Synthesis of hyperbranched polymer films via electrodeposition and oxygen-tolerant surface-initiated photoinduced polymerization.

[1]  L. Chen,et al.  Volume Overlap Variation within Hyperbranched Polymer Brushes Resolves Topology Effects against Protein Fouling. , 2022, Biomacromolecules.

[2]  R. Advíncula,et al.  SI-PET-RAFT Polymerization via Electrodeposited Macroinitiator Thin Films: Toward Biomedical and Sensing Applications , 2022, ACS Applied Polymer Materials.

[3]  C. Boyer,et al.  Synthesis of Polymer Brushes Via SI-PET-RAFT for Photodynamic Inactivation of Bacteria. , 2021, Macromolecular rapid communications.

[4]  M. Allegrezza,et al.  PET-RAFT Polymerization: Mechanistic Perspectives for Future Materials. , 2021, ACS macro letters.

[5]  R. Advíncula,et al.  Core–Shell Gold Nanoparticle-Star Copolymer Composites with Gradient Transfer and Transport Properties: Toward Electro-Optical Sensors and Catalysis , 2021 .

[6]  C. Boyer,et al.  Benchtop Preparation of Polymer Brushes by SI-PET-RAFT: The Effect of the Polymer Composition and Structure on Inhibition of a Pseudomonas Biofilm. , 2020, ACS applied materials & interfaces.

[7]  Dennis W. Smith,et al.  Surface electroanalytical approaches to organic polymeric coatings , 2020 .

[8]  Mohd Adzir Mahdi,et al.  Experimental evaluation on surface plasmon resonance sensor performance based on sensitive hyperbranched polymer nanocomposite thin films , 2020 .

[9]  Wantai Yang,et al.  Enhanced dielectric properties of sandwich‐structured biaxially oriented polypropylene by grafting hyper‐branched aromatic polyamide as surface layers , 2020 .

[10]  H. Klok,et al.  Complex polymer topologies and polymer—nanoparticle hybrid films prepared via surface-initiated controlled radical polymerization , 2020 .

[11]  Yen Wei,et al.  Direct Surface Functionalization of Cellulose Nanocrystals with Hyperbranched Polymers through the Anionic Polymerization for pH-Responsive Intracellular Drug Delivery , 2019 .

[12]  S. Ahmad,et al.  Formulation of a promising antimicrobial and anticorrosive bi-functional boronated hyperbranched oleo-polyurethane composite coating through the exploitation of functionalized reduced graphene oxide as chain extender , 2019, Applied Surface Science.

[13]  C. M. Bates,et al.  Surface‐initiated PET‐RAFT polymerization under metal‐free and ambient conditions using enzyme degassing , 2019, Journal of Polymer Science.

[14]  Ehsan Mohammadifar,et al.  Synthesis of boronic acid‐functionalized poly(glycerol‐oligoγ‐butyrolactone): Nano‐networks for efficient electrochemical sensing of biosystems , 2019, Journal of Polymer Science Part A: Polymer Chemistry.

[15]  H. Zheng,et al.  PEGylated metal-phenolic networks for antimicrobial and antifouling properties. , 2019, Langmuir : the ACS journal of surfaces and colloids.

[16]  C. Boyer,et al.  SI-PET-RAFT: Surface-Initiated Photoinduced Electron Transfer-Reversible Addition-Fragmentation Chain Transfer Polymerization. , 2019, ACS macro letters.

[17]  Omar Azzaroni,et al.  Practical use of polymer brushes in sustainable energy applications: interfacial nanoarchitectonics for high-efficiency devices. , 2019, Chemical Society reviews.

[18]  H. C. van der Mei,et al.  Preparation and Evaluation of Antimicrobial Hyperbranched Emulsifiers for Waterborne Coatings , 2019, Langmuir : the ACS journal of surfaces and colloids.

[19]  Yingying Liu,et al.  Self-Assembling Protein-Polymer Bioconjugates for Surfaces with Antifouling Features and Low Nonspecific Binding. , 2018, ACS applied materials & interfaces.

