| Agua Nueva Formation | |
|---|---|
| Stratigraphic range: Late | |
| Type | Formation |
| Lithology | |
| Primary | Limestone |
| Other | Shale. bentonite, chert |
| Location | |
| Country | Mexico |
| Extent | San Luis Potosí |
The Agua Nueva Formation is a geologic formation in Mexico. It preserves fossils dating back to the upper part of the Cenomanian stage of the Cretaceous period. It consists "predominantly of alternating fossiliferous, organic matter-rich, laminated, dark gray limestone and non-laminated, organic matter-poor limestone in decimeter-thick beds (10 to 30 cm) with occasional centimetric beds (5 cm) of brown shale that show no apparent internal structures."[1] The formation is noted for its qualities as a Konservat-Lagerstätte, with notable finds including the plesiosaur Mauriciosaurus and shark Aquilolamna.
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Using Lasers to Create Super-hydrophobic Materials
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INCENDIOS URBANOS: ATAQUE OFENSIVO
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Erosión. El Gran Cañón del Colorado.avi
Transcription
A couple years ago, my lab created a technology that turns a variety of materials superhydrophilic. Superhydrophilic means it actually attracts water. We actually turned the surface hydrophilic to such a strong degree that water runs uphill against gravity. That technology can have many applications on its own. After that, we started to work on the counterpart technology, making surface to repel water or as we call it, hydrophobic. We have been working on creating superhydrophobic material using a laser processing technique. What we see here is pretty interesting. The water falls to wards the surface and is repelled and bounces off the surface. This is achieved by creating a unique pattern of surface structures at micro and nano scales with our laser processing technology and those structures are intrinsically part of the material’s surface. Most of the hydrophobic surfaces available today rely on chemical coatings. Our surface has many advantages over the coatings out there. First our surface has a much stronger hydrophobic effect than the coatings and secondly, we don’t have to worry about coatings peeling off and the surface degrading over time. Many people think of Teflon as a strong hydrophobic material. However, if you want to get rid of water on a Teflon surface you have to tilt the surface to about 70 degrees before the water starts to slide off slowly. Our surface requires an extremely small angle, if at all, for water to slide off. I think there are many possible applications for this new superhydrophobic surface. For instance, if a surface repels water, you will also prevent icing on the surface, you will be anti-corrosive and there’s sanitation applications as well. We wanted to create this superhydrophobic surface that will not only repel water but also repels water containing a waste materials. We know in many developing countries in the world, clean water is a scarce resource so if you create a toilet instead of using a lot of water to flush the toilet, would require little or no water but still stay clean and dry.
See also
References
- ^ Blanco, Alberto; Ángeles-Trigueros, Susana Abigail; Hernández-Ávila, Juan; Silva-Martínez, Luis E.; Zavala-Díaz de la Serna, Francisco Javier; Ambrocio-Cruz, Silvia Patricia; Castañeda-Posadas, Carlos; Blanco, Alberto; Ángeles-Trigueros, Susana Abigail; Hernández-Ávila, Juan; Silva-Martínez, Luis E. (2016). "Microscopic biomorphic structures in Upper Cretaceous marine sedimentary pyrite". Revista Mexicana de Ciencias Geológicas. 33 (3): 378–386. ISSN 1026-8774.
External links
- "Fossilworks: Gateway to the Paleobiology Database". Retrieved 17 December 2021.
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This page was last edited on 10 February 2024, at 17:43