DE102010041230A1 - Use of diamond like carbon layers in the application of metal ion-free semiconductor inks - Google Patents

Abstract

The invention relates to the use of at least one carbon-hydrogen layer on at least one surface of a device which transports flat structures and / or applies powdery, pasty and / or liquid media to these flat structures, which is characterized in that the carbon-hydrogen Layer or layers has at least one amorphous carbon-hydrogen structure.

Description

The invention relates to the use of amorphous carbon-hydrogen layers in devices for applying solid and / or liquid media to fabrics.

Amorphous carbon-hydrogen layers, also known to the person skilled in the art as a: CH layers, "diamond-like hydrocarbon" layers (DLHC layers), or in the absence of hydrogen as "diamond-like carbon" (DLC layers), have long been known and used in the art. A description of their properties and manufacturing methods can be found, for example Andrew McWilliams, "Market Research Report - Diamond, Diamond-Like And CBN Films & Coating Products," bcc Research, ISBN: 1-59623-625-6 ,

Various materials are protected against corrosion or abrasion with surface coatings made of DLHC or DLC.

GB 2 451 060 A discloses medical devices and implants provided with multi-layer DLC, alternating DLC and noble or semi-precious metal layers. Such layer systems are diffusion barriers that protect the medical device or implant from the ingress of toxins and germs.

US 2006/0286800 A1 discloses an a: CH barrier layer into which Co and Si have been incorporated during their plasma-assisted manufacturing process. Silicon compounds, including, for example, SiH ₄ , are injected into the plasma to protect conductors or semiconductors exposed to plasma from depleting charge carriers.

JP 2010-021282 A demonstrates the use of a diamond-like carbon film to stabilize housings for products or systems made of semiconductors or wafers against the diffusion of gases.

Heretofore known uses of carbon-hydrogen layers are aimed at the aesthetic appearance of an object, are intended to protect tools from corrosion or abrasion, or serve the emergency wear protection of moving parts with overheating due to friction, for example, to avoid the seizure of bearings, also serve as a barrier layer against gases, or as an anti-adhesive agent. In biological / medical applications carbon-hydrogen layers block the unwanted penetration of microorganisms, in electronics DLC layers are used to protect against electrostatic disturbances.

The object of the present invention was therefore to provide further uses of carbon-hydrogen layers.

It has been found that carbon-hydrogen layers in the technique of coating fabrics are suitable for avoiding electronic band structures from interfering contaminations with molecules, atoms and / or charge carriers, since the carbon-hydrogen layers act as a diffusion barrier. Contaminations in the context of the present invention are understood as meaning contaminants which alter the electronic properties of the fabrics and / or the medium to be applied.

The invention thus relates to the use of at least one carbon-hydrogen layer on at least one surface of a device that transports fabrics and / or powdery, pasty and / or liquid media applies to these fabrics, which is characterized in that the carbon-hydrogen Layer or layers has or is at least one amorphous carbon-hydrogen structure.

The use of such layers has the advantage of avoiding contamination of the applied medium and / or the sheet with atoms and / or charge carriers. Therefore, the electronic properties of the sheet and media system, in a semiconductive system, for example, the band structures typical of the semiconductors, are maintained during and after the device has passed. Another advantage is that the amorphous carbon-hydrogen layers can be applied in the simplest way, and there is neither a complicated adaptation of the device, nor the carbon-hydrogen layers themselves to the requirements of the processed educts. It is therefore possible to make use of the materials and methods known in the art, in particular the methods of producing DLC and / or DLHC layers.

DLC layers can be used with particular preference because of their greater hardness and diffusion-preventing effect.

In the use according to the invention, the device may comprise a multi-layer carbon-hydrogen layer, for example in the manufacture of electronic semi-finished products or electronic circuits. Preferred use is furthermore in the production of planar semiconductors, light and / or heat-sensitive resistors, photovoltaic cells, electro-optical crystals, electronic circuits, or a combination of these structures.

In the context of the present invention, the transporting of fabrics is understood to mean the transport, the winding and unwinding, the deflection, the turning, the folding, as well as all the usual processes in calendering. This also includes the same or different speeds in any of the fabric transporting combinations of rollers, including their equal or opposite rotation.

In a further embodiment of the use according to the invention, the device comprises or is at least one rotating planar surface, for example a rotating disk in the context of the spin coating method.

The application within the scope of the claimed invention means any process known to those skilled in the art for applying media to surfaces, for example coating, dipping, knife coating, and / or printing. A preferred mode of application is the wet film coating, more preferably the use of the wet film coating for the production of one or more layers in the manufacture of components for solar or semiconductor technology.

The application can also include any conventional type of pre-, final and / or post-treatment of the product obtained, for example, cleaning, customary activation methods, eg. Corona treatment, as well as mixing, heating, drying, introducing electromagnetic energy, flowing with gaseous or liquid media, or bombarding or implanting particles of any kind.

The treatment may be carried out under normal conditions, inert gas atmosphere, and / or under elevated or reduced gas pressure. Even processes under vacuum conditions can be surprisingly well performed in the inventive use, but with low evacuation effort desired vacuum conditions are also achieved when the device has material with high vapor pressure.

