Bioinspired Catechol-Based Systems : : Chemistry and Applications / / Marco d'Ischia, Daniel Ruiz-Molina.
Bioinspired Catechol-Based Systems: Chemistry and Applications.
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| Place / Publishing House: | Basel, Switzerland : : MDPI - Multidisciplinary Digital Publishing Institute,, 2018. |
| Year of Publication: | 2018 |
| Language: | English |
| Physical Description: | 1 online resource (v, 196 pages) |
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Table of Contents:
- About the Special Issue Editors . v Preface to "Bioinspired Catechol-Based Systems: Chemistry and Applications" . vii Chapter 1: Chemistry of Catechol-Based Systems Vincenzo Barone, Ivo Cacelli, Alessandro Ferretti and Giacomo Prampolini Noncovalent Interactions in the Catechol Dimer Reprinted from: Biomimetics 2017, 2(3), 18; doi: 10.3390/biomimetics2030018 . 1 Orlando Crescenzi, Marco d'Ischia and Alessandra Napolitano Kaxiras's Porphyrin: DFT Modeling of Redox-Tuned Optical and Electronic Properties in a Theoretically Designed Catechol-Based Bioinspired Platform Reprinted from: Biomimetics 2017, 2(4), 21; doi: 10.3390/biomimetics2040021 . 14 Riccardo Amorati, Andrea Baschieri, Adam Cowden and Luca Valgimigli The Antioxidant Activity of Quercetin in Water Solution Reprinted from: Biomimetics 2017, 2(3), 9; doi: 10.3390/biomimetics2030009 . 42 Chapter 2: Catechol-Based Biomechanisms and Bioactivity Natalie A. Hamada, Victor A. Roman, Steven M. Howell and Jonathan J. Wilker Examining Potential Active Tempering of Adhesive Curing by Marine Mussels Reprinted from: Biomimetics 2017, 2(3), 16; doi: 10.3390/biomimetics2030016 . 57 Raffaella Micillo, Valeria Pistorio, Elio Pizzo, Lucia Panzella, Alessandra Napolitano and Marco d'Ischia 2-S-Lipoylcaffeic Acid, a Natural Product-Based Entry to Tyrosinase Inhibition via Catechol Manipulation Reprinted from: Biomimetics 2017, 2(3), 15; doi: 10.3390/biomimetics2030015 . 68 Matteo Ramazzotti, Paolo Paoli, Bruno Tiribilli, Caterina Viglianisi, Stefano Menichetti and Donatella Degl'Innocenti Catechol-Containing Hydroxylated Biomimetic 4-Thiaflavanes as Inhibitors of Amyloid Aggregation Reprinted from: Biomimetics 2017, 2(2), 6; doi: 10.3390/biomimetics2020006 . 79 Chapter 3: Catechol Applications in Materials Science Vincent Ball Composite Materials and Films Based on Melanins, Polydopamine, and Other Catecholamine-Based Materials Reprinted from: Biomimetics 2017, 2(3), 12; doi: 10.3390/biomimetics2030012 . 93 Salvio Suárez-García, Josep Sedó, Javier Saiz-Poseu and Daniel Ruiz-Molina Copolymerization of a Catechol and a Diamine as a Versatile Polydopamine-Like Platform for Surface Functionalization: The Case of a Hydrophobic Coating Reprinted from: Biomimetics 2017, 2(4), 22; doi: 10.3390/biomimetics2040022 . 109 Jun Feng, Xuan-Anh Ton, Shifang Zhao, Julieta I. Paez and Aránzazu del Campo Mechanically Reinforced Catechol-Containing Hydrogels with Improved Tissue Gluing Performance Reprinted from: Biomimetics 2017, 2(4), 23; doi: 10.3390/biomimetics2040023 . 126 Maria P. Sousa and João F. Mano Cell-Adhesive Bioinspired and Catechol-Based Multilayer Freestanding Membranes for Bone Tissue Engineering Reprinted from: Biomimetics 2017, 2(4), 19; doi: 10.3390/biomimetics2040019 . 142 Devang R. Amin, Caroline Sugnaux, King Hang Aaron Lau and Phillip B. Messersmith Size Control and Fluorescence Labeling of Polydopamine Melanin-Mimetic Nanoparticles for Intracellular Imaging Reprinted from: Biomimetics 2017, 2(3), 17; doi: 10.3390/biomimetics2030017 . 162 Eunkyoung Kim, Zhengchun Liu, Yi Liu, William E. Bentley and Gregory F. Payne Catechol-Based Hydrogel for Chemical Information Processing Reprinted from: Biomimetics 2017, 2(3), 11; doi: 10.3390/biomimetics2030011 . 181.