[20]  Jiangtao Xu,et al.  PET-RAFT polymerisation: towards green and precision polymer manufacturing. , 2018, Chemical communications.

[21]  Jiangtao Xu,et al.  Application of oxygen tolerant PET-RAFT to polymerization-induced self-assembly , 2017 .

[22]  Harm-Anton Klok,et al.  Surface-Initiated Controlled Radical Polymerization: State-of-the-Art, Opportunities, and Challenges in Surface and Interface Engineering with Polymer Brushes. , 2017, Chemical reviews.

[23]  Carlos Alemán,et al.  Protective Coatings for Aluminum Alloy Based on Hyperbranched 1,4-Polytriazoles. , 2017, ACS applied materials & interfaces.

[24]  Chao Gao,et al.  Hyperbranched polymers: advances from synthesis to applications. , 2015, Chemical Society reviews.

[25]  W. Saltzman,et al.  The effect of hyperbranched polyglycerol coatings on drug delivery using degradable polymer nanoparticles. , 2014, Biomaterials.

[26]  Yongjie Yuan,et al.  Investigation of surface plasmon resonance phenomena by finite element analysis and Fresnel calculation , 2014 .

[27]  H. Frey,et al.  Grafting of hyperbranched polymers: From unusual complex polymer topologies to multivalent surface functionalization , 2013 .

[28]  B. Liedberg,et al.  Protein-resistant hyperbranched polyethyleneimine brush surfaces. , 2013, Journal of colloid and interface science.

[29]  Jurriaan Huskens,et al.  A brush-gel/metal-nanoparticle hybrid film as an efficient supported catalyst in glass microreactors. , 2010, Chemistry.

[30]  R. Advíncula,et al.  Electrochemical deposition and surface-initiated RAFT polymerization: protein and cell-resistant PPEGMEMA polymer brushes. , 2010, Biomacromolecules.

[31]  R. Advíncula,et al.  Nanoparticle formation and ultrathin film electrodeposition of carbazole dendronized polynorbornenes prepared by ring-opening metathesis polymerization. , 2010, Langmuir : the ACS journal of surfaces and colloids.

[32]  P. Uhlmann,et al.  Gold Nanoparticles Immobilized on Stimuli Responsive Polymer Brushes as Nanosensors , 2008 .

[33]  Li Wang,et al.  Hyperbranched ferrocenyl polymer film with high charge transport efficiency. , 2008, The journal of physical chemistry. B.

[34]  R. Advíncula,et al.  Electrochemical Cross-Linking and Patterning of Nanostructured Polyelectrolyte#Carbazole Precursor Ultrathin Films , 2008 .

[35]  Vladimir V. Tsukruk,et al.  The architectures and surface behavior of highly branched molecules , 2008 .

[36]  R. Advíncula,et al.  Investigating carbazole jacketed precursor dendrimers: sonochemical synthesis, characterization, and electrochemical crosslinking properties. , 2007, Journal of the American Chemical Society.

[37]  Brigitte Voit,et al.  Hyperbranched polymers—All problems solved after 15 years of research? , 2005 .

[38]  Vladimir V Tsukruk,et al.  Freely suspended nanocomposite membranes as highly sensitive sensors , 2004, Nature materials.

[39]  D. Yan,et al.  Hyperbranched polymers: from synthesis to applications , 2004 .

[40]  R. Crooks Patterning of hyperbranched polymer films. , 2001, Chemphyschem : a European journal of chemical physics and physical chemistry.

[41]  Günter Gauglitz,et al.  Surface plasmon resonance sensors: review , 1999 .

[42]  R. Crooks,et al.  Preparation of Hyperbranched Polymer Films Grafted on Self-Assembled Monolayers , 1996 .

[43]  Young Hwan Kim,et al.  Water soluble hyperbranched polyphenylene: "a unimolecular micelle?" , 1990 .