The application of media may further include their densification, for example, the compacting of powdery or pasty media. Likewise, the use of the invention may also include compacting or densifying post-treated products, for example compacting applied layers after drying.

Also advantageous is the use according to the invention as a diffusion barrier against atoms and / or charge carriers of the material of the device against the contact of these particles with the sheet, against the penetration of these particles into the sheet and / or in the applied medium. Due to the charge carrier diffusion-preventing property used according to the invention carbon-hydrogen layers this saves the laborious measuring or controlling the semiconducting characteristics of the planned product, for example, elaborate sampling, because the electronic structure of the product obtained is retained unchanged.

The carbon-hydrogen layer or layers may also be in the form of multi-layer systems known to those skilled in the art, for example in the form of multilayer coatings or sandwich structures. The phase boundaries at the contact surfaces of the multilayer or sandwich planes form a labyrinth against particles or charge carriers.

Also advantageous is the use according to the invention as an aid for the adsorption and / or spreading of the medium on the surface of the device. This simplifies or only allows the application of particularly fine structures, uninterrupted paths of the applied medium, or controlled thicknesses on the sheet. In addition, such an expression of the use according to the invention makes it possible to minimize the amount of medium used.

The apparatus in the context of the use according to the invention may be selected from at least one roller, roller, stamp, caster, screen printing frame, dipping frame, doctor blade, plate, nozzle, disk, or a combination of these commissioned works. Furthermore, in the context of the use according to the invention, the device can have printing plates and / or all parts known to the person skilled in the art for spray coating, so-called "spray coating", or parts for ink-jet coating, so-called "ink-jet", or consist of such parts.

Within the scope of the use according to the invention, the roller may be a sandblasted or non-sandblasted smooth roller, anilox roller, transport roller or deflection roller. Furthermore, the nozzle may be a slot nozzle, cascade nozzle, slit coating nozzle, or a curtain coating nozzle. Furthermore, the nozzle may also be a suitable nozzle for all other conventional methods, for example, nozzles for "zone casting", "meniscus coating", and / or "capillary coating". Nozzles for the latter method are also known as "capillary nozzles".

The nozzles in the context of the use according to the invention may have manufacturing or functional tolerances known to the person skilled in the art. The nozzles, which have a carbon Having hydrogen layer or layers may preferably be reworked in a manner known in the art, for example by lapping to achieve required tolerances. Because of the high hardness of the amorphous carbon-hydrogen layers, more preferably DLC layers, this has the advantage of high stability. However, it is also possible to equip all further customary auxiliaries in the context of the use according to the invention with DLC and / or DLHC layers and to work them up in a customary manner. Furthermore, all or some of the auxiliaries in all other application methods known to the person skilled in the art can be provided with DLC and / or DLHC layers and reworked in a customary manner.

It may furthermore be advantageous to select the medium in the use according to the invention from fluid for the production of conductive or semiconducting layers, interconnect medium, dielectric, dopant, dispersion of particles and dispersants, or for producing a combination of these systems.

The fluid may be a solution or dispersion of one or more substances which, after drying, curing or customary preliminary, working and / or finishing, is a layer, line or web with defined electronic properties. Examples thereof are inks known in the art or masses which are conductive or semiconductive during or after drying. In these media, in prior art uses, contact with contaminating metals is particularly critical to the function of the desired semiconductor system. The use according to the invention thus just simplifies the production of semiconductor products and products which are relevant for photovoltaics.

In addition, the sheets in the use according to the invention can be selected from sheet, fleece, woven fabric, knitted fabric, metal foil, glass sheet, plastic film, or a combination of these sheets. The material of the sheet may also be any other material known in the art, or comprise or consist of cellulose. The sheet may be transparent and / or translucent.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• GB 2451060 A [0004]
• US 2006/0286800 Al [0005]
• JP 2010-021282A [0006]

Cited non-patent literature

• Andrew McWilliams, "Market Research Report - Diamond, Diamond-Like And CBN Films & Coating Products", bcc Research, ISBN: 1-59623-625-6 [0002]

Claims (6)

Use of at least one carbon-hydrogen layer on at least one surface of a device that transports fabrics and / or applies powdery, pasty and / or liquid media to these fabrics, characterized in that the carbon-hydrogen layer or layers is at least one amorphous Has or is carbon-hydrogen structure. Use according to claim 1 as a diffusion barrier against atoms and / or charge carriers of the material of the device against the contact of these particles with the sheet, against the penetration of these particles into the sheet and / or in the applied medium. Use according to claim 1 as an aid for adsorption and / or spreading of the medium on the surface of the device. Use according to at least one of the preceding claims, wherein the device is selected from at least one roller, roller, stamp, caster, screen printing frame, dipping frame, doctor blade, plate, nozzle, disc, or a combination of these commissioned works. Use according to at least one of the preceding claims, wherein the medium is selected from fluid for the production of conductive or semiconductive layers, interconnect medium, dielectric, dopant, dispersion of particles and dispersants, or for producing a combination of these systems. Use according to at least one of the preceding claims, wherein the sheet is selected from plate, nonwoven fabric, woven fabric, knitted fabric, metal foil, glass sheet, plastic film, or a combination of these sheets.