Compositions – Electrically conductive or emissive compositions – Free metal containing
Reexamination Certificate
2001-11-14
2004-08-31
Beck, Shrive P. (Department: 1762)
Compositions
Electrically conductive or emissive compositions
Free metal containing
C264S104000, C241S003000, C118S726000, C106S605000, C106S640000, C106S672000, C106S677000, C428S446000, C427S166000, C427S243000, C427S244000, C427S255600
Reexamination Certificate
active
06783704
ABSTRACT:
The invention relates to a process and composition for the production of hydrophobic layers on fluoride substrates or on fluoride layers by vacuum vapour deposition.
In optics, antireflection layers are applied to optical components, for example lenses, spectacle lenses, objectives, binoculars, prisms and mirrors, in order to reduce reflection. Substrates made from mineral glass are frequently provided with a magnesium fluoride coating or a triple coating with the layer sequence aluminium oxide—zirconium oxide or high-refractive-index mixed oxides, such as titanium oxide/lanthanum oxide—magnesium fluoride as antireflection layer. However, these layers are very sensitive to soiling, for example by fingerprints. In addition, they are difficult to clean since the surface of the vapour-deposited magnesium layers has a certain roughness.
However, windows made from fluorides, for example magnesium fluoride, calcium fluoride, barium fluoride or lithium fluoride, are frequently also used in optics. The surfaces of these components must likewise be protected against soiling, scratching and adsorption of water by an additional coating.
Water- and dirt-repellent coatings for optical components are known. DE 195 39 789 describes a process and composition for the production of water-repellent coatings on optical substrates by thermal vapour deposition with fluorinated organosilane compounds in a high vacuum. On oxide layers, strongly adherent and durable protective layers are obtained which exhibit very good resistance to wiping and scratching and have high stability to warm humid air, physiological saline solution and UV radiation. DE 198 25 100, which was not published before the priority date of the present application, describes a composition for the production of water-repellent coatings on optical layers which consists of a porous, electrically conductive moulding and a fluorinated organosilane. This composition has the advantage that, owing to its electrical conductivity, it can be employed without problems in an electron-beam evaporator and precisely controllable evaporation of the organosilicon compounds is possible.
The said processes and compositions have the disadvantage that they cannot be used to produce strongly adherent layers on magnesium fluoride and other alkaline earth metal or alkali metal fluorides.
The property of polyfluorohydrocarbons of forming water- and dirt-repellent surfaces is known from coating technology. As a consequence of their high chemical and heat resistance, they are employed as coating material in chemical apparatus construction. It has also been attempted to use polyfluorohydrocarbons for interference layers on optical substrates.
R. Chow et al., Proc. SPIE 2253 (1994) 512, describe attempts to produce interference layers by evaporation of PTFE copolymer from boats in a high vacuum. The layers obtained are described as very soft, heat-sensitive and unusable for interference layers.
The object of the invention is to provide a process and composition which allows the production of strongly adherent and wipe-stable water- and dirt-repellent layers on alkaline earth metal fluoride and alkali metal fluoride layers.
This object is achieved in accordance with the invention by a process for the production of hydrophobic coatings on optical substrates which have an alkaline earth metal fluoride or alkali metal fluoride layer as the outermost layer or consist of alkaline earth metal fluorides or alkali metal fluorides, by thermal vapour deposition with polyfluorohydrocarbons in a high vacuum.
This object is furthermore achieved in accordance with the invention by a composition for the production of hydrophobic layers on alkaline earth metal fluoride and alkali metal fluoride layers, comprising a porous, inorganic moulding and a polyfluorohydrocarbon, obtainable by
a) mixing a metal oxide or a silicate with an aqueous suspension of a polyfluorohydrocarbon with addition of water in a ratio of from 99:1 to 80:20,
b) drying the pasty material at from 60 to 120° C. and subsequently heating the material at from 250 to 400° C. in air, and
c) granulating and tabletting the resultant solid.
This object is furthermore achieved in accordance with the invention by a composition for the production of hydrophobic layers on alkaline earth metal fluoride and alkali metal fluoride layers, comprising a porous, electrically conductive moulding and a polyfluorohydrocarbon, obtainable by
a) mixing a metal oxide or a silicate with a metal powder and an aqueous suspension of a polyfluorohydrocarbon with addition of water in a ratio of from 90:10:1 to 20:80:30,
b) drying the pasty material at from 60 to 120° C. and subsequently heating the material at from 250 to 400° C. in air, and
c) granulating and tabletting the resultant solid.
The invention also relates to optical substrates having a coating applied by vapour deposition in a high vacuum using the composition according to the invention.
The invention furthermore relates to the use of polyfluorohydrocarbons for the production of hydrophobic layers on optical substrates which consist of alkali metal fluorides or alkaline earth metal fluorides.
The invention also relates to the use of polyfluorohydrocarbons for the production of hydrophobic coatings on optical substrates which have been provided in advance with thin layers for surface coating and/or reflection reduction, where the outermost layer consists of alkali metal fluorides or alkaline earth metal fluorides.
The polyfluorohydrocarbons employed are known and commercially available. Preference is given to polytetrafluoroethylene (PTFE) and perfluoroalkoxy polymers (PFAs). The latter result from the copolymerization of tetrafluoroethylene and perfluoroalkoxy vinyl ethers.
It has been found that the polyfluorohydrocarbons can readily be evaporated in a high vacuum by heating to from 400 to 500° C. under a pressure of from 10
−3
to 10
−5
mbar, during which they precipitate on the substrate with the formation of thin layers. Layer thicknesses of from 5 to 20 nm are necessary.
The process according to the invention can be carried out using high-vacuum vapour deposition units, as are usual for the production of optical layers, such as, in particular, antireflection layers or coating layers for surface hardening. The polyfluorohydrocarbons here are introduced into the unit in a suitable form and manner, for example as granules, in addition to the usual vapour-deposition materials. The polyfluorohydrocarbons are evaporated from a conventional boat which is heated by direct passage of current or by bombardment with an electron beam. It is advantageous to carry out the vapour-deposition step directly after the preceding vapour-deposition processes, for example for application of antireflection layers. Particularly durable layers are obtained if the substrate is heated to temperatures of up to 300° C.
The hydrophobic layers can be applied to interference layers, for example antireflection layers, filters, beam splitters or other optical components or layers. These layers consist either of a single low-refractive-index layer of magnesium fluoride or another alkaline earth metal fluoride or alkali metal fluoride or of a sequence of high- and low-refractive-index layers, where the outermost layer is formed from magnesium fluoride or another alkaline earth metal fluoride or alkali metal fluoride. The hydrophobic layers can furthermore be applied to single-crystal sheets of fluorides, such as magnesium fluoride, barium fluoride or lithium fluoride, for example for optical windows. After the coating layers have been applied, further pretreatment of the substrates before the vapour-deposition with the polyfluorohydrocarbons is unnecessary.
The polyfluorohydrocarbons are usually introduced into the vapour-deposition unit in conventional boats. A particularly advantageous form of introduction of the polyfluorohydrocarbons into the vapour-deposition unit is a porous inorganic moulding.
It has been found that porous mouldings of metal oxides or silicates, which may additionally con
Anthes Uwe
Dombrowski Reiner
Friz Martin
Beck Shrive P.
Markham Wesley D.
Merck Patent GmbH
Millen White Zelano & Branigan P.C.
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