Non-stick surface
A non-stick surface is engineered to reduce the ability of other materials to stick to it. Non-stick cookware is a common application, where the non-stick coating allows food to brown without sticking to the pan. Non-stick is often used to refer to surfaces coated with
Types
Seasoning
Fluoropolymer
The modern non-stick pans were made using a coating of
By 1951 Dupont had developed applications for Teflon in commercial bread and cookie-making; however, the company avoided the market for consumer cookware due to potential problems associated with release of toxic gases if stove-top pans were overheated in inadequately ventilated spaces. While working at
A few years later, a French engineer had begun coating his fishing gear with Teflon to prevent tangles. His wife Colette suggested using the same method to coat her cooking pans. The idea was successful and a French patent was granted for the process in 1954. The Tefal company was formed in 1956 to manufacture non-stick pans.[5]
PTFE (Teflon)
Utensils used with PTFE-coated pans can scratch the coating if the utensils are harder than the coating; this can be prevented by using non-metallic (usually plastic or wood) cooking tools.
Health concerns
When pans are overheated beyond approximately 260°C (500°F) the PTFE coating begins to dissociate, releasing
Processing of PTFE in the past used to include
PFOA is now replaced by the GenX product manufactured by the DuPont spin-off Chemours, which seems to pose similar health issues as the now banned PFOA.[17]
Culinary uses and limitations
With other types of pans, some oil or fat is required to prevent hot food from sticking to the pan's surface. Food does not have the same tendency to stick to a non-stick surface; pans can be used with less, or no oil, and are easier to clean as residues do not stick to the surface.
According to writer Tony Polombo, pans that are not non-stick are better for producing pan gravy, because the fond (the caramelized drippings that stick to the pan when meat is cooked) sticks to them, and can be turned into pan gravy by deglazing them—dissolving them in liquid.[18]
Ceramic
Not all non-stick pans use Teflon; other non-stick coatings have become available. For example, a mixture of
Ceramic nonstick pans use a finish of silica (silicon dioxide) to prevent sticking. It is applied using a
With the
Superhydrophobic
A superhydrophobic coating is a thin surface layer that repels water. It is made from superhydrophobic (ultrahydrophobicity) materials. Droplets hitting this kind of coating can fully rebound.[24][25] Generally speaking, superhydrophobic coatings are made from composite materials where one component provides the roughness and the other provides low surface energy.[26]
Liquid-impregnated surface
A liquid-impregnated surface consists of two distinct layers. The first is a highly textured or porous substrate with features spaced sufficiently close to stably contain the second layer which is an impregnating liquid that fills in the spaces between the features.[27] The liquid must have a surface energy well-matched to the substrate in order to form a stable film.[28] These surfaces bioimitate the carnivorous Venezuelan pitcher plant, which uses microscale hairs to create a water slide that causes ants to slip to their death. Slippery surfaces are finding applications in commercial products, anti-fouling surfaces, anti-icing and biofilm-resistant medical devices.
See also
References
- ^ How to Season a Wok- Serious Eats
- ^ "How to Turn a Stainless Steel Skillet into a Nonstick Pan". 23 March 2017.
- ^ "Roy J. Plunkett". Science History Institute. June 2016. Retrieved 21 February 2018.
- ^ Center for Oral History. "Roy J. Plunkett". Science History Institute. Retrieved 21 February 2018.
- ^ Invention and Technology Magazine. Summer 2000. 16 (1). Retrieved 2015-02-21.
- ^ "Inspired by teflon, researchers create super durable proteins".
- ^ "Invention, Innovation and Entrepreneurship Begin at the NYU Polytechnic School of Engineering". 21 April 2014.
- ^ Nicholas J. Wall, US 5069937 "Thermal spraying of stainless steel", 1988
- ^ Laurence W. McKeen, Fluorinated coatings and finishes handbook, 2006, p. 117
- ^ Excalibur brochure, PDF
- ^ "Cooking For Engineers". Cookingforengineers.com. Retrieved 23 January 2016.
- ^ "Cookware Safety by Teflon nonstick coatings". Chemours Web site. Retrieved 23 January 2016.
- ^ "Safety of Teflon Non-Stick Coatings for Cookware". DuPont. Archived from the original on 2008-01-17. Retrieved 2009-05-06.
- ^ American Cancer Society, Teflon and Perfluorooctanoic Acid (PFOA)
- ^ Tugend, Alina (October 14, 2006). "Teflon Is Great for Politicians, but Is It Safe for Regular People?". New York Times. Retrieved 15 September 2013.
- ^ Juliet Eilperin: Harmful Teflon Chemical To Be Eliminated by 2015. The Washington Post, 2006-01-26
- ^ "Basic Information on PFAS". PFOA, PFOS and Other PFASs. Washington, D.C.: U.S. Environmental Protection Agency (EPA). 2018-02-18.
- ISBN 9780595378661.
- ISBN 9781583407899.
- ^ "You Can't Always Trust Claims on 'Non-Toxic' Cookware". Consumer Reports. 26 October 2022. Retrieved 2022-11-11.
- ^ trk (2020-07-28). "Is Nonstick Cookware Safe?". the rational kitchen. Retrieved 2023-07-20.
- ^ "EPA imposes stricter limits on four types of toxic 'forever chemicals'". the Guardian. 2022-06-15. Retrieved 2022-11-11.
- ISSN 1059-1028. Retrieved 2022-11-11.
- ^ Richard, Denis, Christophe Clanet, and David Quéré. "Surface phenomena: Contact time of a bouncing drop." Nature 417.6891 (2002): 811-811
- ^ Yahua Liu, Lisa Moevius, Xinpeng Xu, Tiezheng Qian, Julia M Yeomans, Zuankai Wang. "Pancake bouncing on superhydrophobic surfaces." Nature Physics, 10, 515-519 (2014)
- S2CID 206022154.
- ^ "US Patent # US 20130032316 A1". US Patent. USPTO. Retrieved 18 October 2013.
- S2CID 4300247.
External links
- How non-stick pan works
- "Science plans 'non-stick' submarine", bbc.co.uk, 10 October, 2003
- Rebecca Morelle; Liz Seward (13 September 2007). "'Virtually non-stick' gum created". BBC News.
- How non-stick surface works- Illustration, from How Stuff Works.
- PTFE Properties
- A Guide to Materials, Performance, Maintenance, Health, & Smart Buying Decisions