摘要:
What is described here is a process for the initial growth of nitrogenous semiconductor crystal materials in the form AXBYCZNVMW wherein A, B, C is an element of group II or III, N is nitrogen, M represents an element of group V or VI, and X, Y, Z, W denote the molar fraction of each element of this compound, using a, which are deposited on sapphire, SiC or Si, using various ramp functions permitting a continuous variation of the growth parameters during the initial growth.
摘要:
A CVD reactor comprising: a reactor casing with a casing cover, a heated susceptor for one wafer or several wafers, which is disposed in the reactor casing, a fluid inlet unit including a plurality of openings facing said wafer or wafers through which the CVD media, which is moderately heated, enter the reactor, and a fluid outlet disposed on the periphery of the reactor casing, through which the introduced media is discharged; wherein the fluid outlet has roughly the shape of a disk with a plurality of outlet openings for the discharge of CVD media, and is disposed between the susceptor and the reactor cover in such a way that the fluid outlet is heated by the susceptor by radiation and hence adjusts itself to a temperature between the temperature of the susceptor and the reactor cover through which the CVD media enter in a moderately heated state.
摘要:
The invention relates to a device for depositing thin, especially crystalline layers on at least one substrate, especially a crystalline substrate. Said device comprises a substrate holder which is rotationally arranged in a reactor housing and at least one sensor for measuring a process parameter and a transferring means for transferring the measured values of the process parameter to an evaluation device. The inventive transfer takes place in a wireless manner. The transmitter is arranged inside the reactor housing and a receiver is arranged outside the reactor housing.
摘要:
A method for the production of coated substrates, such as OLEDs is disclosed, whereby at least one layer is deposited on the at least one substrate, by means of a condensation method and a solid and/or fluid precursor and, in particular, at least one sublimate source is used for at least one part of the reaction gases. The invention is characterized in that, by means of a temperature control of the reaction gases between precursor source(s) and substrate, a condensation of the reaction gases before the substrate(s) is avoided.
摘要:
A reaction chamber for carrying out substrate coating methods is disclosed, having at least one opening in at least one outer wall in which an HF feedthrough is inserted in a pressure or vacuum tight manner. The reaction chamber is further characterized by a combination of the following features: a support plate with coolant channels, and at least one opening for an HF line; an HF line collar in the zone disposed in the reaction chamber, a first seal on the collar; a first disc from an insulating material between a second seal on the support plate and the first seal on the collar; a thread in the zone outside the reaction chamber, a screw element being screwed onto the thread, all configured to prevent an electrical contact between the HF line and the support plate being established or an arc-over between the HF line and the support plate occurring.
摘要:
The invention relates to a method and to a device for carrying out the method for depositing, in particular, crystalline layers on substrates that are also, in particular, crystalline. According to the invention, at least two process gases are introduced separate from one another into a process chamber of a reactor, whereby the first process gas flows through a central line having a central outlet opening, and the second process gas flows through a line, which is peripheral thereto and which has a peripheral outlet opening. The second process gas flows through one or more supply lines and into a mixing chamber and flows through additional means, which influence the gas stream and which are provided for homogenizing the radial flow profile of the process gas exiting the peripheral outlet opening. The aim of the invention is to obtain a homogeneous radial flow profile by using simple means. To this end, the invention provides that the second process gas flows through a flow influencing element, which is situated downstream from the mixing chamber and which is provided, in particular, in the form of an annular throttle or of turbulence generator, and flows through an annular pre-chamber situated downstream therefrom, after which said second process gas exits through a gas-permeable gas outlet ring.
摘要:
The invention relates to a method for depositing especially, crystalline layers onto especially, crystalline substrates. At least two process gases are led into a process chamber of a reactor separately from each other, through a gas inlet mechanism above a heated susceptor. The first process gas flows through a central line with a central outlet opening and the second process gas flows through a line which is peripheral thereto and which has a peripheral outlet opening that is formed by a gas-permeable gas outlet ring. Said gas outlet ring surrounds a ring-shaped pre-chamber. The invention provides that in order to avoid a parasitic deposition in the area of the peripheral outlet opening, the end section of the gas outlet ring that faces towards the susceptor or the radially outer section of the surface of the gas outlet mechanism surrounding the central outlet opening is cooled by the second process gas according to a truncated cone or revolution hyperboloid shape of a gas guiding surface formed by the pre-chamber back wall.
摘要:
The invention relates to a device and method for depositing one or more layers onto at least one substrate placed inside a reaction chamber. The layers are deposited while using a liquid or solid starting material for one of the reaction gases utilized, which are fed via a gas admission unit to the reaction chamber where they condense or epitaxially grow on the substrate. The gas admission unit comprises a multitude of buffer volumes in which the reaction gasses enter separate of one another, and exit through closely arranged outlet openings while also being spatially separate of one another. The temperature of reaction gases is moderated while passing through the gas admission unit.