有机-无机杂化纳米结构(Il-Jin Kim, Su Chen, and Rudolf Faust)7自组装单分子膜的光引发聚合(Daniel J. Dyer, Jianxin Feng, Charles Fivelson, Rituparna Paul, Rolf Schmidt, and Tongfeng Zhao)。7.1简介。7.2底物。7.3光引发自由基聚合机理。7.4 aibn型sam聚合。7.6实验。8嵌段共聚物刷的合成和重排的最新进展(Stephen G. Boyes, Anthony M. Granville, Marina Baum, Bulent Akgun, Brian K. Mirous, and William J. Brittain)8.1简介和背景。8.2受控/“活”自由基聚合。8.3嵌段共聚物刷的合成。8.4嵌段共聚物刷的重排。9表面接枝的超支化聚合物(Hideharu Mori和Axel H. E. Muller)。9.1简介。9.2“接枝到”方法。9.3多步接枝方法。9.4“接枝自”方法。聚合物刷的分析和表征:从平面到纳米颗粒(Rigoberto C. Advincula)。10.1简介。10.2超薄聚合物薄膜和聚合物刷的表征。10.3研究聚合物刷系统。10.4表征颗粒和纳米颗粒的重要性。10.5表征和分析方法的聚合物刷在颗粒上。11表征聚合物刷在纳米颗粒表面(Thomas A. P. Seery, Mark Jordi, Rosette Guino和Dale Huber)。11.1简介。11.2实验。11.3结果与讨论。12球形聚电解质刷(Matthias Ballauff)。12.1简介。12.2合成与表征。12.3理论预测的实验验证。12.4流动特性。12.5应用。13弱聚电解质电刷:带相反电荷的聚电解质复合物的形成和多层积聚(Rupert Konradi, Haining Zhang, Markus Biesalski, Jurgen Ruhe) 13.1绪论。13.2合成和数据评价。13.3弱聚电解质刷在水环境中的膨胀行为。13.4聚电解质刷与溶液中相反电荷的聚电解质之间的相互作用。14高密度聚合物刷的结构和性能(Yoshinobu Tsujii, Muhammad Ejaz, Shinpei Yamamoto, 2014)大野浩司、浦山贤司和福田武司)。14.1简介。14.2高密度聚合物刷的ATRP可控合成。14.3高密度PMMA刷的结构与性能。14.4高密度聚合物刷的应用。15具有接枝密度梯度的表面锚定聚丙烯酸刷在固体基板上的行为(吴涛，Jan Genzer, Gong Peng, Igal Szleifer, peter Vlcek，和Vladimir Subr)术语表。15.1导论。15.2实验部分。15.3理论部分。15.4实验结果。15.5讨论。16有和没有片段吸附的聚合物刷形成动力学(Lynn S. Penn, Heqing Huang, Roderic P.)。 Quirk和Tae H. Cheong)。16.1引言。16.2实验。16.3结果与讨论。第三部分应用。17聚合物刷和其他表面附着聚合物的应用(Kenneth C. Caster)。17.1简介。17.2表面改性与功能化。17.3应用。17.4未来展望。附录18聚合物刷:走向应用(Gregory L. Whiting, Tamer Farhan和Wilhelm T. S. Huck)。18.1简介。18.2实验。18.3结果和讨论。19表面限制、刺激响应聚合物刷的聚合、纳米图案和表征(Marian Kaholek, Woo-Kyung Lee, Bruce LaMattina, Kenneth C. Caster和Stefan Zauscher)。19.1简介。19.2实验。19.3结果和讨论。20混合聚合物刷:纳米级表面行为和化学图案的切换(Sergiy Minko, Marcus Muller, Valeriy Luchnikov, Mikhail Motornov, Denys Usov, Leonid Ionov, and Manfred Stamm)。20.1导论。20.2混合聚合物刷理论。20.3混合刷的合成。20.4混合刷中相分离的实验研究。20.5自适应响应行为:润湿和粘附的调节。20.6混合刷的图图化。21可切换二元聚合物刷在选择性溶剂中的局部链组织(Melbs C. LeMieux, Denys Usov, Sergiy Minko, Manfred Stamm, and Vladimir V. Tsukruk)21.1简介。21.2实验。21.3结果和讨论。22可切换聚合物地毯诱导纳米物体的运动(Svetlana Prokhorova, Alexey Kopyshev, Ayothi Ramakrishnan, and Jurgen Ruhe)。23平面上密集接枝聚合物刷的制备和微观结构的光化学策略(Oswald Prucker, Rupert Konradi, Martin Schimmel, Jorg Habicht, In-Jun Park, and Jurgen Ruhe)。23.1简介。23.2偶氮引发剂单层表面引发聚合的一般特征。23.3在平面上生成微结构聚合物刷的光刻程序。23.4多功能图案。23.5光结构聚合物刷的应用。索引。

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