ORGANIC SURFACES USING COVALENT BONDS ON GLASS AND CERAMICS: ANTI-FOOTPRINT FUNCTIONALITY AND EASY DURABLE CLEANING (Q3177228): Difference between revisions
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(Removed claim: summary (P836): The objective of the OMNI-COVALENTE project is the development of technological solutions based on stable omniphobic formulations and industrializable application processes that allow the surface modification of glass and ceramics for the manufacture of products with easy cleaning and anti-fingerprint functionality durable for the construction sector._x000D_ _x000D_ For this purpose, OMNI-COVALENTE proposes to uniquely combine an alternative c...) |
(Created claim: summary (P836): The objective of the OMNI-COVALENTE project is the development of technological solutions based on stable omniphobic formulations and industrializable application processes that allow the surface modification of glass and ceramics for the manufacture of products with easy cleaning and anti-fingerprint functionality durable for the construction sector._x000D_ _x000D_ For this purpose, OMNI-COVALENTE proposes to uniquely combine an alternative con...) |
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The objective of the OMNI-COVALENTE project is the development of technological solutions based on stable omniphobic formulations and industrializable application processes that allow the surface modification of glass and ceramics for the manufacture of products with easy cleaning and anti-fingerprint functionality durable for the construction sector._x000D_ _x000D_ For this purpose, OMNI-COVALENTE proposes to uniquely combine an alternative concept of repellence (i.e. anchorage) of the different substances to repel -i.e. water, oil, but also different liquids that are diluted to the time-dealing (i.e. to achieve high angle-impact) surfaces (i.e. based on favouring the slipping of the different substances to repel -i.e. water, oil, but also different liquids that are diff-fluents-imposing — covalently based on fostering the slipping of the different substances to repel -i.e. water, oil, but also different liquids that are diluted by means of high-diffness-impacts — covalently based on the slippage of the different substances to repelle -i.e. water, oil, but also different fluids that are diffusive (i.e. to achieve high angle-free) surfaces (i.e.). It should be noted that, compared to superhydrophobic surfaces, the omniphobic character opens up wide possibilities for the easy cleaning of glass and ceramic surfaces since the extension of repellence to any dirty fluid means that it is not absolutely necessary to resort to a cleaning stage in which water is used to drag dirt. By way of example, soiling fluids can be ejected directly from the surface if they are in very small quantities (e.g. fingerprint) or when the surface in question is inclined or removed with a cloth taking advantage of low adhesion in the case of surfaces with a fully horizontal orientation._x000D_ _x000D_ Today, there are clear opportunities for glass and ceramics with the aforementioned functionalities. However, this requires a technological leap in terms of functionality — especially as regards anti-footprint — and durability over the solutions proposed so far. (English) | |||||||||||||||
| Property / summary: The objective of the OMNI-COVALENTE project is the development of technological solutions based on stable omniphobic formulations and industrializable application processes that allow the surface modification of glass and ceramics for the manufacture of products with easy cleaning and anti-fingerprint functionality durable for the construction sector._x000D_ _x000D_ For this purpose, OMNI-COVALENTE proposes to uniquely combine an alternative concept of repellence (i.e. anchorage) of the different substances to repel -i.e. water, oil, but also different liquids that are diluted to the time-dealing (i.e. to achieve high angle-impact) surfaces (i.e. based on favouring the slipping of the different substances to repel -i.e. water, oil, but also different liquids that are diff-fluents-imposing — covalently based on fostering the slipping of the different substances to repel -i.e. water, oil, but also different liquids that are diluted by means of high-diffness-impacts — covalently based on the slippage of the different substances to repelle -i.e. water, oil, but also different fluids that are diffusive (i.e. to achieve high angle-free) surfaces (i.e.). It should be noted that, compared to superhydrophobic surfaces, the omniphobic character opens up wide possibilities for the easy cleaning of glass and ceramic surfaces since the extension of repellence to any dirty fluid means that it is not absolutely necessary to resort to a cleaning stage in which water is used to drag dirt. By way of example, soiling fluids can be ejected directly from the surface if they are in very small quantities (e.g. fingerprint) or when the surface in question is inclined or removed with a cloth taking advantage of low adhesion in the case of surfaces with a fully horizontal orientation._x000D_ _x000D_ Today, there are clear opportunities for glass and ceramics with the aforementioned functionalities. However, this requires a technological leap in terms of functionality — especially as regards anti-footprint — and durability over the solutions proposed so far. (English) / rank | |||||||||||||||
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| Property / summary: The objective of the OMNI-COVALENTE project is the development of technological solutions based on stable omniphobic formulations and industrializable application processes that allow the surface modification of glass and ceramics for the manufacture of products with easy cleaning and anti-fingerprint functionality durable for the construction sector._x000D_ _x000D_ For this purpose, OMNI-COVALENTE proposes to uniquely combine an alternative concept of repellence (i.e. anchorage) of the different substances to repel -i.e. water, oil, but also different liquids that are diluted to the time-dealing (i.e. to achieve high angle-impact) surfaces (i.e. based on favouring the slipping of the different substances to repel -i.e. water, oil, but also different liquids that are diff-fluents-imposing — covalently based on fostering the slipping of the different substances to repel -i.e. water, oil, but also different liquids that are diluted by means of high-diffness-impacts — covalently based on the slippage of the different substances to repelle -i.e. water, oil, but also different fluids that are diffusive (i.e. to achieve high angle-free) surfaces (i.e.). It should be noted that, compared to superhydrophobic surfaces, the omniphobic character opens up wide possibilities for the easy cleaning of glass and ceramic surfaces since the extension of repellence to any dirty fluid means that it is not absolutely necessary to resort to a cleaning stage in which water is used to drag dirt. By way of example, soiling fluids can be ejected directly from the surface if they are in very small quantities (e.g. fingerprint) or when the surface in question is inclined or removed with a cloth taking advantage of low adhesion in the case of surfaces with a fully horizontal orientation._x000D_ _x000D_ Today, there are clear opportunities for glass and ceramics with the aforementioned functionalities. However, this requires a technological leap in terms of functionality — especially as regards anti-footprint — and durability over the solutions proposed so far. (English) / qualifier | |||||||||||||||
point in time: 12 October 2021
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Revision as of 19:11, 12 October 2021
Project Q3177228 in Spain
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | ORGANIC SURFACES USING COVALENT BONDS ON GLASS AND CERAMICS: ANTI-FOOTPRINT FUNCTIONALITY AND EASY DURABLE CLEANING |
Project Q3177228 in Spain |
Statements
210,760.0 Euro
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421,520.0 Euro
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50.0 percent
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1 April 2019
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31 March 2022
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INDUSTRIAS ALCORENSES CONFEDERADAS, S.A.
