Coating processes – Nonuniform coating – Applying superposed diverse coatings or coating a coated base
Reexamination Certificate
2002-01-18
2004-03-23
Parker, Fred J. (Department: 1762)
Coating processes
Nonuniform coating
Applying superposed diverse coatings or coating a coated base
C427S058000, C427S258000, C427S421100
Reexamination Certificate
active
06709705
ABSTRACT:
TECHNICAL FIELD
The invention relates to a method of producing a track on a substrate, wherein a relief pattern of a first solidified liquid is provided on the substrate to laterally bound the track, and a second liquid is provided within the relief pattern by spraying, while a spraying nozzle and the substrate are moved with respect to each other, said second liquid having an advancing spraying front, and the track resulting from said liquid upon solidification thereof.
BACKGROUND AND SUMMARY OF THE INVENTION
A prior art method of producing a track on a substrate is described in patent application Ser. No. WO 99 20 418.8 (PHN17.155).
In accordance with this method, the relief pattern is obtained by photolithography. In this process, the entire substrate is covered with a photosensitive liquid layer which, after solidification, is exposed via a mask and developed. The second liquid is applied by ink jet printing. The relief pattern may bound a layer of the second liquid, which is applied in a thickness up to six times the thickness of the relief pattern.
This method has the drawback that it comprises many operations: applying and spreading the liquid, drying, exposing, developing and drying, making said method time-consuming and hence expensive. In addition, said method requires a mask, a quantity of liquid large enough to cover the entire substrate, although only the liquid ending up in the relief pattern is used, as well as developing liquid.
A further drawback of said method resides in that, if the relief pattern is no longer used after the application of the tracks, said relief pattern is difficult to remove.
It is an object of the invention to provide a method of producing a track on a substrate by which a track can be readily and rapidly manufactured on a substrate.
In accordance with the invention, this object is achieved in that the relief pattern is produced by providing the first liquid by spraying, which first liquid has a spraying front, and allowing said liquid to solidify before providing the second liquid.
The method has the advantage that the first liquid is applied only at locations where it is necessary, so that the use of excess liquid is precluded. A further advantage of the method resides in that the use of a mask is precluded. The relief pattern is formed by controlling the spraying nozzle with respect to the substrate.
The spraying operation can be carried out, for example, by means of a spraying nozzle, which is a dispenser, the relevant liquid being forced outwards in the form of a jet. The spraying operation may alternatively be carried out by ink jet printing, in which process the spraying nozzle is an ink jet printing head that discharges droplets of the relevant liquid and deposits them on the substrate, after which these droplets spread so as to form the relief pattern or the track.
The first liquid may solidify as a result of evaporation of a diluting agent from the liquid, as is the case, for example, when use is made of a positive photoresist; but when use is made of a negative photoresist, further solidification may be obtained, if necessary, by irradiating, for example exposing, the relief pattern, causing crosslinking of molecules in the pattern. It is alternatively possible to employ a melt which solidifies, during or after deposition, as a result of coagulation.
In an attractive modification of the method in accordance with the invention, the first liquid and the second liquid are applied in one operation, wherein the spraying front of the first liquid has a lead over the spraying front of the second liquid. Said lead of the spraying front of the first liquid serves to enable the deposited first liquid to solidify before the spraying front of the second liquid arrives. The risk that the liquids merge is thus precluded. If necessary, solidification of the first liquid can be accelerated by heating the substrate and/or the relief pattern and/or by blowing a dry gas over the substrate. If use is made of a melt, the temperature of said melt will generally be close to its coagulation temperature, so that solidification occurs as a result of contact with the colder substrate. If necessary, however, a gas stream can be blown over the deposited liquid to increase heat dissipation and accelerate coagulation. Said melt may be, for example, a polymeric compound or a comparatively high-molecular compound, for example a waxlike compound such as a paraffin or a mixture of paraffins.
In a particular embodiment, the first liquid comprises a compound with a head group that bonds to the substrate, for example by adsorption, and a tail that avoids the substrate and repels the second liquid. This embodiment has the advantage that the relief pattern may have a very small, monomolecular thickness of several nm, for example 2 nm, as a result of which said relief can be readily removed, if necessary, at a later stage, for example by means of a glow discharge. Despite the very small thickness of the relief, a track of substantial thickness after solidification can be provided, for example a thickness of 100 nm, which is a factor of 50 thicker than the relief pattern.
The method in accordance with the invention has the advantage that a track having a small width, for example 10 &mgr;m, can be obtained, said width being smaller than the width, for example 100 &mgr;m, over which a droplet of the second liquid isolated from other droplets would spread over the substrate in the absence of the relief pattern. The method nevertheless enables a track having a larger thickness to be obtained, at said comparatively small width, than would be possible in the absence of the relief pattern, if droplets of the second liquid are deposited at the largest possible distance from each other at which said droplets still merge to form a continuous track.
The first liquid may comprise a compound selected from the group formed by compounds with an alkoxysilyl group, compounds with a halosilyl group and compounds with a thiol group. These compounds adhere to the substrate, generally by, for example, a condensation reaction with hydroxyl groups that may be present at the substrate. Examples of these compounds are: alkoxysilylalkanes, for example those derived from alkanes having 12 to 22, in particular 16 to 20 carbon atoms, such as trimethoxysilyloctadecane, the corresponding halosilylalkanes, such as chlorosilylalkanes, for example monochloro or trichlorosilyloctadecane, and the corresponding thiols, such as octadecylmercaptane [CH
3
(CH
2
)
17
SH]. Alternatively, fluorocarbon polymers, such as FC 725 manufactured by 3M, may be applied in the first liquid.
Thiols, also referred to as mercaptanes, are attractive because they are comparatively volatile and, during the manufacture of the relief pattern, thiol vapor immediately deposits next to the deposited droplets, which thiol vapor hampers the lateral spread of the deposited droplet, which phenomenon is commonly referred to as autophobic pinning, thereby making sure that the pattern remains narrow. The first liquid may comprise a diluting agent, such as ethanol, heptane and acetone.
The substrate may be made of different materials. For example, it may be made of glass, silicon, germanium, ceramics such as aluminum oxide, or synthetic resin. Said substrate may be provided with a coating, for example of gold, silver, platinum, copper, aluminum, indium tin oxide, aluminum tin oxide, at the location of the relief pattern and/or between the relief pattern.
The second liquid may be a solution or a dispersion of a conductor, for example a metal or a conductive polymer, such as polyaniline, poly-3,4-ethylenedioxythiophene (PEDOT) or a polymer derived therefrom, a semiconductor such as polythienylenevinylene (PPV), poly(3-hexylthiophene) and pentacenes, silicon having a particle size of, for example, several nanometers, germanium CdSe, (C
6
H
5
C
2
H
4
NH
3
)
2
SnI
4
, or a luminescent substance, such as Y
2
O
3
doped with Eu, or an electroluminescent substance, for example an organic electroluminescent substance of both a comparativ
Decre Michel Marcel Jose
Duineveld Paulus Cornelis
Lammers Jeroen Herman
Van Dam Dirkjan Bernhard
Koninklijke Philips Electronics , N.V.
Parker Fred J.
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