Preparation and incorporation of microcapsules in functional coatings for self-healing of packaging board

Caisa Andersson; Lars Järnström; Andrew Fogden; Isabel Mira; Wolfgang Voit; Sebastian Zywicki; Artur Bartkowiak

doi:10.1002/pts.853

Electrospinning: A Powerful Tool to Improve the Corrosion Resistance of Metallic Surfaces Using Nanofibrous Coatings

Metals ◽

10.3390/met10030350 ◽

2020 ◽

Vol 10 (3) ◽

pp. 350 ◽

Cited By ~ 4

Author(s):

Pedro J. Rivero ◽

Deyo Maeztu Redin ◽

Rafael J. Rodríguez

Keyword(s):

Surface Engineering ◽

Good Control ◽

Self Healing ◽

Intrinsic Properties ◽

Functional Coatings ◽

Metallic Surfaces ◽

Electrospinning Technique ◽

Deposition Parameters ◽

Efficient Alternative ◽

Fibre Morphology

The use of surface engineering techniques to tune-up the composition of nanostructured thin-films for developing functional coatings with advanced properties is a hot topic within the scientific community. The control of the coating structure at the nanoscale level allows improving the intrinsic properties of the surface compared to bulk materials. A nanodeposition technique with increasing popularity in the field of nanotechnology is electrospinning. This technique permits the fabrication of long and continuous fibres on the micro-nano scale. The good control over fibre morphology combined with its simplicity, cost-effectiveness, easy exploitability and scalability make electrospinning a very interesting tool for technological applications. This review is focused on the use of the electrospinning technique to protect metallic surfaces against corrosion. Polymeric precursors, from natural or biodegradable to synthetic polymers and copolymers can be electrospun with an adequate control of the operational deposition parameters (applied voltage, flow rate, distance tip to collector) and the intrinsic properties of the polymeric precursor (concentration, viscosity, solvent). The electrospun fibres can be used as an efficient alternative to encapsulate corrosion inhibitors of different nature (inorganic or organic) as well as self-healing agents which can be released to reduce the corrosion rate in the metallic surfaces.

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Special Issue “Recent Developments on Functional Coatings for Industrial Applications”

Coatings ◽

10.3390/coatings10111017 ◽

2020 ◽

Vol 10 (11) ◽

pp. 1017

Author(s):

Luigi Calabrese ◽

Edoardo Proverbio

Keyword(s):

Surface Engineering ◽

Industrial Applications ◽

Added Value ◽

Research Progress ◽

Self Healing ◽

Special Issue ◽

Functional Coatings ◽

Functional Surface ◽

Energy Technologies ◽

Recent Developments

“Recent Developments on Functional Coatings for Industrial Applications” assessed some emerging aspects concerning the recent research progress in the designing, manufacturing and tailoring of new functional coatings for industrial applications. The purpose was to address the recent development in functional coatings synthesis, characterization and optimization, highlighting its emerging industrial applicability in many industrial fields, such as self-healing, self-cleaning or sustainable energy technologies. The multidisciplinary nature of the issue represents an added value aimed at better enhancing the practical relevance and the technological versatility of the functional surface engineering design.

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The impact of 1,2,3-triazoles in the design of functional coatings

RSC Advances ◽

10.1039/c4ra12739k ◽

2015 ◽

Vol 5 (5) ◽

pp. 3687-3708 ◽

Cited By ~ 58

Author(s):

Sasidhar Kantheti ◽

Ramanuj Narayan ◽

K. V. S. N. Raju

Keyword(s):

High Performance ◽

Review Article ◽

Organic Coatings ◽

Self Healing ◽

Hybrid Nanocomposite ◽

Functional Coatings ◽

The Impact

This review article presents an overview of the application of 1,2,3-triazoles in the design of various high performance organic coatings with properties like anti-corrosive, anti-microbial, self-healing, hybrid nanocomposite, bio degradableetc.

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Emulsion route in fabrication of micro and nanocontainers for biomimetic self-healing and self-protecting functional coatings

Bioinspired Biomimetic and Nanobiomaterials ◽

10.1680/bbn.11.00017 ◽

2012 ◽

Vol 1 (2) ◽

pp. 101-116 ◽

Cited By ~ 13

Author(s):

Dmitry O. Grigoriev ◽

Martin F. Haase ◽

Nick Fandrich ◽

Alexandra Latnikova ◽

Dmitry G. Shchukin

Keyword(s):

Self Healing ◽

Functional Coatings

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Dual-Functional Coatings with Self-Lubricating and Self-Healing Properties by Combining Poly(urea–formaldehyde)/SiO2 Hybrid Microcapsules Containing Linseed Oil

Industrial & Engineering Chemistry Research ◽

10.1021/acs.iecr.9b04736 ◽

2019 ◽

Vol 58 (48) ◽

pp. 22032-22039 ◽

Cited By ~ 6

Author(s):

Kaka Li ◽

Haiyan Li ◽

Yexiang Cui ◽

Zhike Li ◽

Jing Ji ◽

...

Keyword(s):

Linseed Oil ◽

Urea Formaldehyde ◽

Self Healing ◽

Functional Coatings ◽

Dual Functional

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Bioinspired self-healing materials: lessons from nature

Beilstein Journal of Nanotechnology ◽

10.3762/bjnano.9.85 ◽

2018 ◽

Vol 9 ◽

pp. 907-935 ◽

Cited By ~ 27

Author(s):

Joseph C Cremaldi ◽

Bharat Bhushan

Keyword(s):

Defense Mechanisms ◽

Cellular Response ◽

Self Healing ◽

Vascular Networks ◽

Muscle Control ◽

Functional Coatings ◽

Evolutionary Methods ◽

Bioinspired Materials ◽

Living Nature ◽

The Relationship

Healing is an intrinsic ability in the incredibly biodiverse populations of the plant and animal kingdoms created through evolution. Plants and animals approach healing in similar ways but with unique pathways, such as damage containment in plants or clotting in animals. After analyzing the examples of healing and defense mechanisms found in living nature, eight prevalent mechanisms were identified: reversible muscle control, clotting, cellular response, layering, protective surfaces, vascular networks or capsules, exposure, and replenishable functional coatings. Then the relationship between these mechanisms, nature’s best (evolutionary) methods of mitigating and healing damage, and existing technology in self-healing materials are described. The goals of this top-level overview are to provide a framework for relating the behavior seen in living nature to bioinspired materials, act as a resource to addressing the limitations/problems with existing materials, and open up new avenues of insight and research into self-healing materials.

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Autonomous self-healing polyisoprene elastomers with high modulus and good toughness based on the synergy of dynamic ionic crosslinks and highly disordered crystals

Polymer Chemistry ◽

10.1039/d0py01034k ◽

2020 ◽

Vol 11 (41) ◽

pp. 6549-6558

Author(s):

Yohei Miwa ◽

Mayu Yamada ◽

Yu Shinke ◽

Shoichi Kutsumizu

Keyword(s):

Mechanical Properties ◽

Room Temperature ◽

Self Healing ◽

High Modulus ◽

Disordered Crystals ◽

Ionic Crosslinks

We designed a novel polyisoprene elastomer with high mechanical properties and autonomous self-healing capability at room temperature facilitated by the coexistence of dynamic ionic crosslinks and crystalline components that slowly reassembled.

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