The removal of organic dyes using functionalization SiO 2 composites (denoted as SiO 2 -PDA-CSH) were prepared via a facile method that combined with mussel inspired chemistry and Kabachnik-Fields (KF) reaction. The size and surface morphology chemical structure thermal stability surface charging property and elemental composition were evaluated by means of transmission electron microscope
2020-11-19 · istry and universal surface adhesion of mussel-inspired chemistry may synergically provide a versatile surface bioen-gineering strategy for a wide range of biomedical materials. 2. Results and Discussion 2.1. Bioclickable Mussel Adhesive Peptide Mimic. The azide-bearing mussel adhesive peptide mimic was designed based
This dissertation provided an insight of exploiting mussel-inspired chemistry in designing a hydrogel with specific materials property. Recommended Citation Liu Yuan "DESIGN OF ROBUST HYDROGEL BASED ON MUSSEL-INSPIRED CHEMISTRY" Open Access Dissertation Michigan Technological University 2017.
2014-10-17 · Mussel-inspired chemistry is known to progress through either chemical or physical interaction between substrate and catechol-rich molecules or polymers 21 22 . Interestingly surface functionalization methods utilizing mussel-inspired chemistry are reported to be independent of the chemical composition of substrates.
PDA films can further react with other compounds with thiol and amino functional groups through the Michael addition reaction. 12 26–35 Inspired by this our group has recently reported that PDA covered the surface of pristine CNTs via mussel-inspired chemistry. 36 37 Because of its simplicity universality and effectiveness mussel
Very recently mussel-inspired chemistry has been attempted as another functionalization method for nanoma-terials such as graphene and BNNT 17–20 . Mussel-inspired chemistry is known to progress through either chemical or physical interaction between substrate and catechol-rich molecules or polymers 21 22 . Interestingly surface func-
Mussel-Inspired Surface Chemistry for Multifunctional Coatings. We report a method to form multifunctional polymer coatings through simple dip-coating of objects in an aqueous solution of dopamine. Inspired by the composition of adhesive proteins in mussels we used dopamine self-polymerization to form thin surface-adherent polydopamine films
PDA films can further react with other compounds with thiol and amino functional groups through the Michael addition reaction. 12 26–35 Inspired by this our group has recently reported that PDA covered the surface of pristine CNTs via mussel-inspired chemistry. 36 37 Because of its simplicity universality and effectiveness mussel
T1Mussel-inspired surface chemistry for multifunctional coatings. AULee Haeshin. AUDellatore Shara M. AUMiller William M. AUMessersmith Phillip B. PY2007/10/19. Y12007/10/19. N2We report a method to form multifunctional polymer coatings through simple dip-coating of objects in an aqueous solution of dopamine.
Mussel-inspired chemistry as a powerful tool to manipulate material properties has been widely studied and implemented in surface engineering of a variety of materials for multipurpose functionalization. With the rapid development of this field more flexible and efficient modification strategies for surface engineering and application modes
Mussel-Inspired Surface Chemistry for Multifunctional Coatings. 1 Biomedical Engineering Northwestern University 2145 Sheridan Road Evanston IL 60208 USA. 2 Chemical and Biological Engineering Northwestern University 2145 Sheridan Road Evanston IL 60208 USA. 3 Institute for BioNanotechnology in Medicine Northwestern University 2145
2021-5-5 · The coating combines the universal adhesion of mussel-inspired polydopamine chemistry with the efficient liquid repellency of lubricant-infused surfaces inspired by the pitcher plant. We devised a one-step process that simultaneously provides substrate-independent adhesion surface functionalization with PDMS polymer chains and lubrication with
2020-11-19 · istry and universal surface adhesion of mussel-inspired chemistry may synergically provide a versatile surface bioen-gineering strategy for a wide range of biomedical materials. 2. Results and Discussion 2.1. Bioclickable Mussel Adhesive Peptide Mimic. The azide-bearing mussel adhesive peptide mimic was designed based
Mussel-Inspired Underwater Sticky Notes Watch The Video Postdoctoral Fellowship Opening Polymer/Supramolecular Chemistry Messersmith Lab Wins Lab Safety Award Feb 2019 Messersmith Lab Outing- Mussel Feast at the Beach Sally and Kayla
Very recently mussel-inspired chemistry has been attempted as another functionalization method for nanoma-terials such as graphene and BNNT 17–20 . Mussel-inspired chemistry is known to progress through either chemical or physical interaction between substrate and catechol-rich molecules or polymers 21 22 . Interestingly surface func-
In the past decade mussel-bioinspired surface chemistry has been an interdisciplinary research hotspot in material science chemistry and biomedicine etc.Dopamine behaves like mussel foot proteins and is able to develop into polydopamine (PDA) nanocoating and nanoparticles with various functions by complicated oxidation self-polymerization and further self-assembly.PDA nanomaterials have
2019-5-25 · Inspired by mussel adhesiveness scientists discovered that dopamine undergoes self-polymerization at alkaline conditions. This reaction provides a universal coating for metals polymers and ceramics regardless of their chemical and physical properties.