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40°4'27.91"N, 0°12'49.90"W
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12005
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El objetivo del proyecto OMNI-COVALENTE es el desarrollo de soluciones tecnológicas basadas en formulaciones omnifóbicas estables y procesos de aplicación industrializables que permitan la modificación superficial de vidrio y cerámica para la fabricación de productos con funcionalidades fácil limpieza y anti-huella durables para el sector de la construcción._x000D_ _x000D_ Para ello, OMNI-COVALENTE propone combinar de forma única un concepto alternativo de repelencia (i.e. basado en favorecer el deslizamiento de las diferentes sustancias a repeler -i.e. agua, aceite, pero también diferentes fluidos ensuciantes-, sin necesidad absoluta de alcanzar ángulos de contacto muy altos –ni de las morfologías nanoestructuradas que los proporcionan-) que sea a la vez efectivo para cualquier fluido (OMNIfóbico) mediante recubrimientos o modificaciones de superficies anclados COVALENTEmente a la superficie del vidrio o de la cerámica. Cabe destacar que, en comparación a las superficies superhidrofóbicas, el carácter omnifóbico abre amplias posibilidades de cara a la fácil limpieza de superficies de vidrio y cerámica ya que la extensión de repelencia a cualquier fluido ensuciante hace que no sea absolutamente necesario recurrir a una etapa de limpieza en la que se utiliza agua para arrastrar la suciedad. A modo de ejemplo, los fluidos ensuciantes pueden ser expulsados directamente de la superficie en el caso que sean en muy pequeñas cantidades (ej. huella dactilar) o cuando la superficie en cuestión presente cierta inclinación o ser retirados con un paño aprovechando la baja adherencia en el caso de superficies con orientación totalmente horizontal._x000D_ _x000D_ A día de hoy, existen claras oportunidades para vidrio y cerámica con las funcionalidades mencionadas. Sin embargo, para ello es necesario dar un salto tecnológico en cuanto a la funcionalidad –especialmente en lo que a anti-huella se refiere- y durabilidad con respecto a las soluciones propuestas hasta el momento. (Spanish)
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The objective of the OMNI-COVALENTE project is the development of technological solutions based on stable omniphobic formulations and industrializable application processes that allow the surface modification of glass and ceramics for the manufacture of products with easy cleaning and anti-fingerprint functionality durable for the construction sector._x000D_ _x000D_ For this purpose, OMNI-COVALENTE proposes to uniquely combine an alternative concept of repellence (i.e. anchorage) of the different substances to repel -i.e. water, oil, but also different liquids that are diluted to the time-dealing (i.e. to achieve high angle-impact) surfaces (i.e. based on favouring the slipping of the different substances to repel -i.e. water, oil, but also different liquids that are diff-fluents-imposing — covalently based on fostering the slipping of the different substances to repel -i.e. water, oil, but also different liquids that are diluted by means of high-diffness-impacts — covalently based on the slippage of the different substances to repelle -i.e. water, oil, but also different fluids that are diffusive (i.e. to achieve high angle-free) surfaces (i.e.). It should be noted that, compared to superhydrophobic surfaces, the omniphobic character opens up wide possibilities for the easy cleaning of glass and ceramic surfaces since the extension of repellence to any dirty fluid means that it is not absolutely necessary to resort to a cleaning stage in which water is used to drag dirt. By way of example, soiling fluids can be ejected directly from the surface if they are in very small quantities (e.g. fingerprint) or when the surface in question is inclined or removed with a cloth taking advantage of low adhesion in the case of surfaces with a fully horizontal orientation._x000D_ _x000D_ Today, there are clear opportunities for glass and ceramics with the aforementioned functionalities. However, this requires a technological leap in terms of functionality — especially as regards anti-footprint — and durability over the solutions proposed so far. (English)
12 October 2021
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Alcora, l'
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Identifiers
IDI-20190456
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