2017-6-5 · A facile and versatile mussel-inspired surface modification approach was used to modify porous materials (wood sponge and stainless steel mesh) to fabricate a superhydrophobic surface. The as-formed polydopamine (PDA) coating can tightly adhere on the porous structure surface which also provides a versatile platf
2021-7-20 · Mussel power. The adhesive proteins secreted by mussels are the inspiration behind a versatile approach to the surface modification of a wide range of
Very recently mussel-inspired chemistry has been attempted as another functionalization method for nanoma-terials such as graphene and BNNT 17–20 . Mussel-inspired chemistry is known to progress through either chemical or physical interaction between substrate and catechol-rich molecules or polymers 21 22 . Interestingly surface func-
2019-5-25 · Inspired by mussel adhesiveness scientists discovered that dopamine undergoes self-polymerization at alkaline conditions. This reaction provides a universal coating for metals polymers and ceramics regardless of their chemical and physical properties. Furthermore this polymerized layer is enriched with catechol groups that ena
2021-5-5 · The versatility of the mussel-inspired chemistry combined with the possibility to effectively cover large areas and complex sample geometries by spray- or dip coating in the one-step coating process affords applicability in technologically relevant examples and every-day life.
2015-11-12 · The latter is emerging as a tool to make self-healing materials due to the reversible nature of coordination bonds. We review how mussel-inspired materials have been made with a focus on the less developed use of metal coordination and illustrate how this chemistry can be widely to make self-healing materials.
2021-5-5 · The coating combines the universal adhesion of mussel-inspired polydopamine chemistry with the efficient liquid repellency of lubricant-infused surfaces inspired by the pitcher plant. We devised a one-step process that simultaneously provides substrate-independent adhesion surface functionalization with PDMS polymer chains and lubrication with
2016-9-14 · Mussel-inspired chemistry that relied on self-polymerization of dopamine under alkaline aqueous solution is a rather facile method for surface modification of different materials and surfaces for various applications ranging from tissue engineering energy conversion and storage to environmental adsorption 66–68 . In this work we reported
2014-10-17 · Mussel-inspired chemistry is known to progress through either chemical or physical interaction between substrate and catechol-rich molecules or polymers 21 22 . Interestingly surface functionalization methods utilizing mussel-inspired chemistry are reported to be independent of the chemical composition of substrates.
Mussel-Inspired Surface Chemistry for Multifunctional Coatings Haeshin Lee 1 Shara M. Dellatore 2 William M. Miller 2 3 Phillip B. Messersmith1 3 4 We report a method to form multifunctional polymer coatings through simple dip-coating of objects in an aqueous solution of dopamine. Inspired by the composition of adhesive proteins in mussels we
Very recently mussel-inspired chemistry has been attempted as another functionalization method for nanoma-terials such as graphene and BNNT 17–20 . Mussel-inspired chemistry is known to progress through either chemical or physical interaction between substrate and catechol-rich molecules or polymers 21 22 . Interestingly surface func-
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